Generate Service Areas (Ready To Use)

Summary

Determines network service areas around facilities. A network service area is a region that encompasses all streets that can be accessed within a given distance or travel time from one or more facilities. For instance, the 10-minute service area for a facility includes all the streets that can be reached within 10 minutes from that facility.

Service areas are commonly used to visualize and measure accessibility. For example, a three-minute drive-time polygon around a grocery store can determine which residents can reach the store within three minutes and are more likely to shop there.

Legacy:
This is a deprecated service.

Illustration

Multiple service area polygons

Usage

  • Tools in the Ready To Use toolbox areArcGIS Online geoprocessing services that use ArcGIS Online hosted data and analysis capabilities.

  • The service creates drive-time areas if the value for the Break Units parameter is set to a time unit. Similarly, the service creates drive-distance areas if the Break Units value is distance units.

  • You must specify at least one facility to successfully run the service. You can load up to 1,000 facilities.

  • You can include up to 250 point barriers. You can include any number of line or polygon barriers, but line barriers cannot intersect more than 500 street features, and polygon barriers cannot intersect more than 2,000 features.

  • Regardless of whether the Use Hierarchy parameter is checked (True), hierarchy is always used when the largest break value exceeds 240 minutes or 240 miles (386.24 kilometers). When the output service areas aren't overlapping and generalized, this limit is reduced to 15 minutes and 15 miles (24.14 kilometers).

  • If the distance between an input point and its nearest traversable street is greater than 12.42 miles (20 kilometers), the point is excluded from the analysis.

  • Travel times cannot exceed 9 hours (540 minutes) when walking or 5 hours (300 minutes) for all other travel modes.

  • Travel distances cannot exceed 27 miles (43.45 kilometers) when walking or 300 miles (482.80 kilometers) for all other travel modes.

  • When walking, the maximum travel time when generating detailed polygons cannot exceed 5 hours (300 minutes). For all other travel modes, the maximum travel time cannot exceed 15 minutes.

  • For all travel modes including walking, the maximum travel distance when generating detailed polygons cannot exceed 15 miles (24.14 kilometers).

  • When walking, the maximum travel time when generating service area lines cannot exceed 5 hours (300 minutes). For all other travel modes, the maximum travel time cannot exceed 15 minutes.

  • For all travel modes including walking, the maximum travel distance when generating service area lines cannot exceed 15 miles (24.14 kilometers).

  • Polygon trim distance cannot exceed 500 meters.

Parameters

LabelExplanationData Type
Facilities

The input locations around which service areas are generated.

You can load up to 1,000 facilities.

The facilities feature set has an associated attribute table. The fields in the attribute table are described below.

ObjectID

The system-managed ID field.

Name

The name of the facility. If the name is not specified, a name is automatically generated at solve time.

All fields from the input facilities are included in the output polygons when the Polygons for Multiple Facilities parameter is set to Overlapping or Not Overlapping. The ObjectID field on the input facilities is transferred to the FacilityOID field on the output polygons.

Breaks

Specify the extent of the service area to be calculated on a per facility basis.

This attribute allows you to specify a different service area break value for each facility. For example, with two facilities, you can generate 5- and 10-minute service area polygons for one facility and 6-, 9-, and 12-minute polygons for the other facility.

Separate multiple break values with a space, and specify the numeric values using the dot character as your decimal separator, even if the locale of your computer defines a different decimal separator. For example, the value 5.5 10 15.5 specifies three break values around a facility.

AdditionalTime

The amount of time spent at the facility, which reduces the extent of the service area calculated for the given facility. The default value is 0.

For example, when calculating service areas that represent fire station response times, AdditionalTime can store the turnout time, which is the time it takes a crew to put on the appropriate protective equipment and exit the fire station, for each fire station. Assume Fire Station 1 has a turnout time of 1 minute and Fire Station 2 has a turnout time of 3 minutes. If a 5-minute service area is calculated for both fire stations, the actual service area for Fire Station 1 is 4 minutes (since 1 of the 5 minutes is required as turnout time). Similarly, Fire Station 2 has a service area of only 2 minutes from the fire station.

AdditionalDistance

The extra distance traveled to reach the facility before the service is calculated. This attribute reduces the extent of the service area calculated for the given facility. The default value is 0.

Generally, the location of a facility, such as a store location, isn't exactly on the street; it is set back somewhat from the road. This attribute value can be used to model the distance between the actual facility location and its location on the street if it is important to include that distance when calculating the service areas for the facility.

AdditionalCost

The extra cost spent at the facility, which reduces the extent of the service area calculated for the given facility. The default value is 0.

Use this attribute value when the travel mode for the analysis uses an impedance attribute that is neither time based nor distance based The units for the attribute values are interpreted to be in unknown units.

CurbApproach

Specifies the direction a vehicle may arrive at and depart from the facility. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses):

  • 0 (Either side of vehicle)—The vehicle can approach and depart the facility in either direction, so a U-turn is allowed at the facility. This setting can be chosen if it is possible and practical for a vehicle to turn around at the facility. This decision may depend on the width of the road and the amount of traffic or whether the facility has a parking lot where vehicles can enter and turn around.
  • 1 (Right side of vehicle)—When the vehicle approaches and departs the facility, the curb must be on the right side of the vehicle. A U-turn is prohibited. This is typically used for vehicles such as buses that must arrive with the bus stop on the right-hand side.
  • 2 (Left side of vehicle)—When the vehicle approaches and departs the facility, the curb must be on the left side of the vehicle. A U-turn is prohibited. This is typically used for vehicles such as buses that must arrive with the bus stop on the left-hand side.
  • 3 (No U-Turn)—When the vehicle approaches the facility, the curb can be on either side of the vehicle, however, the vehicle must depart without turning around.

The CurbApproach attribute is designed to work with both types of national driving standards: right-hand traffic (United States) and left-hand traffic (United Kingdom). First, consider a facility on the left side of a vehicle. It is always on the left side regardless of whether the vehicle travels on the left or right half of the road. What may change with national driving standards is your decision to approach a facility from one of two directions; that is, so it ends up on the right or left side of the vehicle. For example, if you want to arrive at a facility and not have a lane of traffic between the vehicle and the facility, choose 1 (Right side of vehicle) in the United States and 2 (Left side of vehicle) in the United Kingdom.

Bearing

The direction in which a point is moving. The units are degrees and are measured clockwise from true north. This field is used in conjunction with the BearingTol field.

Bearing data is usually sent automatically from a mobile device equipped with a GPS receiver. Try to include bearing data if you are loading an input location that is moving, such as a pedestrian or a vehicle.

Using this field tends to prevent adding locations to the wrong edges, which can occur when a vehicle is near an intersection or an overpass, for example. Bearing also helps the tool determine on which side of the street the point is.

BearingTol

The bearing tolerance value creates a range of acceptable bearing values when locating moving points on an edge using the Bearing field. If the Bearing field value is within the range of acceptable values that are generated from the bearing tolerance on an edge, the point can be added as a network location there; otherwise, the closest point on the next-nearest edge is evaluated.

The units are in degrees, and the default value is 30. Values must be greater than 0 and less than 180. A value of 30 means that when Network Analyst attempts to add a network location on an edge, a range of acceptable bearing values is generated 15 degrees to either side of the edge (left and right) and in both digitized directions of the edge.

NavLatency

This field is only used in the solve process if the Bearing and BearingTol fields also have values; however, entering a NavLatency field value is optional, even when values are present in Bearing and BearingTol. NavLatency indicates how much cost is expected to elapse from the moment GPS information is sent from a moving vehicle to a server and the moment the processed route is received by the vehicle's navigation device.

The units of NavLatency are the same as the units of the impedance attribute.

Feature Set
Break Values

Specifies the size and number of service area polygons that will be generated for each facility. The units are determined by the Break Units value.

Multiple polygon breaks can be set to create concentric service areas per facility. For instance, to find 2-, 3-, and 5-mile service areas for each facility, type 2 3 5, separating the values with a space, and set Break Units to Miles. There is no limit to the number of break values you can specify.

The size of the maximum break value can't exceed the equivalent of 300 minutes or 300 miles (482.80 kilometers). When generating detailed polygons, the maximum service-area size is limited to 15 minutes and 15 miles (24.14 kilometers).

String
Break Units

Specifies the units for the Break Values parameter.

The units you choose for this parameter determine whether the service will create service areas by measuring driving distance or driving time. Choose a time unit to measure driving time. To measure driving distance, choose a distance unit. The specified value also determines the units that will be used to report total driving time or distance in the results.

The choices are as follows:

  • MetersThe linear unit will be meters.
  • KilometersThe linear unit will be kilometers.
  • FeetThe linear unit will be feet.
  • YardsThe linear unit will be yards.
  • MilesThe linear unit will be miles.
  • Nautical MilesThe linear unit will be nautical miles.
  • SecondsThe time unit will be seconds.
  • MinutesThe time unit will be minutes.
  • HoursThe time unit will be hours.
  • DaysThe time unit will be days.
String
Analysis Region
(Optional)

The region in which the analysis will be performed. If a value is not specified for this parameter, the tool will automatically calculate the region name based on the location of the input points. Setting the name of the region is required only if the automatic detection of the region name is not accurate for the inputs.

To specify a region, use one of the following values:

  • EuropeThe analysis region will be Europe.
  • JapanThe analysis region will be Japan.
  • KoreaThe analysis region will be Korea.
  • Middle East And AfricaThe analysis region will be Middle East and Africa.
  • North AmericaThe analysis region will be North America.
  • South AmericaThe analysis region will be South America.
  • South AsiaThe analysis region will be South Asia.
  • ThailandThe analysis region will be Thailand.
Legacy:

The following region names are no longer supported and will be removed in future releases. If you specify one of the deprecated region names, the tool automatically assigns a supported region name for the region.

  • Greece redirects to Europe
  • India redirects to SouthAsia
  • Oceania redirects to SouthAsia
  • SouthEastAsia redirects to SouthAsia
  • Taiwan redirects to SouthAsia

String
Travel Direction
(Optional)

Specifies whether the direction of travel used to generate the service area polygons is toward or away from the facilities.

The direction of travel may change the shape of the polygons because impedances on opposite sides of streets may differ or one-way restrictions may exist, such as one-way streets. The direction you should choose depends on the nature of your service area analysis. The service area for a pizza delivery store, for example, should be created away from the facility, whereas the service area of a hospital should be created toward the facility.

  • Away From FacilityThe service area will be generated in the direction away from the facilities.
  • Towards FacilityThe service area will be generated in the direction toward the facilities.
String
Time of Day
(Optional)

The time to depart from or arrive at the facilities. The interpretation of this value depends on whether travel is toward or away from the facilities.

  • It represents the departure time if Travel Direction is set to Away from facilities.
  • It represents the arrival time if Travel Direction is set to Toward facilities.

You can use the Time Zone for Time of Day parameter to specify whether this time and date refers to UTC or the time zone in which the facility is located.

Repeatedly solving the same analysis, but using different Time of Day values, allows you to see how a facility's reach changes over time. For instance, the five-minute service area around a fire station may start out large in the early morning, diminish during the morning rush hour, grow in the late morning, and so on, throughout the day.

Date
Use Hierarchy

Specifies whether hierarchy will be used when finding the best route between the facility and the incident.

  • Checked (True)—Hierarchy will be used for the analysis. Using a hierarchy results in the solver preferring higher-order edges to lower-order edges. Hierarchical solves are faster, and they can be used to simulate the preference of a driver who chooses to travel on freeways over local roads when possible—even if that means a longer trip.
  • Unchecked (False)—Hierarchy will not be used for the analysis. Not using a hierarchy yields an accurate service area measured along all edges of the network dataset regardless of hierarchy level.

Regardless of whether the Use Hierarchy parameter is checked (True), hierarchy is always used when the largest break value exceeds 240 minutes or 240 miles (386.24 kilometers).

Boolean
UTurn at Junctions
(Optional)

Specifies whether to restrict or permit the service area to make U-turns at junctions. To understand the parameter values, consider the following terminology: a junction is a point where a street segment ends and potentially connects to one or more other segments; a pseudojunction is a point where exactly two streets connect to one another; an intersection is a point where three or more streets connect; and a dead end is where one street segment ends without connecting to another.

  • AllowedU-turns are permitted at junctions with any number of connected edges. This is the default value.
  • Not AllowedU-turns are prohibited at all junctions, regardless of junction valency. However, U-turns are still permitted at network locations even when this option is chosen, but you can set the individual network locations' CurbApproach attribute to prohibit U-turns there as well.
  • Allowed only at Dead EndsU-turns are prohibited at all junctions except those that have only one adjacent edge (a dead end).
  • Allowed only at Intersections and Dead EndsU-turns are prohibited at junctions where exactly two adjacent edges meet but are permitted at intersections (junctions with three or more adjacent edges) and dead ends (junctions with exactly one adjacent edge). Often, networks have extraneous junctions in the middle of road segments. This option prevents vehicles from making U-turns at these locations.
String
Geometry at Overlaps
(Optional)

Specifies how service area polygons will be generated when multiple facilities are present in the analysis.

When using Overlapping or Not Overlapping, all fields from the input facilities are included in the output polygons, with the exception that values from the input ObjectID field are transferred to the FacilityOID field of the output polygons. The FacilityOID field is null when merging by break value, and the input fields are not included in the output.

  • OverlappingIndividual polygons will be created for each facility. The polygons can overlap each other. This is the default.
  • Not OverlappingIndividual polygons will be created so that a polygon from one facility cannot overlap polygons from other facilities. Any portion of the network can only be covered by the service area of the nearest facility.
  • Merge by Break ValuePolygons of different facilities with the same break value will be created and joined.
String
Geometry at Cutoffs
(Optional)

Specifies whether concentric service area polygons will be created as disks or rings. This parameter is applicable only when multiple break values are specified for the facilities.

  • RingsThe polygons representing larger breaks will exclude the polygons of smaller breaks. This creates polygons between consecutive breaks. Use this option to find the area from one break to another. For instance, if you create 5- and 10-minute service areas, the 10-minute service area polygon will exclude the area under the 5-minute service area polygon. This is the default.
  • DisksPolygons will be created from the facility to the break. For instance, if you create 5- and 10-minute service areas, the 10-minute service area polygon will include the area under the 5-minute service area polygon.
String
Detailed Polygons
(Optional)
Legacy:

Use of this parameter is no longer recommended. To generate detailed polygons, set the Polygon Detail parameter value to High.

Specifies the option to create detailed or generalized polygons.

  • Unchecked (False)—Generalized polygons are created, which are generated quickly and are fairly accurate. This is the default.
  • Checked (True)—Detailed polygons are created, which accurately model the service area lines and may contain islands of unreached areas. This option is much slower than generating generalized polygons. This option isn't supported when using hierarchy.

The tool supports generating detailed polygons only if the largest value specified in the Break Values parameter is less than or equal to 15minutes or 15 miles (24.14 kilometers).

Boolean
Polygon Trim Distance
(Optional)

The distance within which the service area polygons will be trimmed. This is useful when finding service areas in places that have a sparse street network and you don't want the service area to cover large areas where there are no street features.

The default value is 100 meters. No value or a value of 0 specifies that the service area polygons will not be trimmed. This parameter value is ignored when using hierarchy.

Linear Unit
Polygon Simplification Tolerance

The amount by which the polygon geometry will be simplified.

Simplification maintains critical vertices of a polygon to define its essential shape and removes other vertices. The simplification distance you specify is the maximum offset the simplified polygon boundaries can deviate from the original polygon boundaries. Simplifying a polygon reduces the number of vertices and tends to reduce drawing times.

Linear Unit
Point Barriers
(Optional)

Use this parameter to specify one or more points that will act as temporary restrictions or represent additional time or distance that may be required to travel on the underlying streets. For example, a point barrier can be used to represent a fallen tree along a street or a time delay spent at a railroad crossing.

The tool imposes a limit of 250 points that can be added as barriers.

When specifying point barriers, you can set properties for each, such as its name or barrier type, using the following attributes:

Name

The name of the barrier.

BarrierType

Specifies whether the point barrier restricts travel completely or adds time or distance when it is crossed. The value for this attribute is specified as one of the following integers (use the numeric code, not the name in parentheses):

  • 0 (Restriction)—Prohibits travel through the barrier. The barrier is referred to as a restriction point barrier since it acts as a restriction.

  • 2 (Added Cost)—Traveling through the barrier increases the travel time or distance by the amount specified in the Additional_Time, Additional_Distance, or AdditionalCost field. This barrier type is referred to as an added cost point barrier.

Additional_Time

The added travel time when the barrier is traversed. This field is applicable only for added-cost barriers and when the Measurement Units parameter value is time based.

This field value must be greater than or equal to zero, and its units must be the same as those specified in the Measurement Units parameter.

Additional_Distance

The added distance when the barrier is traversed. This field is applicable only for added-cost barriers and when the Measurement Units parameter value is distance based.

The field value must be greater than or equal to zero, and its units must be the same as those specified in the Measurement Units parameter.

AdditionalCost

The added cost when the barrier is traversed. This field is applicable only for added-cost barriers when the Measurement Units parameter value is neither time based nor distance based.

FullEdge

Specifies how the restriction point barriers are applied to the edge elements during the analysis. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses):

  • 0 (False)—Permits travel on the edge up to the barrier but not through it. This is the default value.
  • 1 (True)—Restricts travel anywhere on the associated edge.

CurbApproach

Specifies the direction of traffic that is affected by the barrier. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses):

  • 0 (Either side of vehicle)—The barrier affects travel over the edge in both directions.
  • 1 (Right side of vehicle)—Vehicles are only affected if the barrier is on their right side during the approach. Vehicles that traverse the same edge but approach the barrier on their left side are not affected by the barrier.
  • 2 (Left side of vehicle)—Vehicles are only affected if the barrier is on their left side during the approach. Vehicles that traverse the same edge but approach the barrier on their right side are not affected by the barrier.

Because junctions are points and don't have a side, barriers on junctions affect all vehicles regardless of the curb approach.

The CurbApproach attribute works with both types of national driving standards: right-hand traffic (United States) and left-hand traffic (United Kingdom). First, consider a facility on the left side of a vehicle. It is always on the left side regardless of whether the vehicle travels on the left or right half of the road. What may change with national driving standards is your decision to approach a facility from one of two directions, that is, so it ends up on the right or left side of the vehicle. For example, to arrive at a facility and not have a lane of traffic between the vehicle and the facility, choose 1 (Right side of vehicle) in the United States and 2 (Left side of vehicle) in the United Kingdom.

Bearing

The direction in which a point is moving. The units are degrees and are measured clockwise from true north. This field is used in conjunction with the BearingTol field.

Bearing data is usually sent automatically from a mobile device equipped with a GPS receiver. Try to include bearing data if you are loading an input location that is moving, such as a pedestrian or a vehicle.

Using this field tends to prevent adding locations to the wrong edges, which can occur when a vehicle is near an intersection or an overpass, for example. Bearing also helps the tool determine on which side of the street the point is.

BearingTol

The bearing tolerance value creates a range of acceptable bearing values when locating moving points on an edge using the Bearing field. If the Bearing field value is within the range of acceptable values that are generated from the bearing tolerance on an edge, the point can be added as a network location there; otherwise, the closest point on the next-nearest edge is evaluated.

The units are in degrees, and the default value is 30. Values must be greater than 0 and less than 180. A value of 30 means that when Network Analyst attempts to add a network location on an edge, a range of acceptable bearing values is generated 15 degrees to either side of the edge (left and right) and in both digitized directions of the edge.

NavLatency

This field is only used in the solve process if the Bearing and BearingTol fields also have values; however, entering a NavLatency field value is optional, even when values are present in Bearing and BearingTol. NavLatency indicates how much cost is expected to elapse from the moment GPS information is sent from a moving vehicle to a server and the moment the processed route is received by the vehicle's navigation device.

The units of NavLatency are the same as the units of the impedance attribute.

Feature Set
Line Barriers
(Optional)

Use this parameter to specify one or more lines that prohibit travel anywhere the lines intersect the streets. For example, a parade or protest that blocks traffic across several street segments can be modeled with a line barrier. A line barrier can also quickly fence off several roads from being traversed, thereby channeling possible routes away from undesirable parts of the street network.

The tool imposes a limit on the number of streets you can restrict using the Line Barriers parameter. While there is no limit to the number of lines you can specify as line barriers, the combined number of streets intersected by all the lines cannot exceed 500.

When specifying the line barriers, you can set name and barrier type properties for each using the following attributes:

Name

The name of the barrier.

Feature Set
Polygon Barriers
(Optional)

Use this parameter to specify polygons that either completely restrict travel or proportionately scale the time or distance required to travel on the streets intersected by the polygons.

The service imposes a limit on the number of streets you can restrict using the Polygon Barriers parameter. While there is no limit to the number of polygons you can specify as polygon barriers, the combined number of streets intersected by all the polygons cannot exceed 2,000.

When specifying the polygon barriers, you can set properties for each, such as its name or barrier type, using the following attributes:

Name

The name of the barrier.

BarrierType

Specifies whether the barrier restricts travel completely or scales the cost (such as time or distance) for traveling through it. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses):

  • 0 (Restriction)—Prohibits traveling through any part of the barrier. The barrier is referred to as a restriction polygon barrier since it prohibits traveling on streets intersected by the barrier. One use of this type of barrier is to model floods covering areas of the street that make traveling on those streets impossible.

  • 1 (Scaled Cost)—Scales the cost (such as travel time or distance) required to travel the underlying streets by a factor specified using the ScaledTimeFactor or ScaledDistanceFactor field. If the streets are partially covered by the barrier, the travel time or distance is apportioned and then scaled. For example, a factor of 0.25 means that travel on underlying streets is expected to be four times faster than normal. A factor of 3.0 means it is expected to take three times longer than normal to travel on underlying streets. This barrier type is referred to as a scaled-cost polygon barrier. It can be used to model storms that reduce travel speeds in specific regions, for example.

ScaledTimeFactor

This is the factor by which the travel time of the streets intersected by the barrier is multiplied. The field value must be greater than zero.

This field is applicable only for scaled-cost barriers and when the Measurement Units parameter is time-based.

ScaledDistanceFactor

This is the factor by which the distance of the streets intersected by the barrier is multiplied. The field value must be greater than zero.

This field is applicable only for scaled-cost barriers and when the Measurement Units parameter is distance-based.

ScaledCostFactor

This is the factor by which the cost of the streets intersected by the barrier is multiplied. The field value must be greater than zero.

This field is applicable only for scaled-cost barriers when the Measurement Units parameter is neither time-based nor distance-based.

Feature Set
Restrictions
(Optional)

The travel restrictions that will be honored by the tool when determining the service areas.

A restriction represents a driving preference or requirement. In most cases, restrictions cause roads to be prohibited. For instance, using the Avoid Toll Roads restriction will result in a route that will include toll roads only when it is required to travel on toll roads to visit an incident or a facility. Height Restriction makes it possible to route around any clearances that are lower than the height of the vehicle. If you are carrying corrosive materials on the vehicle, using the Any Hazmat Prohibited restriction prevents hauling the materials along roads where it is marked illegal to do so.

Note:

Some restrictions require an additional value to be specified for their use. This value must be associated with the restriction name and a specific parameter intended to work with the restriction. You can identify such restrictions if their names appear in the AttributeName column of the Attribute Parameter Values parameter. Specify the ParameterValue field for the Attribute Parameter Values parameter for the restriction to be correctly used when finding traversable roads.

Note:

Some restrictions are supported only in certain countries; their availability is stated by region in the list below. Of the restrictions that have limited availability within a region, you can determine whether the restriction is available in a particular country by reviewing the table in the Country list section of Network analysis coverage. If a country has a value of Yes in the Logistics Attribute column, the restriction with select availability in the region is supported in that country. If you specify restriction names that are not available in the country where the incidents are located, the service ignores the invalid restrictions. The service also ignores restrictions when the Restriction Usage attribute parameter value is between 0 and 1 (see the Attribute Parameter Value parameter). It prohibits all restrictions when the Restriction Usage parameter value is greater than 0.

The service supports the following restrictions:

  • Any Hazmat ProhibitedThe results will not include roads where transporting any kind of hazardous material is prohibited. Availability: Select countries in North America and Europe
  • Avoid Carpool RoadsThe results will avoid roads that are designated exclusively for car pool (high-occupancy) vehicles. Availability: All countries
  • Avoid Express LanesThe results will avoid roads designated as express lanes. Availability: All countries
  • Avoid FerriesThe results will avoid ferries. Availability: All countries
  • Avoid GatesThe results will avoid roads where there are gates, such as keyed access or guard-controlled entryways.Availability: All countries
  • Avoid Limited Access RoadsThe results will avoid roads that are limited-access highways.Availability: All countries
  • Avoid Private RoadsThe results will avoid roads that are not publicly owned and maintained.Availability: All countries
  • Avoid Roads Unsuitable for PedestriansThe results will avoid roads that are unsuitable for pedestrians.Availability: All countries
  • Avoid StairwaysThe results will avoid all stairways on a pedestrian-suitable route.Availability: All countries
  • Avoid Toll RoadsThe results will avoid all toll roads for automobiles.Availability: All countries
  • Avoid Toll Roads for TrucksThe results will avoid all toll roads for trucks.Availability: All countries
  • Avoid Truck Restricted RoadsThe results will avoid roads where trucks are not allowed, except when making deliveries.Availability: All countries
  • Avoid Unpaved RoadsThe results will avoid roads that are not paved (for example, dirt, gravel, and so on). Availability: All countries
  • Axle Count RestrictionThe results will not include roads where trucks with the specified number of axles are prohibited. The number of axles can be specified using the Number of Axles restriction parameter.Availability: Select countries in North America and Europe
  • Driving a BusThe results will not include roads where buses are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countries
  • Driving a TaxiThe results will not include roads where taxis are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countries
  • Driving a TruckThe results will not include roads where trucks are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countries
  • Driving an AutomobileThe results will not include roads where automobiles are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countries
  • Driving an Emergency VehicleThe results will not include roads where emergency vehicles are prohibited. Using this restriction will also ensure that the results will honor one-way streets.Availability: All countries
  • Height RestrictionThe results will not include roads where the vehicle height exceeds the maximum allowed height for the road. The vehicle height can be specified using the Vehicle Height (meters) restriction parameter. Availability: Select countries in North America and Europe
  • Kingpin to Rear Axle Length RestrictionThe results will not include roads where the vehicle length exceeds the maximum allowed kingpin to rear axle for all trucks on the road. The length between the vehicle kingpin and the rear axle can be specified using the Vehicle Kingpin to Rear Axle Length (meters) restriction parameter. Availability: Select countries in North America and Europe
  • Length RestrictionThe results will not include roads where the vehicle length exceeds the maximum allowed length for the road. The vehicle length can be specified using the Vehicle Length (meters) restriction parameter. Availability: Select countries in North America and Europe
  • Preferred for PedestriansThe results will use preferred routes suitable for pedestrian navigation. Availability: Select countries in North America and Europe
  • Riding a MotorcycleThe results will not include roads where motorcycles are prohibited. Using this restriction will also ensure that the results will honor one-way streets.Availability: All countries
  • Roads Under Construction ProhibitedThe results will not include roads that are under construction.Availability: All countries
  • Semi or Tractor with One or More Trailers ProhibitedThe results will not include roads where semis or tractors with one or more trailers are prohibited. Availability: Select countries in North America and Europe
  • Single Axle Vehicles ProhibitedThe results will not include roads where vehicles with single axles are prohibited.Availability: Select countries in North America and Europe
  • Tandem Axle Vehicles ProhibitedThe results will not include roads where vehicles with tandem axles are prohibited.Availability: Select countries in North America and Europe
  • Through Traffic ProhibitedThe results will not include roads where through traffic (nonlocal) is prohibited.Availability: All countries
  • Truck with Trailers RestrictionThe results will not include roads where trucks with the specified number of trailers on the truck are prohibited. The number of trailers on the truck can be specified using the Number of Trailers on Truck restriction parameter.Availability: Select countries in North America and Europe
  • Use Preferred Hazmat RoutesThe results will prefer roads that are designated for transporting any kind of hazardous materials. Availability: Select countries in North America and Europe
  • Use Preferred Truck RoutesThe results will prefer roads that are designated as truck routes, such as the roads that are part of the national network as specified by the National Surface Transportation Assistance Act in the United States, or roads that are designated as truck routes by the state or province, or roads that are preferred by truckers when driving in an area.Availability: Select countries in North America and Europe
  • WalkingThe results will not include roads where pedestrians are prohibited.Availability: All countries
  • Weight RestrictionThe results will not include roads where the vehicle weight exceeds the maximum allowed weight for the road. The vehicle weight can be specified using the Vehicle Weight (kilograms) restriction parameter.Availability: Select countries in North America and Europe
  • Weight per Axle RestrictionThe results will not include roads where the vehicle weight per axle exceeds the maximum allowed weight per axle for the road. The vehicle weight per axle can be specified using the Vehicle Weight per Axle (kilograms) restriction parameter.Availability: Select countries in North America and Europe
  • Width RestrictionThe results will not include roads where the vehicle width exceeds the maximum allowed width for the road. The vehicle width can be specified using the Vehicle Width (meters) restriction parameter.Availability: Select countries in North America and Europe
Note:

The values you provide for this parameter are ignored unless Travel Mode is set to Custom.

String
Attribute Parameter Values
(Optional)

Use this parameter to specify additional values required by an attribute or restriction, such as to specify whether the restriction prohibits, avoids, or prefers travel on restricted roads. If the restriction is meant to avoid or prefer roads, you can further specify the degree to which they are avoided or preferred using this parameter. For example, you can choose to never use toll roads, avoid them as much as possible, or prefer them.

Note:

The values you provide for this parameter are ignored unless Travel Mode is set to Custom.

If you specify the Attribute Parameter Values parameter from a feature class, the field names on the feature class must match the fields as follows:

  • AttributeName—The name of the restriction.
  • ParameterName—The name of the parameter associated with the restriction. A restriction can have one or more ParameterName field values based on its intended use.
  • ParameterValue—The value for ParameterName used by the tool when evaluating the restriction.

The Attribute Parameter Values parameter is dependent on the Restrictions parameter. The ParameterValue field is applicable only if the restriction name is specified as the value for the Restrictions parameter.

In Attribute Parameter Values, each restriction (listed as AttributeName) has a ParameterName field value, Restriction Usage, that specifies whether the restriction prohibits, avoids, or prefers travel on the roads associated with the restriction as well as the degree to which the roads are avoided or preferred. The Restriction Usage ParameterName can be assigned any of the following string values or their equivalent numeric values listed in the parentheses:

  • PROHIBITED (-1)—Travel on the roads using the restriction is completely prohibited.
  • AVOID_HIGH (5)—It is highly unlikely the tool will include in the route the roads that are associated with the restriction.
  • AVOID_MEDIUM (2)—It is unlikely the tool will include in the route the roads that are associated with the restriction.
  • AVOID_LOW (1.3)—It is somewhat unlikely the tool will include in the route the roads that are associated with the restriction.
  • PREFER_LOW (0.8)—It is somewhat likely the tool will include in the route the roads that are associated with the restriction.
  • PREFER_MEDIUM (0.5)—It is likely the tool will include in the route the roads that are associated with the restriction.
  • PREFER_HIGH (0.2)—It is highly likely the tool will include in the route the roads that are associated with the restriction.

In most cases, you can use the default value, PROHIBITED, as the Restriction Usage value if the restriction is dependent on a vehicle characteristic such as vehicle height. However, in some cases, the Restriction Usage value depends on your routing preferences. For example, the Avoid Toll Roads restriction has the default value of AVOID_MEDIUM for the Restriction Usage attribute. This means that when the restriction is used, the tool will route around toll roads when it can. AVOID_MEDIUM also indicates how important it is to avoid toll roads when finding the best route; it has a medium priority. Choosing AVOID_LOW puts lower importance on avoiding tolls; choosing AVOID_HIGH instead gives it a higher importance and makes it more acceptable for the service to generate longer routes to avoid tolls. Choosing PROHIBITED entirely disallows travel on toll roads, making it impossible for a route to travel on any portion of a toll road. Keep in mind that avoiding or prohibiting toll roads, and avoiding toll payments, is the objective for some. In contrast, others prefer to drive on toll roads, because avoiding traffic is more valuable to them than the money spent on tolls. In the latter case, choose PREFER_LOW, PREFER_MEDIUM, or PREFER_HIGH as the value for Restriction Usage. The higher the preference, the farther the tool will go to travel on the roads associated with the restriction.

Record Set
Time Zone for Time of Day
(Optional)

Specifies the time zone or zones of the Time of Day parameter.

Regardless of the Time Zone for Time of Day setting, all facilities must be in the same time zone when Time of Day has a nonnull value and Polygons for Multiple Facilities is set to create merged or nonoverlapping polygons.

  • Geographically LocalThe Time of Day parameter refers to the time zone or zones in which the facilities are located. The start or end times of the service areas are staggered by time zone. Setting Time of Day to 9:00 AM, choosing this option for Time Zone for Time of Day, and solving causes service areas to be generated for 9:00 a.m. eastern time for any facilities in the eastern time zone, 9:00 a.m. central time for facilities in the central time zone, 9:00 a.m. mountain time for facilities in the mountain time zone, and so on, for facilities in different time zones.If stores in a chain that span the U.S. open at 9:00 a.m. local time, this parameter value can be chosen to find market territories at opening time for all stores in one solve. First, the stores in the eastern time zone open and a polygon is generated, then an hour later stores open in central time, and so on. Nine o'clock is always in local time but staggered in real time.
  • UTCThe Time of Day parameter refers to coordinated universal time (UTC). All facilities are reached or departed from simultaneously, regardless of the time zone each is in.Setting Time of Day to 2:00 PM, choosing this option, and solving causes service areas to be generated for 9:00 a.m. eastern standard time for any facilities in the eastern time zone, 8:00 a.m. central standard time for facilities in the central time zone, 7:00 a.m. mountain standard time for facilities in the mountain time zone, and so on, for facilities in different time zones.
    Note:
    The scenario above assumes standard time. During daylight saving time, the eastern, central, and mountain times will each be one hour ahead (that is, 10:00, 9:00, and 8:00 a.m., respectively).
    One of the cases in which this option is useful is to visualize emergency response coverage for a jurisdiction that is split into two time zones. The emergency vehicles are loaded as facilities. The Time of Day parameter is set to now in UTC. (You need to determine the current time and date in terms of UTC to correctly use this option.) Other properties are set and the analysis is solved. Even though a time zone boundary divides the vehicles, the results show areas that can be reached given current traffic conditions. This same process can be used for other times as well, not just for now.
String
Travel Mode
(Optional)

The mode of transportation that will be modeled in the analysis. Travel modes are managed in ArcGIS Online and can be configured by the administrator of your organization to reflect the organization's workflows. Specify the name of a travel mode that is supported by your organization.

To get a list of supported travel mode names, run the Get Travel Modes tool from the Utilities toolbox under the same GIS Server connection you used to access the tool. The Get Travel Modes tool adds a table, Supported Travel Modes, to the application. Any value in the Travel Mode Name field from the Supported Travel Modes table can be specified as input. You can also specify the value from the Travel Mode Settings field as input. This speeds up tool execution, as the tool does not have to find the settings based on the travel mode name.

The default value, Custom, allows you to configure a custom travel mode using the custom travel mode parameters (UTurn at Junctions, Use Hierarchy, Restrictions, Attribute Parameter Values, and Impedance). The default values of the custom travel mode parameters model traveling by car. You can also choose Custom and set the custom travel mode parameters listed above to model a pedestrian with a fast walking speed or a truck with a given height, weight, and cargo of certain hazardous materials. You can try different settings to get the analysis results you want. Once you have identified the analysis settings, work with your organization's administrator and save these settings as part of a new or existing travel mode so that everyone in your organization can run the analysis with the same settings.

Caution:

When you choose Custom, the values you set for the custom travel mode parameters are included in the analysis. Specifying another travel mode, as defined by your organization, causes any values you set for the custom travel mode parameters to be ignored; the tool overrides them with values from the specified travel mode.

String
Impedance
(Optional)

Specifies the impedance, which is a value that represents the effort or cost of traveling along road segments or on other parts of the transportation network.

Travel time is an impedance: a car may take 1 minute to travel a mile along an empty road. Travel times can vary by travel mode—a pedestrian may take more than 20 minutes to walk the same mile, so it is important to choose the right impedance for the travel mode you are modeling.

Travel distance can also be an impedance; the length of a road in kilometers can be thought of as impedance. Travel distance in this sense is the same for all modes—a kilometer for a pedestrian is also a kilometer for a car. (What may change is the pathways on which the different modes are allowed to travel, which affects distance between points, and this is modeled by travel mode settings.)

If you choose a time-based impedance, such as TravelTime, TruckTravelTime, Minutes, TruckMinutes, or WalkTime, the Break Units parameter must be set to a time-based value; if you choose a distance-based impedance such as Miles or Kilometers, Break Units must be a distance-based value.

  • Travel TimeHistorical and live traffic data is used. This option is good for modeling the time it takes automobiles to travel along roads at a specific time of day using live traffic speed data where available. When using TravelTime, you can optionally set the TravelTime::Vehicle Maximum Speed (km/h) attribute parameter to specify the physical limitation of the speed the vehicle is capable of traveling.
  • MinutesLive traffic data is not used, but historical average speeds for automobiles data is used.
  • Truck Travel TimeHistorical and live traffic data is used, but the speed is capped at the posted truck speed limit. This is good for modeling the time it takes for the trucks to travel along roads at a specific time. When using TruckTravelTime, you can optionally set the TruckTravelTime::Vehicle Maximum Speed (km/h) attribute parameter to specify the physical limitation of the speed the truck is capable of traveling.
  • Truck MinutesLive traffic data is not used, but the smaller of the historical average speeds for automobiles and the posted speed limits for trucks is used.
  • Walk TimeThe default is a speed of 5 km/hr on all roads and paths, but this can be configured through the WalkTime::Walking Speed (km/h) attribute parameter.
  • MilesLength measurements along roads are stored in miles and can be used for performing analysis based on shortest distance.
  • KilometersLength measurements along roads are stored in kilometers and can be used for performing analysis based on shortest distance.
  • Time At One Kilometer Per HourThe default is a speed of 1 km/hr on all roads and paths. The speed cannot be changed using any attribute parameter.
  • Drive TimeTravel times for a car are modeled. These travel times are dynamic and fluctuate according to traffic flows in areas where traffic data is available. This is the default value.
  • Truck TimeTravel times for a truck are modeled. These travel times are static for each road and don't fluctuate with traffic.
  • Walk TimeTravel times for a pedestrian are modeled.
  • Travel DistanceLength measurements along roads and paths are stored. To model walk distance, choose this option and ensure that Walking is set for the Restriction parameter. Similarly, to model drive or truck distance, choose Travel Distance here and set the appropriate restrictions so the vehicle travels only on roads where it is permitted to do so.
Caution:

The value you provide for this parameter is ignored unless Travel Mode is set to Custom, which is the default value.

Legacy:

Drive Time, Truck Time, Walk Time, and Travel Distance impedance values are no longer supported and will be removed in a future release. If you use one of these values, the tool uses the value of the Time Impedance parameter for time-based values and the Distance Impedance parameter for distance-based values.

String
Save Output Network Analysis Layer
(Optional)

Specifies whether the analysis settings will be saved as a network analysis layer file. You cannot directly work with this file even when you open the file in an ArcGIS Desktop application such as ArcMap. It is meant to be sent to Esri Technical Support to diagnose the quality of results returned from the tool.

  • Checked (True in Python)—The output will be saved as a network analysis layer file. The file will be downloaded to a temporary directory on your machine. In ArcGIS Pro, the location of the downloaded file can be determined by viewing the value for the Output Network Analysis Layer parameter in the entry corresponding to the tool service in the geoprocessing history of the project. In ArcMap, the location of the file can be determined by accessing the Copy Location option in the shortcut menu of the Output Network Analysis Layer parameter in the entry corresponding to the tool service in the Geoprocessing Results window.
  • Unchecked (False in Python)—The output will not be saved as a network analysis layer file. This is the default.

Boolean
Overrides
(Optional)

Note:

This parameter is for internal use only.

String
Time Impedance
(Optional)

The time-based impedance value represents the travel time along road segments or on other parts of the transportation network.

  • MinutesTime impedance will be minutes.
  • Travel TimeTime impedance will be travel time.
  • Time At One Kilometer Per HourTime impedance will be time at one kilometer per hour.
  • Walk TimeTime impedance will be walk time.
  • Truck MinutesTime impedance will be truck minutes.
  • Truck Travel TimeTime impedance will be truck travel time.
Note:
If the impedance for the travel mode, as specified using the Impedance parameter, is time based, the values for the Time Impedance and Impedance parameters must be identical. Otherwise, the service will return an error.
String
Distance Impedance
(Optional)

The distance-based impedance value represents the travel distance along road segments or on other parts of the transportation network.

  • MilesDistance impedance will be miles.
  • KilometersDistance impedance will be kilometers.
Note:
If the impedance for the travel mode, as specified using the Impedance parameter, is distance based, the values for the Distance Impedance and Impedance parameters must be identical. Otherwise, the service will return an error.
String
Polygon Detail
(Optional)

Specifies the level of detail for the output polygons.

If your analysis covers an urban area with a grid-like street network, the difference between generalized and standard polygons will be minimal. However, for mountain and rural roads, the standard and detailed polygons may present significantly more accurate results than generalized polygons.

The tool supports generating high-precision polygons only if the largest value specified in the Break Values parameter is less than or equal to 15minutes or 15 miles (24.14 kilometers).

  • StandardPolygons will be created with a standard level of detail. Standard polygons are generated quickly and are fairly accurate, but quality deteriorates as you move toward the borders of the service area polygons. This is the default.
  • GeneralizedGeneralized polygons will be created using the hierarchy present in the network data source to produce results quickly. Generalized polygons are inferior in quality compared to standard or high-precision polygons.
  • HighPolygons will be created with the highest level of detail. Holes in the polygon may exist; they represent islands of network elements, such as streets, that couldn't be reached without exceeding the cutoff impedance or due to travel restrictions Use this option for applications in which precise results are important.
String
Output Type
(Optional)

Specifies the type of output that will be generated. Service area output can be line features representing the roads reachable before the cutoffs are exceeded or the polygon features encompassing these lines (representing the reachable area).

  • PolygonsThe service area output will contain polygons only. This is the default.
  • LinesThe service area output will contain lines only.
  • Polygons and linesThe service area output will contain both polygons and lines.
String
Output Format
(Optional)

Specifies the format in which the output features will be returned.

When a file-based output format, such as JSON File or GeoJSON File, is specified, no outputs will be added to the display because the application, such as ArcMap or ArcGIS Pro, cannot draw the contents of the result file. Instead, the result file is downloaded to a temporary directory on your machine. In ArcGIS Pro, the location of the downloaded file can be determined by viewing the value for the Output Result File parameter in the entry corresponding to the tool operation in the geoprocessing history of the project. In ArcMap, the location of the file can be determined by accessing the Copy Location option in the shortcut menu of the Output Result File parameter in the entry corresponding to the tool operation in the Geoprocessing Results window.

  • Feature SetThe output features will be returned as feature classes and tables. This is the default.
  • JSON FileThe output features will be returned as a compressed file containing the JSON representation of the outputs. When this option is specified, the output is a single file (with a .zip extension) that contains one or more JSON files (with a .json extension) for each of the outputs created by the service.
  • GeoJSON FileThe output features will be returned as a compressed file containing the GeoJSON representation of the outputs. When this option is specified, the output is a single file (with a .zip extension) that contains one or more GeoJSON files (with a .geojson extension) for each of the outputs created by the service.
String
Ignore Invalid Locations
(Optional)

Specifies whether invalid input locations will be ignored.

  • Checked—Network locations that are unlocated will be ignored and the analysis will run using valid network locations only. The analysis will also continue if locations are on non-traversable elements or have other errors. This is useful if you know the network locations are not all correct, but you want to run the analysis with the network locations that are valid. This is the default.
  • Unchecked—Invalid locations will not be ignored. Do not run the analysis if there are invalid locations. Correct the invalid locations and rerun the analysis.
Boolean
Locate Settings
(Optional)

Use this parameter to specify settings that affect how inputs are located, such as the maximum search distance to use when locating the inputs on the network, or the network sources being used for locating.

Learn more about locating inputs

The parameter value is specified as a JSON object. The JSON object allows you to specify a locator JSON for all input feature in the analysis, or optionally you could specify an override for a particular input. The override allows you to have different settings for each analysis input.

The locator JSON object has the following properties:

  • tolerance and toleranceUnits—Allows you to control the maximum search distance when locating inputs. If no valid network location is found within this distance, the input features will be considered unlocated. A small search tolerance decreases the likelihood of locating on the wrong street but increases the likelihood of not finding any valid network location. The toleranceUnits parameter value should be specified as one of the following values:
    • esriCentimeters
    • esriDecimalDegrees
    • esriDecimeters
    • esriFeet
    • esriInches
    • esriIntFeet
    • esriIntInches
    • esriIntMiles
    • esriIntNauticalMiles
    • esriIntYards
    • esriKilometers
    • esriMeters
    • esriMiles
    • esriMillimeters
    • esriNauticalMiles
    • esriYards
  • sources— Allows you to control which network source can be used for locating. For example, you can configure the analysis to locate inputs on streets but not on sidewalks. The list of possible sources on which to locate is specific to the network dataset this service references. Only the sources that are present in the sources array are used for locating. Sources is specified as an array of objects each having the following property:
    • name—Name of the network source feature class that can be used for locating inputs.
  • allowAutoRelocate—Allows you to control whether inputs with existing network location fields can be automatically relocated when solving to ensure valid, routable location fields for the analysis. If the value is true, points located on restricted network elements and points affected by barriers will be relocated to the closest routable location. If the value is false, network location fields will be used as is even if the points are unreachable, and this may cause the solve to fail. Even if the value is false, inputs with no location fields or incomplete location fields will be located during solve.
Note:
At this point, the sources array doesn't allow to specify different source names. Also, allowAutoRelocate is always set to true since the service does not support location fields.

Locate_Settings JSON object allows you to specify a default locator JSON object for all input features in the analysis, as well as overrides for each input class. When specifying Locate_Settings JSON, you need to provide the following properties: tolerance, toleranceUnits, and allowAutoRelocate. If you need to provide a different locator JSON for a particular input class, you need to include overrides property for that input. The property name must match the input parameter name. The locator JSON for a particular input doesn't need to include all the properties; you only need to include the properties that are different from the default locator JSON properties.

String

Derived Output

LabelExplanationData Type
Service Areas

It provides access to polygon features that represent areas that can be reached from the input locations with a given travel time, travel distance, or travel cost.

Feature Set
Solve Succeeded

Determines whether solving the service area analysis succeeded.

Boolean
Output Network Analysis Layer

The network analysis layer, with properties configured in the tool parameters, that can be used for further analysis or debugging in the map.

File
Output Facilities

This provides access to the attributes of the facilities that are used in the service area analysis. You can use the attributes from this data type, such as the Status field, to determine why a facility was not used in the analysis.

Feature Set
Output Service Area Lines

This stores the resultant service areas as linear features and covers the streets, or network edges, that can be reached within the given time, distance, or other travel-cost cutoff. Lines are a truer representation of a service area than polygons since service area analyses are based on measurements along the network lines.

Feature Set
Output Result File

A .zip file containing the results of the analysis with one or more files for each output. The format of the individual files is specified by the Output Format parameter.

File
Output Network Analysis Layer Package

A layer package that includes a network analysis layer with the data and settings used in the analysis.

File
Usage Cost

This parameter returns the credits used by the analysis.

Note:

Each analysis can generate a different number of billable objects and thus will use different number of credits. If the service fails to determine credits, the usage_cost parameter returns a value of -1 for credits.

JSON

arcpy.agolservices.GenerateServiceAreas(Facilities, Break_Values, Break_Units, {Analysis_Region}, {Travel_Direction}, {Time_of_Day}, Use_Hierarchy, {UTurn_at_Junctions}, {Polygons_for_Multiple_Facilities}, {Polygon_Overlap_Type}, {Detailed_Polygons}, {Polygon_Trim_Distance}, Polygon_Simplification_Tolerance, {Point_Barriers}, {Line_Barriers}, {Polygon_Barriers}, {Restrictions}, {Attribute_Parameter_Values}, {Time_Zone_for_Time_of_Day}, {Travel_Mode}, {Impedance}, {Save_Output_Network_Analysis_Layer}, {Overrides}, {Time_Impedance}, {Distance_Impedance}, {Polygon_Detail}, {Output_Type}, {Output_Format}, {Ignore_Invalid_Locations}, {Locate_Settings})
NameExplanationData Type
Facilities

The input locations around which service areas are generated.

You can load up to 1,000 facilities.

The facilities feature set has an associated attribute table. The fields in the attribute table are described below.

ObjectID

The system-managed ID field.

Name

The name of the facility. If the name is not specified, a name is automatically generated at solve time.

All fields from the input facilities are included in the output polygons when the Polygons for Multiple Facilities parameter is set to Overlapping or Not Overlapping. The ObjectID field on the input facilities is transferred to the FacilityOID field on the output polygons.

Breaks

Specify the extent of the service area to be calculated on a per facility basis.

This attribute allows you to specify a different service area break value for each facility. For example, with two facilities, you can generate 5- and 10-minute service area polygons for one facility and 6-, 9-, and 12-minute polygons for the other facility.

Separate multiple break values with a space, and specify the numeric values using the dot character as your decimal separator, even if the locale of your computer defines a different decimal separator. For example, the value 5.5 10 15.5 specifies three break values around a facility.

AdditionalTime

The amount of time spent at the facility, which reduces the extent of the service area calculated for the given facility. The default value is 0.

For example, when calculating service areas that represent fire station response times, AdditionalTime can store the turnout time, which is the time it takes a crew to put on the appropriate protective equipment and exit the fire station, for each fire station. Assume Fire Station 1 has a turnout time of 1 minute and Fire Station 2 has a turnout time of 3 minutes. If a 5-minute service area is calculated for both fire stations, the actual service area for Fire Station 1 is 4 minutes (since 1 of the 5 minutes is required as turnout time). Similarly, Fire Station 2 has a service area of only 2 minutes from the fire station.

AdditionalDistance

The extra distance traveled to reach the facility before the service is calculated. This attribute reduces the extent of the service area calculated for the given facility. The default value is 0.

Generally, the location of a facility, such as a store location, isn't exactly on the street; it is set back somewhat from the road. This attribute value can be used to model the distance between the actual facility location and its location on the street if it is important to include that distance when calculating the service areas for the facility.

AdditionalCost

The extra cost spent at the facility, which reduces the extent of the service area calculated for the given facility. The default value is 0.

Use this attribute value when the travel mode for the analysis uses an impedance attribute that is neither time based nor distance based The units for the attribute values are interpreted to be in unknown units.

CurbApproach

Specifies the direction a vehicle may arrive at and depart from the facility. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses):

  • 0 (Either side of vehicle)—The vehicle can approach and depart the facility in either direction, so a U-turn is allowed at the facility. This setting can be chosen if it is possible and practical for a vehicle to turn around at the facility. This decision may depend on the width of the road and the amount of traffic or whether the facility has a parking lot where vehicles can enter and turn around.
  • 1 (Right side of vehicle)—When the vehicle approaches and departs the facility, the curb must be on the right side of the vehicle. A U-turn is prohibited. This is typically used for vehicles such as buses that must arrive with the bus stop on the right-hand side.
  • 2 (Left side of vehicle)—When the vehicle approaches and departs the facility, the curb must be on the left side of the vehicle. A U-turn is prohibited. This is typically used for vehicles such as buses that must arrive with the bus stop on the left-hand side.
  • 3 (No U-Turn)—When the vehicle approaches the facility, the curb can be on either side of the vehicle, however, the vehicle must depart without turning around.

The CurbApproach attribute is designed to work with both types of national driving standards: right-hand traffic (United States) and left-hand traffic (United Kingdom). First, consider a facility on the left side of a vehicle. It is always on the left side regardless of whether the vehicle travels on the left or right half of the road. What may change with national driving standards is your decision to approach a facility from one of two directions; that is, so it ends up on the right or left side of the vehicle. For example, if you want to arrive at a facility and not have a lane of traffic between the vehicle and the facility, choose 1 (Right side of vehicle) in the United States and 2 (Left side of vehicle) in the United Kingdom.

Bearing

The direction in which a point is moving. The units are degrees and are measured clockwise from true north. This field is used in conjunction with the BearingTol field.

Bearing data is usually sent automatically from a mobile device equipped with a GPS receiver. Try to include bearing data if you are loading an input location that is moving, such as a pedestrian or a vehicle.

Using this field tends to prevent adding locations to the wrong edges, which can occur when a vehicle is near an intersection or an overpass, for example. Bearing also helps the tool determine on which side of the street the point is.

BearingTol

The bearing tolerance value creates a range of acceptable bearing values when locating moving points on an edge using the Bearing field. If the Bearing field value is within the range of acceptable values that are generated from the bearing tolerance on an edge, the point can be added as a network location there; otherwise, the closest point on the next-nearest edge is evaluated.

The units are in degrees, and the default value is 30. Values must be greater than 0 and less than 180. A value of 30 means that when Network Analyst attempts to add a network location on an edge, a range of acceptable bearing values is generated 15 degrees to either side of the edge (left and right) and in both digitized directions of the edge.

NavLatency

This field is only used in the solve process if the Bearing and BearingTol fields also have values; however, entering a NavLatency field value is optional, even when values are present in Bearing and BearingTol. NavLatency indicates how much cost is expected to elapse from the moment GPS information is sent from a moving vehicle to a server and the moment the processed route is received by the vehicle's navigation device.

The units of NavLatency are the same as the units of the impedance attribute.

Feature Set
Break_Values

Specifies the size and number of service area polygons that will be generated for each facility. The units are determined by the Break Units value.

Multiple polygon breaks can be set to create concentric service areas per facility. For instance, to find 2-, 3-, and 5-mile service areas for each facility, type 2 3 5, separating the values with a space, and set Break Units to Miles. There is no limit to the number of break values you can specify.

The size of the maximum break value can't exceed the equivalent of 300 minutes or 300 miles (482.80 kilometers). When generating detailed polygons, the maximum service-area size is limited to 15 minutes and 15 miles (24.14 kilometers).

String
Break_Units

Specifies the units for the Break Values parameter.

The units you choose for this parameter determine whether the service will create service areas by measuring driving distance or driving time. Choose a time unit to measure driving time. To measure driving distance, choose a distance unit. The specified value also determines the units that will be used to report total driving time or distance in the results.

The choices are as follows:

  • MetersThe linear unit will be meters.
  • KilometersThe linear unit will be kilometers.
  • FeetThe linear unit will be feet.
  • YardsThe linear unit will be yards.
  • MilesThe linear unit will be miles.
  • NauticalMilesThe linear unit will be nautical miles.
  • SecondsThe time unit will be seconds.
  • MinutesThe time unit will be minutes.
  • HoursThe time unit will be hours.
  • DaysThe time unit will be days.
String
Analysis_Region
(Optional)

The region in which the analysis will be performed. If a value is not specified for this parameter, the tool will automatically calculate the region name based on the location of the input points. Setting the name of the region is required only if the automatic detection of the region name is not accurate for the inputs.

To specify a region, use one of the following values:

  • EuropeThe analysis region will be Europe.
  • JapanThe analysis region will be Japan.
  • KoreaThe analysis region will be Korea.
  • MiddleEastAndAfricaThe analysis region will be Middle East and Africa.
  • NorthAmericaThe analysis region will be North America.
  • SouthAmericaThe analysis region will be South America.
  • SouthAsiaThe analysis region will be South Asia.
  • ThailandThe analysis region will be Thailand.
Legacy:

The following region names are no longer supported and will be removed in future releases. If you specify one of the deprecated region names, the tool automatically assigns a supported region name for the region.

  • Greece redirects to Europe
  • India redirects to SouthAsia
  • Oceania redirects to SouthAsia
  • SouthEastAsia redirects to SouthAsia
  • Taiwan redirects to SouthAsia

String
Travel_Direction
(Optional)

Specifies whether the direction of travel used to generate the service area polygons is toward or away from the facilities.

  • Away From FacilityThe service area will be generated in the direction away from the facilities.
  • Towards FacilityThe service area will be generated in the direction toward the facilities.

The direction of travel may change the shape of the polygons because impedances on opposite sides of streets may differ or one-way restrictions may exist, such as one-way streets. The direction you should choose depends on the nature of your service area analysis. The service area for a pizza delivery store, for example, should be created away from the facility, whereas the service area of a hospital should be created toward the facility.

String
Time_of_Day
(Optional)

The time to depart from or arrive at the facilities. The interpretation of this value depends on whether travel is toward or away from the facilities.

  • It represents the departure time if Travel Direction is set to Away from facilities.
  • It represents the arrival time if Travel Direction is set to Toward facilities.

You can use the Time Zone for Time of Day parameter to specify whether this time and date refers to UTC or the time zone in which the facility is located.

Repeatedly solving the same analysis, but using different Time of Day values, allows you to see how a facility's reach changes over time. For instance, the five-minute service area around a fire station may start out large in the early morning, diminish during the morning rush hour, grow in the late morning, and so on, throughout the day.

Date
Use_Hierarchy

Specifies whether hierarchy will be used when finding the best route between the facility and the incident.

  • Checked (True)—Hierarchy will be used for the analysis. Using a hierarchy results in the solver preferring higher-order edges to lower-order edges. Hierarchical solves are faster, and they can be used to simulate the preference of a driver who chooses to travel on freeways over local roads when possible—even if that means a longer trip.
  • Unchecked (False)—Hierarchy will not be used for the analysis. Not using a hierarchy yields an accurate service area measured along all edges of the network dataset regardless of hierarchy level.

Regardless of whether the Use Hierarchy parameter is checked (True), hierarchy is always used when the largest break value exceeds 240 minutes or 240 miles (386.24 kilometers).

Boolean
UTurn_at_Junctions
(Optional)

Specifies whether to restrict or permit the service area to make U-turns at junctions. To understand the parameter values, consider the following terminology: a junction is a point where a street segment ends and potentially connects to one or more other segments; a pseudojunction is a point where exactly two streets connect to one another; an intersection is a point where three or more streets connect; and a dead end is where one street segment ends without connecting to another.

  • AllowedU-turns are permitted at junctions with any number of connected edges. This is the default value.
  • Not AllowedU-turns are prohibited at all junctions, regardless of junction valency. However, U-turns are still permitted at network locations even when this option is chosen, but you can set the individual network locations' CurbApproach attribute to prohibit U-turns there as well.
  • Allowed Only at Dead EndsU-turns are prohibited at all junctions except those that have only one adjacent edge (a dead end).
  • Allowed Only at Intersections and Dead EndsU-turns are prohibited at junctions where exactly two adjacent edges meet but are permitted at intersections (junctions with three or more adjacent edges) and dead ends (junctions with exactly one adjacent edge). Often, networks have extraneous junctions in the middle of road segments. This option prevents vehicles from making U-turns at these locations.
String
Polygons_for_Multiple_Facilities
(Optional)

Specifies how service area polygons will be generated when multiple facilities are present in the analysis.

  • OverlappingIndividual polygons will be created for each facility. The polygons can overlap each other. This is the default.
  • Not OverlappingIndividual polygons will be created so that a polygon from one facility cannot overlap polygons from other facilities. Any portion of the network can only be covered by the service area of the nearest facility.
  • Merge by Break ValuePolygons of different facilities with the same break value will be created and joined.

When using Overlapping or Not Overlapping, all fields from the input facilities are included in the output polygons, with the exception that values from the input ObjectID field are transferred to the FacilityOID field of the output polygons. The FacilityOID field is null when merging by break value, and the input fields are not included in the output.

String
Polygon_Overlap_Type
(Optional)

Specifies whether concentric service area polygons will be created as disks or rings. This parameter is applicable only when multiple break values are specified for the facilities.

  • RingsThe polygons representing larger breaks will exclude the polygons of smaller breaks. This creates polygons between consecutive breaks. Use this option to find the area from one break to another. For instance, if you create 5- and 10-minute service areas, the 10-minute service area polygon will exclude the area under the 5-minute service area polygon. This is the default.
  • DisksPolygons will be created from the facility to the break. For instance, if you create 5- and 10-minute service areas, the 10-minute service area polygon will include the area under the 5-minute service area polygon.
String
Detailed_Polygons
(Optional)
Legacy:

Use of this parameter is no longer recommended. To generate detailed polygons, set the Polygon Detail parameter value to High.

Specifies the option to create detailed or generalized polygons.

  • Unchecked (False)—Generalized polygons are created, which are generated quickly and are fairly accurate. This is the default.
  • Checked (True)—Detailed polygons are created, which accurately model the service area lines and may contain islands of unreached areas. This option is much slower than generating generalized polygons. This option isn't supported when using hierarchy.

The tool supports generating detailed polygons only if the largest value specified in the Break Values parameter is less than or equal to 15minutes or 15 miles (24.14 kilometers).

Boolean
Polygon_Trim_Distance
(Optional)

The distance within which the service area polygons will be trimmed. This is useful when finding service areas in places that have a sparse street network and you don't want the service area to cover large areas where there are no street features.

The default value is 100 meters. No value or a value of 0 specifies that the service area polygons will not be trimmed. This parameter value is ignored when using hierarchy.

Linear Unit
Polygon_Simplification_Tolerance

The amount by which the polygon geometry will be simplified.

Simplification maintains critical vertices of a polygon to define its essential shape and removes other vertices. The simplification distance you specify is the maximum offset the simplified polygon boundaries can deviate from the original polygon boundaries. Simplifying a polygon reduces the number of vertices and tends to reduce drawing times.

Linear Unit
Point_Barriers
(Optional)

Use this parameter to specify one or more points that will act as temporary restrictions or represent additional time or distance that may be required to travel on the underlying streets. For example, a point barrier can be used to represent a fallen tree along a street or a time delay spent at a railroad crossing.

The tool imposes a limit of 250 points that can be added as barriers.

When specifying point barriers, you can set properties for each, such as its name or barrier type, using the following attributes:

Name

The name of the barrier.

BarrierType

Specifies whether the point barrier restricts travel completely or adds time or distance when it is crossed. The value for this attribute is specified as one of the following integers (use the numeric code, not the name in parentheses):

  • 0 (Restriction)—Prohibits travel through the barrier. The barrier is referred to as a restriction point barrier since it acts as a restriction.

  • 2 (Added Cost)—Traveling through the barrier increases the travel time or distance by the amount specified in the Additional_Time, Additional_Distance, or AdditionalCost field. This barrier type is referred to as an added cost point barrier.

Additional_Time

The added travel time when the barrier is traversed. This field is applicable only for added-cost barriers and when the Measurement Units parameter value is time based.

This field value must be greater than or equal to zero, and its units must be the same as those specified in the Measurement Units parameter.

Additional_Distance

The added distance when the barrier is traversed. This field is applicable only for added-cost barriers and when the Measurement Units parameter value is distance based.

The field value must be greater than or equal to zero, and its units must be the same as those specified in the Measurement Units parameter.

AdditionalCost

The added cost when the barrier is traversed. This field is applicable only for added-cost barriers when the Measurement Units parameter value is neither time based nor distance based.

FullEdge

Specifies how the restriction point barriers are applied to the edge elements during the analysis. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses):

  • 0 (False)—Permits travel on the edge up to the barrier but not through it. This is the default value.
  • 1 (True)—Restricts travel anywhere on the associated edge.

CurbApproach

Specifies the direction of traffic that is affected by the barrier. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses):

  • 0 (Either side of vehicle)—The barrier affects travel over the edge in both directions.
  • 1 (Right side of vehicle)—Vehicles are only affected if the barrier is on their right side during the approach. Vehicles that traverse the same edge but approach the barrier on their left side are not affected by the barrier.
  • 2 (Left side of vehicle)—Vehicles are only affected if the barrier is on their left side during the approach. Vehicles that traverse the same edge but approach the barrier on their right side are not affected by the barrier.

Because junctions are points and don't have a side, barriers on junctions affect all vehicles regardless of the curb approach.

The CurbApproach attribute works with both types of national driving standards: right-hand traffic (United States) and left-hand traffic (United Kingdom). First, consider a facility on the left side of a vehicle. It is always on the left side regardless of whether the vehicle travels on the left or right half of the road. What may change with national driving standards is your decision to approach a facility from one of two directions, that is, so it ends up on the right or left side of the vehicle. For example, to arrive at a facility and not have a lane of traffic between the vehicle and the facility, choose 1 (Right side of vehicle) in the United States and 2 (Left side of vehicle) in the United Kingdom.

Bearing

The direction in which a point is moving. The units are degrees and are measured clockwise from true north. This field is used in conjunction with the BearingTol field.

Bearing data is usually sent automatically from a mobile device equipped with a GPS receiver. Try to include bearing data if you are loading an input location that is moving, such as a pedestrian or a vehicle.

Using this field tends to prevent adding locations to the wrong edges, which can occur when a vehicle is near an intersection or an overpass, for example. Bearing also helps the tool determine on which side of the street the point is.

BearingTol

The bearing tolerance value creates a range of acceptable bearing values when locating moving points on an edge using the Bearing field. If the Bearing field value is within the range of acceptable values that are generated from the bearing tolerance on an edge, the point can be added as a network location there; otherwise, the closest point on the next-nearest edge is evaluated.

The units are in degrees, and the default value is 30. Values must be greater than 0 and less than 180. A value of 30 means that when Network Analyst attempts to add a network location on an edge, a range of acceptable bearing values is generated 15 degrees to either side of the edge (left and right) and in both digitized directions of the edge.

NavLatency

This field is only used in the solve process if the Bearing and BearingTol fields also have values; however, entering a NavLatency field value is optional, even when values are present in Bearing and BearingTol. NavLatency indicates how much cost is expected to elapse from the moment GPS information is sent from a moving vehicle to a server and the moment the processed route is received by the vehicle's navigation device.

The units of NavLatency are the same as the units of the impedance attribute.

Feature Set
Line_Barriers
(Optional)

Use this parameter to specify one or more lines that prohibit travel anywhere the lines intersect the streets. For example, a parade or protest that blocks traffic across several street segments can be modeled with a line barrier. A line barrier can also quickly fence off several roads from being traversed, thereby channeling possible routes away from undesirable parts of the street network.

The tool imposes a limit on the number of streets you can restrict using the Line Barriers parameter. While there is no limit to the number of lines you can specify as line barriers, the combined number of streets intersected by all the lines cannot exceed 500.

When specifying the line barriers, you can set name and barrier type properties for each using the following attributes:

Name

The name of the barrier.

Feature Set
Polygon_Barriers
(Optional)

Use this parameter to specify polygons that either completely restrict travel or proportionately scale the time or distance required to travel on the streets intersected by the polygons.

The service imposes a limit on the number of streets you can restrict using the Polygon Barriers parameter. While there is no limit to the number of polygons you can specify as polygon barriers, the combined number of streets intersected by all the polygons cannot exceed 2,000.

When specifying the polygon barriers, you can set properties for each, such as its name or barrier type, using the following attributes:

Name

The name of the barrier.

BarrierType

Specifies whether the barrier restricts travel completely or scales the cost (such as time or distance) for traveling through it. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses):

  • 0 (Restriction)—Prohibits traveling through any part of the barrier. The barrier is referred to as a restriction polygon barrier since it prohibits traveling on streets intersected by the barrier. One use of this type of barrier is to model floods covering areas of the street that make traveling on those streets impossible.

  • 1 (Scaled Cost)—Scales the cost (such as travel time or distance) required to travel the underlying streets by a factor specified using the ScaledTimeFactor or ScaledDistanceFactor field. If the streets are partially covered by the barrier, the travel time or distance is apportioned and then scaled. For example, a factor of 0.25 means that travel on underlying streets is expected to be four times faster than normal. A factor of 3.0 means it is expected to take three times longer than normal to travel on underlying streets. This barrier type is referred to as a scaled-cost polygon barrier. It can be used to model storms that reduce travel speeds in specific regions, for example.

ScaledTimeFactor

This is the factor by which the travel time of the streets intersected by the barrier is multiplied. The field value must be greater than zero.

This field is applicable only for scaled-cost barriers and when the Measurement Units parameter is time-based.

ScaledDistanceFactor

This is the factor by which the distance of the streets intersected by the barrier is multiplied. The field value must be greater than zero.

This field is applicable only for scaled-cost barriers and when the Measurement Units parameter is distance-based.

ScaledCostFactor

This is the factor by which the cost of the streets intersected by the barrier is multiplied. The field value must be greater than zero.

This field is applicable only for scaled-cost barriers when the Measurement Units parameter is neither time-based nor distance-based.

Feature Set
Restrictions
[Restrictions,...]
(Optional)

The travel restrictions that will be honored by the tool when determining the service areas.

A restriction represents a driving preference or requirement. In most cases, restrictions cause roads to be prohibited. For instance, using the Avoid Toll Roads restriction will result in a route that will include toll roads only when it is required to travel on toll roads to visit an incident or a facility. Height Restriction makes it possible to route around any clearances that are lower than the height of the vehicle. If you are carrying corrosive materials on the vehicle, using the Any Hazmat Prohibited restriction prevents hauling the materials along roads where it is marked illegal to do so.

Note:

The values you provide for this parameter are ignored unless Travel Mode is set to Custom.

Note:

Some restrictions require an additional value to be specified for their use. This value must be associated with the restriction name and a specific parameter intended to work with the restriction. You can identify such restrictions if their names appear in the AttributeName column of the Attribute Parameter Values parameter. Specify the ParameterValue field for the Attribute Parameter Values parameter for the restriction to be correctly used when finding traversable roads.

Note:

Some restrictions are supported only in certain countries; their availability is stated by region in the list below. Of the restrictions that have limited availability within a region, you can determine whether the restriction is available in a particular country by reviewing the table in the Country list section of Network analysis coverage. If a country has a value of Yes in the Logistics Attribute column, the restriction with select availability in the region is supported in that country. If you specify restriction names that are not available in the country where the incidents are located, the service ignores the invalid restrictions. The service also ignores restrictions when the Restriction Usage attribute parameter value is between 0 and 1 (see the Attribute Parameter Value parameter). It prohibits all restrictions when the Restriction Usage parameter value is greater than 0.

The service supports the following restrictions:

  • Any Hazmat ProhibitedThe results will not include roads where transporting any kind of hazardous material is prohibited. Availability: Select countries in North America and Europe
  • Avoid Carpool RoadsThe results will avoid roads that are designated exclusively for car pool (high-occupancy) vehicles. Availability: All countries
  • Avoid Express LanesThe results will avoid roads designated as express lanes. Availability: All countries
  • Avoid FerriesThe results will avoid ferries. Availability: All countries
  • Avoid GatesThe results will avoid roads where there are gates, such as keyed access or guard-controlled entryways.Availability: All countries
  • Avoid Limited Access RoadsThe results will avoid roads that are limited-access highways.Availability: All countries
  • Avoid Private RoadsThe results will avoid roads that are not publicly owned and maintained.Availability: All countries
  • Avoid Roads Unsuitable for PedestriansThe results will avoid roads that are unsuitable for pedestrians.Availability: All countries
  • Avoid StairwaysThe results will avoid all stairways on a pedestrian-suitable route.Availability: All countries
  • Avoid Toll RoadsThe results will avoid all toll roads for automobiles.Availability: All countries
  • Avoid Toll Roads for TrucksThe results will avoid all toll roads for trucks.Availability: All countries
  • Avoid Truck Restricted RoadsThe results will avoid roads where trucks are not allowed, except when making deliveries.Availability: All countries
  • Avoid Unpaved RoadsThe results will avoid roads that are not paved (for example, dirt, gravel, and so on). Availability: All countries
  • Axle Count RestrictionThe results will not include roads where trucks with the specified number of axles are prohibited. The number of axles can be specified using the Number of Axles restriction parameter.Availability: Select countries in North America and Europe
  • Driving a BusThe results will not include roads where buses are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countries
  • Driving a TaxiThe results will not include roads where taxis are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countries
  • Driving a TruckThe results will not include roads where trucks are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countries
  • Driving an AutomobileThe results will not include roads where automobiles are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countries
  • Driving an Emergency VehicleThe results will not include roads where emergency vehicles are prohibited. Using this restriction will also ensure that the results will honor one-way streets.Availability: All countries
  • Height RestrictionThe results will not include roads where the vehicle height exceeds the maximum allowed height for the road. The vehicle height can be specified using the Vehicle Height (meters) restriction parameter. Availability: Select countries in North America and Europe
  • Kingpin to Rear Axle Length RestrictionThe results will not include roads where the vehicle length exceeds the maximum allowed kingpin to rear axle for all trucks on the road. The length between the vehicle kingpin and the rear axle can be specified using the Vehicle Kingpin to Rear Axle Length (meters) restriction parameter. Availability: Select countries in North America and Europe
  • Length RestrictionThe results will not include roads where the vehicle length exceeds the maximum allowed length for the road. The vehicle length can be specified using the Vehicle Length (meters) restriction parameter. Availability: Select countries in North America and Europe
  • Preferred for PedestriansThe results will use preferred routes suitable for pedestrian navigation. Availability: Select countries in North America and Europe
  • Riding a MotorcycleThe results will not include roads where motorcycles are prohibited. Using this restriction will also ensure that the results will honor one-way streets.Availability: All countries
  • Roads Under Construction ProhibitedThe results will not include roads that are under construction.Availability: All countries
  • Semi or Tractor with One or More Trailers ProhibitedThe results will not include roads where semis or tractors with one or more trailers are prohibited. Availability: Select countries in North America and Europe
  • Single Axle Vehicles ProhibitedThe results will not include roads where vehicles with single axles are prohibited.Availability: Select countries in North America and Europe
  • Tandem Axle Vehicles ProhibitedThe results will not include roads where vehicles with tandem axles are prohibited.Availability: Select countries in North America and Europe
  • Through Traffic ProhibitedThe results will not include roads where through traffic (nonlocal) is prohibited.Availability: All countries
  • Truck with Trailers RestrictionThe results will not include roads where trucks with the specified number of trailers on the truck are prohibited. The number of trailers on the truck can be specified using the Number of Trailers on Truck restriction parameter.Availability: Select countries in North America and Europe
  • Use Preferred Hazmat RoutesThe results will prefer roads that are designated for transporting any kind of hazardous materials. Availability: Select countries in North America and Europe
  • Use Preferred Truck RoutesThe results will prefer roads that are designated as truck routes, such as the roads that are part of the national network as specified by the National Surface Transportation Assistance Act in the United States, or roads that are designated as truck routes by the state or province, or roads that are preferred by truckers when driving in an area.Availability: Select countries in North America and Europe
  • WalkingThe results will not include roads where pedestrians are prohibited.Availability: All countries
  • Weight RestrictionThe results will not include roads where the vehicle weight exceeds the maximum allowed weight for the road. The vehicle weight can be specified using the Vehicle Weight (kilograms) restriction parameter.Availability: Select countries in North America and Europe
  • Weight per Axle RestrictionThe results will not include roads where the vehicle weight per axle exceeds the maximum allowed weight per axle for the road. The vehicle weight per axle can be specified using the Vehicle Weight per Axle (kilograms) restriction parameter.Availability: Select countries in North America and Europe
  • Width RestrictionThe results will not include roads where the vehicle width exceeds the maximum allowed width for the road. The vehicle width can be specified using the Vehicle Width (meters) restriction parameter.Availability: Select countries in North America and Europe
String
Attribute_Parameter_Values
(Optional)

Use this parameter to specify additional values required by an attribute or restriction, such as to specify whether the restriction prohibits, avoids, or prefers travel on restricted roads. If the restriction is meant to avoid or prefer roads, you can further specify the degree to which they are avoided or preferred using this parameter. For example, you can choose to never use toll roads, avoid them as much as possible, or prefer them.

Note:

The values you provide for this parameter are ignored unless Travel Mode is set to Custom.

If you specify the Attribute Parameter Values parameter from a feature class, the field names on the feature class must match the fields as follows:

  • AttributeName—The name of the restriction.
  • ParameterName—The name of the parameter associated with the restriction. A restriction can have one or more ParameterName field values based on its intended use.
  • ParameterValue—The value for ParameterName used by the tool when evaluating the restriction.

The Attribute Parameter Values parameter is dependent on the Restrictions parameter. The ParameterValue field is applicable only if the restriction name is specified as the value for the Restrictions parameter.

In Attribute Parameter Values, each restriction (listed as AttributeName) has a ParameterName field value, Restriction Usage, that specifies whether the restriction prohibits, avoids, or prefers travel on the roads associated with the restriction as well as the degree to which the roads are avoided or preferred. The Restriction Usage ParameterName can be assigned any of the following string values or their equivalent numeric values listed in the parentheses:

  • PROHIBITED (-1)—Travel on the roads using the restriction is completely prohibited.
  • AVOID_HIGH (5)—It is highly unlikely the tool will include in the route the roads that are associated with the restriction.
  • AVOID_MEDIUM (2)—It is unlikely the tool will include in the route the roads that are associated with the restriction.
  • AVOID_LOW (1.3)—It is somewhat unlikely the tool will include in the route the roads that are associated with the restriction.
  • PREFER_LOW (0.8)—It is somewhat likely the tool will include in the route the roads that are associated with the restriction.
  • PREFER_MEDIUM (0.5)—It is likely the tool will include in the route the roads that are associated with the restriction.
  • PREFER_HIGH (0.2)—It is highly likely the tool will include in the route the roads that are associated with the restriction.

In most cases, you can use the default value, PROHIBITED, as the Restriction Usage value if the restriction is dependent on a vehicle characteristic such as vehicle height. However, in some cases, the Restriction Usage value depends on your routing preferences. For example, the Avoid Toll Roads restriction has the default value of AVOID_MEDIUM for the Restriction Usage attribute. This means that when the restriction is used, the tool will route around toll roads when it can. AVOID_MEDIUM also indicates how important it is to avoid toll roads when finding the best route; it has a medium priority. Choosing AVOID_LOW puts lower importance on avoiding tolls; choosing AVOID_HIGH instead gives it a higher importance and makes it more acceptable for the service to generate longer routes to avoid tolls. Choosing PROHIBITED entirely disallows travel on toll roads, making it impossible for a route to travel on any portion of a toll road. Keep in mind that avoiding or prohibiting toll roads, and avoiding toll payments, is the objective for some. In contrast, others prefer to drive on toll roads, because avoiding traffic is more valuable to them than the money spent on tolls. In the latter case, choose PREFER_LOW, PREFER_MEDIUM, or PREFER_HIGH as the value for Restriction Usage. The higher the preference, the farther the tool will go to travel on the roads associated with the restriction.

Record Set
Time_Zone_for_Time_of_Day
(Optional)

Specifies the time zone or zones of the Time of Day parameter.

  • Geographically LocalThe Time of Day parameter refers to the time zone or zones in which the facilities are located. The start or end times of the service areas are staggered by time zone. Setting Time of Day to 9:00 AM, choosing this option for Time Zone for Time of Day, and solving causes service areas to be generated for 9:00 a.m. eastern time for any facilities in the eastern time zone, 9:00 a.m. central time for facilities in the central time zone, 9:00 a.m. mountain time for facilities in the mountain time zone, and so on, for facilities in different time zones.If stores in a chain that span the U.S. open at 9:00 a.m. local time, this parameter value can be chosen to find market territories at opening time for all stores in one solve. First, the stores in the eastern time zone open and a polygon is generated, then an hour later stores open in central time, and so on. Nine o'clock is always in local time but staggered in real time.
  • UTCThe Time of Day parameter refers to coordinated universal time (UTC). All facilities are reached or departed from simultaneously, regardless of the time zone each is in.Setting Time of Day to 2:00 PM, choosing this option, and solving causes service areas to be generated for 9:00 a.m. eastern standard time for any facilities in the eastern time zone, 8:00 a.m. central standard time for facilities in the central time zone, 7:00 a.m. mountain standard time for facilities in the mountain time zone, and so on, for facilities in different time zones.
    Note:
    The scenario above assumes standard time. During daylight saving time, the eastern, central, and mountain times will each be one hour ahead (that is, 10:00, 9:00, and 8:00 a.m., respectively).
    One of the cases in which this option is useful is to visualize emergency response coverage for a jurisdiction that is split into two time zones. The emergency vehicles are loaded as facilities. The Time of Day parameter is set to now in UTC. (You need to determine the current time and date in terms of UTC to correctly use this option.) Other properties are set and the analysis is solved. Even though a time zone boundary divides the vehicles, the results show areas that can be reached given current traffic conditions. This same process can be used for other times as well, not just for now.

Regardless of the Time Zone for Time of Day setting, all facilities must be in the same time zone when Time of Day has a nonnull value and Polygons for Multiple Facilities is set to create merged or nonoverlapping polygons.

String
Travel_Mode
(Optional)

The mode of transportation that will be modeled in the analysis. Travel modes are managed in ArcGIS Online and can be configured by the administrator of your organization to reflect the organization's workflows. Specify the name of a travel mode that is supported by your organization.

To get a list of supported travel mode names, run the Get Travel Modes tool from the Utilities toolbox under the same GIS Server connection you used to access the tool. The Get Travel Modes tool adds a table, Supported Travel Modes, to the application. Any value in the Travel Mode Name field from the Supported Travel Modes table can be specified as input. You can also specify the value from the Travel Mode Settings field as input. This speeds up tool execution, as the tool does not have to find the settings based on the travel mode name.

The default value, Custom, allows you to configure a custom travel mode using the custom travel mode parameters (UTurn at Junctions, Use Hierarchy, Restrictions, Attribute Parameter Values, and Impedance). The default values of the custom travel mode parameters model traveling by car. You can also choose Custom and set the custom travel mode parameters listed above to model a pedestrian with a fast walking speed or a truck with a given height, weight, and cargo of certain hazardous materials. You can try different settings to get the analysis results you want. Once you have identified the analysis settings, work with your organization's administrator and save these settings as part of a new or existing travel mode so that everyone in your organization can run the analysis with the same settings.

Caution:

When you choose Custom, the values you set for the custom travel mode parameters are included in the analysis. Specifying another travel mode, as defined by your organization, causes any values you set for the custom travel mode parameters to be ignored; the tool overrides them with values from the specified travel mode.

String
Impedance
(Optional)

Specifies the impedance, which is a value that represents the effort or cost of traveling along road segments or on other parts of the transportation network.

Travel time is an impedance: a car may take 1 minute to travel a mile along an empty road. Travel times can vary by travel mode—a pedestrian may take more than 20 minutes to walk the same mile, so it is important to choose the right impedance for the travel mode you are modeling.

Travel distance can also be an impedance; the length of a road in kilometers can be thought of as impedance. Travel distance in this sense is the same for all modes—a kilometer for a pedestrian is also a kilometer for a car. (What may change is the pathways on which the different modes are allowed to travel, which affects distance between points, and this is modeled by travel mode settings.)

Caution:

The value you provide for this parameter is ignored unless Travel Mode is set to Custom, which is the default value.

  • TravelTimeHistorical and live traffic data is used. This option is good for modeling the time it takes automobiles to travel along roads at a specific time of day using live traffic speed data where available. When using TravelTime, you can optionally set the TravelTime::Vehicle Maximum Speed (km/h) attribute parameter to specify the physical limitation of the speed the vehicle is capable of traveling.
  • MinutesLive traffic data is not used, but historical average speeds for automobiles data is used.
  • TruckTravelTimeHistorical and live traffic data is used, but the speed is capped at the posted truck speed limit. This is good for modeling the time it takes for the trucks to travel along roads at a specific time. When using TruckTravelTime, you can optionally set the TruckTravelTime::Vehicle Maximum Speed (km/h) attribute parameter to specify the physical limitation of the speed the truck is capable of traveling.
  • TruckMinutesLive traffic data is not used, but the smaller of the historical average speeds for automobiles and the posted speed limits for trucks is used.
  • WalkTimeThe default is a speed of 5 km/hr on all roads and paths, but this can be configured through the WalkTime::Walking Speed (km/h) attribute parameter.
  • MilesLength measurements along roads are stored in miles and can be used for performing analysis based on shortest distance.
  • KilometersLength measurements along roads are stored in kilometers and can be used for performing analysis based on shortest distance.
  • TimeAt1KPHThe default is a speed of 1 km/hr on all roads and paths. The speed cannot be changed using any attribute parameter.
  • Drive TimeTravel times for a car are modeled. These travel times are dynamic and fluctuate according to traffic flows in areas where traffic data is available. This is the default value.
  • Truck TimeTravel times for a truck are modeled. These travel times are static for each road and don't fluctuate with traffic.
  • Walk TimeTravel times for a pedestrian are modeled.
  • Travel DistanceLength measurements along roads and paths are stored. To model walk distance, choose this option and ensure that Walking is set for the Restriction parameter. Similarly, to model drive or truck distance, choose Travel Distance here and set the appropriate restrictions so the vehicle travels only on roads where it is permitted to do so.

If you choose a time-based impedance, such as TravelTime, TruckTravelTime, Minutes, TruckMinutes, or WalkTime, the Break Units parameter must be set to a time-based value; if you choose a distance-based impedance such as Miles or Kilometers, Break Units must be a distance-based value.

Legacy:

Drive Time, Truck Time, Walk Time, and Travel Distance impedance values are no longer supported and will be removed in a future release. If you use one of these values, the tool uses the value of the Time Impedance parameter for time-based values and the Distance Impedance parameter for distance-based values.

String
Save_Output_Network_Analysis_Layer
(Optional)

Specifies whether the analysis settings will be saved as a network analysis layer file. You cannot directly work with this file even when you open the file in an ArcGIS Desktop application such as ArcMap. It is meant to be sent to Esri Technical Support to diagnose the quality of results returned from the tool.

  • Checked (True in Python)—The output will be saved as a network analysis layer file. The file will be downloaded to a temporary directory on your machine. In ArcGIS Pro, the location of the downloaded file can be determined by viewing the value for the Output Network Analysis Layer parameter in the entry corresponding to the tool service in the geoprocessing history of the project. In ArcMap, the location of the file can be determined by accessing the Copy Location option in the shortcut menu of the Output Network Analysis Layer parameter in the entry corresponding to the tool service in the Geoprocessing Results window.
  • Unchecked (False in Python)—The output will not be saved as a network analysis layer file. This is the default.

Boolean
Overrides
(Optional)

Note:

This parameter is for internal use only.

String
Time_Impedance
(Optional)

The time-based impedance value represents the travel time along road segments or on other parts of the transportation network.

Note:
If the impedance for the travel mode, as specified using the Impedance parameter, is time based, the values for the Time Impedance and Impedance parameters must be identical. Otherwise, the service will return an error.
  • MinutesTime impedance will be minutes.
  • TravelTimeTime impedance will be travel time.
  • TimeAt1KPHTime impedance will be time at one kilometer per hour.
  • WalkTimeTime impedance will be walk time.
  • TruckMinutesTime impedance will be truck minutes.
  • TruckTravelTimeTime impedance will be truck travel time.
String
Distance_Impedance
(Optional)

The distance-based impedance value represents the travel distance along road segments or on other parts of the transportation network.

Note:
If the impedance for the travel mode, as specified using the Impedance parameter, is distance based, the values for the Distance Impedance and Impedance parameters must be identical. Otherwise, the service will return an error.
  • MilesDistance impedance will be miles.
  • KilometersDistance impedance will be kilometers.
String
Polygon_Detail
(Optional)

Specifies the level of detail for the output polygons.

  • StandardPolygons will be created with a standard level of detail. Standard polygons are generated quickly and are fairly accurate, but quality deteriorates as you move toward the borders of the service area polygons. This is the default.
  • GeneralizedGeneralized polygons will be created using the hierarchy present in the network data source to produce results quickly. Generalized polygons are inferior in quality compared to standard or high-precision polygons.
  • HighPolygons will be created with the highest level of detail. Holes in the polygon may exist; they represent islands of network elements, such as streets, that couldn't be reached without exceeding the cutoff impedance or due to travel restrictions Use this option for applications in which precise results are important.

If your analysis covers an urban area with a grid-like street network, the difference between generalized and standard polygons will be minimal. However, for mountain and rural roads, the standard and detailed polygons may present significantly more accurate results than generalized polygons.

The tool supports generating high-precision polygons only if the largest value specified in the Break Values parameter is less than or equal to 15minutes or 15 miles (24.14 kilometers).

String
Output_Type
(Optional)

Specifies the type of output that will be generated. Service area output can be line features representing the roads reachable before the cutoffs are exceeded or the polygon features encompassing these lines (representing the reachable area).

  • PolygonsThe service area output will contain polygons only. This is the default.
  • LinesThe service area output will contain lines only.
  • Polygons and linesThe service area output will contain both polygons and lines.
String
Output_Format
(Optional)

Specifies the format in which the output features will be returned.

  • Feature SetThe output features will be returned as feature classes and tables. This is the default.
  • JSON FileThe output features will be returned as a compressed file containing the JSON representation of the outputs. When this option is specified, the output is a single file (with a .zip extension) that contains one or more JSON files (with a .json extension) for each of the outputs created by the service.
  • GeoJSON FileThe output features will be returned as a compressed file containing the GeoJSON representation of the outputs. When this option is specified, the output is a single file (with a .zip extension) that contains one or more GeoJSON files (with a .geojson extension) for each of the outputs created by the service.

When a file-based output format, such as JSON File or GeoJSON File, is specified, no outputs will be added to the display because the application, such as ArcMap or ArcGIS Pro, cannot draw the contents of the result file. Instead, the result file is downloaded to a temporary directory on your machine. In ArcGIS Pro, the location of the downloaded file can be determined by viewing the value for the Output Result File parameter in the entry corresponding to the tool operation in the geoprocessing history of the project. In ArcMap, the location of the file can be determined by accessing the Copy Location option in the shortcut menu of the Output Result File parameter in the entry corresponding to the tool operation in the Geoprocessing Results window.

String
Ignore_Invalid_Locations
(Optional)

Specifies whether invalid input locations will be ignored.

  • SKIPNetwork locations that are unlocated will be ignored and the analysis will run using valid network locations only. The analysis will also continue if locations are on nontraversable elements or have other errors. This is useful if you know the network locations are not all correct, but you want to run the analysis with the network locations that are valid. This is the default.
  • HALTInvalid locations will not be ignored. Do not run the analysis if there are invalid locations. Correct the invalid locations and rerun the analysis.
Boolean
Locate_Settings
(Optional)

Use this parameter to specify settings that affect how inputs are located, such as the maximum search distance to use when locating the inputs on the network, or the network sources being used for locating.

Learn more about locating inputs

The parameter value is specified as a JSON object. The JSON object allows you to specify a locator JSON for all input feature in the analysis, or optionally you could specify an override for a particular input. The override allows you to have different settings for each analysis input.

The locator JSON object has the following properties:

  • tolerance and toleranceUnits—Allows you to control the maximum search distance when locating inputs. If no valid network location is found within this distance, the input features will be considered unlocated. A small search tolerance decreases the likelihood of locating on the wrong street but increases the likelihood of not finding any valid network location. The toleranceUnits parameter value should be specified as one of the following values:
    • esriCentimeters
    • esriDecimalDegrees
    • esriDecimeters
    • esriFeet
    • esriInches
    • esriIntFeet
    • esriIntInches
    • esriIntMiles
    • esriIntNauticalMiles
    • esriIntYards
    • esriKilometers
    • esriMeters
    • esriMiles
    • esriMillimeters
    • esriNauticalMiles
    • esriYards
  • sources— Allows you to control which network source can be used for locating. For example, you can configure the analysis to locate inputs on streets but not on sidewalks. The list of possible sources on which to locate is specific to the network dataset this service references. Only the sources that are present in the sources array are used for locating. Sources is specified as an array of objects each having the following property:
    • name—Name of the network source feature class that can be used for locating inputs.
  • allowAutoRelocate—Allows you to control whether inputs with existing network location fields can be automatically relocated when solving to ensure valid, routable location fields for the analysis. If the value is true, points located on restricted network elements and points affected by barriers will be relocated to the closest routable location. If the value is false, network location fields will be used as is even if the points are unreachable, and this may cause the solve to fail. Even if the value is false, inputs with no location fields or incomplete location fields will be located during solve.
Note:
At this point, the sources array doesn't allow to specify different source names. Also, allowAutoRelocate is always set to true since the service does not support location fields.

Locate_Settings JSON object allows you to specify a default locator JSON object for all input features in the analysis, as well as overrides for each input class. When specifying Locate_Settings JSON, you need to provide the following properties: tolerance, toleranceUnits, and allowAutoRelocate. If you need to provide a different locator JSON for a particular input class, you need to include overrides property for that input. The property name must match the input parameter name. The locator JSON for a particular input doesn't need to include all the properties; you only need to include the properties that are different from the default locator JSON properties.

String

Derived Output

NameExplanationData Type
Service_Areas

It provides access to polygon features that represent areas that can be reached from the input locations with a given travel time, travel distance, or travel cost.

Feature Set
Solve_Succeeded

Determines whether solving the service area analysis succeeded.

Boolean
Output_Network_Analysis_Layer

The network analysis layer, with properties configured in the tool parameters, that can be used for further analysis or debugging in the map.

File
Output_Facilities

This provides access to the attributes of the facilities that are used in the service area analysis. You can use the attributes from this data type, such as the Status field, to determine why a facility was not used in the analysis.

Feature Set
Output_Service_Area_Lines

This stores the resultant service areas as linear features and covers the streets, or network edges, that can be reached within the given time, distance, or other travel-cost cutoff. Lines are a truer representation of a service area than polygons since service area analyses are based on measurements along the network lines.

Feature Set
Output_Result_File

A .zip file containing the results of the analysis with one or more files for each output. The format of the individual files is specified by the Output Format parameter.

File
Output_Network_Analysis_Layer_Package

A layer package that includes a network analysis layer with the data and settings used in the analysis.

File
Usage_Cost

This parameter returns the credits used by the analysis.

Note:

Each analysis can generate a different number of billable objects and thus will use different number of credits. If the service fails to determine credits, the usage_cost parameter returns a value of -1 for credits.

JSON

Code sample

GenerateServiceAreas example (stand-alone script)

The following Python script demonstrates how to use the Generate Service Areas service in a script.

"""This example shows how to generate 5, 10, 15 minute drive time areas around facilities."""

import sys
import time
import arcpy

# Change the username and password applicable to your own ArcGIS Online account
username = "<your user name>"
password = "<your password>"
sa_service = "https://logistics.arcgis.com/arcgis/services;World/ServiceAreas;{0};{1}".format(username, password)

# Add the geoprocessing service as a toolbox.
# Check https://pro.arcgis.com/en/pro-app/arcpy/functions/importtoolbox.htm for
# other ways in which you can specify credentials to connect to a geoprocessing service.
arcpy.ImportToolbox(sa_service)

# Set the variables to call the tool
facilities = "C:/data/Inputs.gdb/Stores"
output_service_areas = "C:/data/Results.gdb/StoreServiceAreas"

# Call the tool
result = arcpy.ServiceAreas.GenerateServiceAreas(facilities, "5 10 15", "Minutes")
arcpy.AddMessage("Running the analysis with result ID: {}".format(result.resultID))

# Check the status of the result object every 1 second until it has a
# value of 4 (succeeded) or greater
while result.status < 4:
    time.sleep(1)

# print any warning or error messages returned from the tool
result_severity = result.maxSeverity
if result_severity == 2:
    arcpy.AddError("An error occured when running the tool")
    arcpy.AddError(result.getMessages(2))
    sys.exit(2)
elif result_severity == 1:
    arcpy.AddWarning("Warnings were returned when running the tool")
    arcpy.AddWarning(result.getMessages(1))

# Store the output drive time polygons to a geodatabase
result.getOutput(0).save(output_service_areas)
GenerateServiceAreas example 2 (stand-alone script)

The following example shows how to perform a service area analysis using a custom travel mode.

"""This example shows how to perform a service area analysis using a custom travel mode
that models trucks carrying wide load."""

import sys
import time
import json
import arcpy

username = "<your user name>"
password = "<your password>"
sa_service = "https://logistics.arcgis.com/arcgis/services;World/ServiceAreas;{0};{1}".format(username, password)

# Add the geoprocessing service as a toolbox.
arcpy.ImportToolbox(sa_service)

# Set the variables to call the tool
facilities = "C:/data/Inputs.gdb/Stores"
output_service_areas = "C:/data/Results.gdb/StoreServiceAreas"

# Change Vehicle Width attribute parameter value to 4.5 (about 15 feet) for the Trucking Time travel mode
# used for the analysis
portal_url = "https://www.arcgis.com"
arcpy.SignInToPortal(portal_url, username, password)
travel_mode_list = arcpy.na.GetTravelModes(portal_url)
tt = travel_mode_list["Trucking Time"]
tt_json = str(tt)
tt_dict = json.loads(tt_json)
tt_dict["restrictionAttributeNames"].append("Width Restriction")

for attr_param in tt_dict["attributeParameterValues"]:
    if attr_param['attributeName'] == 'Width Restriction' and attr_param['parameterName'] == 'Vehicle Width (meters)':
        attr_param['value'] = 4.5
travel_mode = json.dumps(tt_dict)

# Call the tool
result = arcpy.ServiceAreas.GenerateServiceAreas(facilities, "5 10 15", "Minutes", Travel_Mode=travel_mode)

# Check the status of the result object every 1 second until it has a
# value of 4 (succeeded) or greater
while result.status < 4:
    time.sleep(1)

# print any warning or error messages returned from the tool
result_severity = result.maxSeverity
if result_severity == 2:
    arcpy.AddError("An error occured when running the tool")
    arcpy.AddError(result.getMessages(2))
    sys.exit(2)
elif result_severity == 1:
    arcpy.AddWarning("Warnings were returned when running the tool")
    arcpy.AddWarning(result.getMessages(1))

# Store the output drive time polygons to a geodatabase
result.getOutput(0).save(output_service_areas)

Environments

This tool does not use any geoprocessing environments.