Event behavior for route reassignment

Location Referencing ライセンスで利用可能です。

During route reassignment, events are impacted in the edit activity areas, and upstream and downstream of the reassignment, depending on the configured event behavior for each event layer.

注意:

Events are not updated until the Apply Event Behaviors tool is applied after route edits. If you are using conflict prevention, you are prompted to run Apply Event Behaviors before posting can be completed.

注意:

下流部分の再キャリブレーションが選択されている LRS ルートの編集では、構成されたキャリブレーション イベントの振舞いが下流セクションに適用されます。 構成されたイベントの振舞いは、LRS イベント プロパティを表示することで確認できます。

The following sections detail the results of executing the Apply Event Behaviors tool on event features after a corresponding route edit.

Route reassignment scenario

This route reassignment scenario involves two routes. A portion of Route1 is reassigned to Route2.

Before reassignment

Stay Put behavior

Although the geographic location of the event outside the reassign region is maintained, the measures can change. The event can also split if it crosses the reassign region. Portions in the reassign region are removed.

Stay Put event behavior

Move behavior

Although the measures of the event are maintained, the geographic location can change.

Move event behavior

Retire behavior

Events intersecting the reassignment region are retired.

Retire event behavior

Snap behavior

Although the geographic location of the event is maintained by snapping to the route that it was reassigned to, the measures can change. The event can also split if it crosses the reassign region.

Snap event behavior

Upstream and downstream sections

Route editing impacts upstream and downstream sections differently.

The following diagram shows the upstream and downstream section for the route reassignment scenario:

Upstream and downstream

The following table details how the reassignment editing activity impacts upstream and downstream events according to the configured event behavior:

BehaviorEvents upstream reassignmentEvents intersecting reassignmentEvents downstream reassignment

Stay Put

No action

Retire event. Line events crossing the edit section are split and the original event retired.

If route calibration is changed, the recalibrate event behavior is applied; otherwise, no action.

Move

Shape regenerated, if needed, to new location of route measures

Shape regenerated to the new location of route measures.

If route calibration is changed, the recalibrate event behavior is applied; otherwise, no action.

Retire

No action

Retire event. Line events crossing the reassignment region do not split.

If route calibration is changed, the recalibrate event behavior is applied; otherwise, no action.

Snap

No action

Geographic location (x,y) is maintained. The event is migrated to the reassigned route. Line events crossing the edit section are split.

If route calibration is changed, the recalibrate event behavior is applied; otherwise, no action.

注意:

Detailed behavior results

The following sections detail how event behavior rules are enforced when a route is reassigned.

Stay Put behavior

If the reassignment is set to occur on 1/1/2005 with target values of 0 to 5 and Recalibrate route downstream is chosen, this has the following effects:

  • Event1 is represented by two time slices. There is a time slice from 1/1/2000 to 1/1/2005, with the original measures from 0 to 7, and a time slice from 1/1/2005 to <Null>, with measures from 0 to 5 that stay in the same location geographically but have the new measures from Route1.
  • Event2 retires to maintain geographic location.

Before Stay Put event behavior

The following diagram provides details about the routes before reassignment:

Before Stay Put event behavior

The following table provides details about the events before reassignment:

EventRoute NameFrom DateTo DateFrom MeasureTo Measure

Event1

Route1

1/1/2000

<Null>

0

7

Event2

Route1

1/1/2000

<Null>

7

10

After Stay Put event behavior

The following diagram provides details about the routes after reassignment:

After Stay Put event behavior

The following table provides details about the events after reassignment when Stay Put is the configured event behavior:

EventRoute NameFrom DateTo DateFrom MeasureTo MeasureLocation Error

Event1

Route1

1/1/2000

1/1/2005

0

7

No Error

Event1

Route1

1/1/2005

<Null>

0

5

No Error

Event2

Route1

1/1/2000

1/1/2005

7

10

No Error

Move behavior

If the reassignment is set to occur on 1/1/2005 with target values of 0 to 5 and Recalibrate route downstream is chosen, this has the following effects:

  • Event1 is represented by two time slices. There is a time slice from 1/1/2000 to 1/1/2005 with the original measures from 0 to 7, and a time slice from 1/1/2005 to <Null> with measures from 0 to 7 that move geographically to maintain the original event measures. This new time slice only partially locates since the event time slice has measures from 0 to 7, but the underlying route only has measures from 0 to 5. The event has the same measures but different geometry in the new time slice.
  • Event2 is represented by two time slices. There is a time slice from 1/1/2000 to 1/1/2005 with the original measures from 7 to 10, and a time slice from 1/1/2005 to <Null> with measures from 7 to 10 that move geographically to maintain the original event measures. This new time slice does not locate since the event time slice has measures from 7 to 10, but the underlying route only has measures from 0 to 5. The event has the same measures but different geometry in the new time slice.

Before Move event behavior

The following diagram provides details about the routes before reassignment:

Before Move event behavior

The following table provides details about the events before reassignment:

EventRoute NameFrom DateTo DateFrom MeasureTo Measure

Event1

Route1

1/1/2000

<Null>

0

7

Event2

Route1

1/1/2000

<Null>

7

10

After Move event behavior

The following diagram provides details about the routes after reassignment:

After Move event behavior

The following table provides details about the events after reassignment when Move is the configured event behavior:

EventRoute NameFrom DateTo DateFrom MeasureTo MeasureLocation Error

Event1

Route1

1/1/2000

1/1/2005

0

7

No Error

Event1

Route1

1/1/2005

<Null>

0

7

Partial match for the To Measure

Event2

Route1

1/1/2000

1/1/2005

7

10

No Error

Retire behavior

If the reassignment is set to occur on 1/1/2005 with target values of 0 to 5 and Recalibrate route downstream is chosen, this has the following effects:

  • Event1 retires.
  • Event2 retires.

Before Retire event behavior

The following diagram provides details about the routes before reassignment:

Before Retire event behavior

The following table provides details about the events before reassignment:

EventRoute NameFrom DateTo DateFrom MeasureTo Measure

Event1

Route1

1/1/2000

<Null>

0

7

Event2

Route1

1/1/2000

<Null>

7

10

After Retire event behavior

The following diagram provides details about the routes after reassignment:

After Retire event behavior

The following table provides details about the events after reassignment when Retire is the configured event behavior:

EventRoute NameFrom DateTo DateFrom MeasureTo MeasureLocation Error

Event1

Route1

1/1/2000

1/1/2005

0

7

No Error

Event2

Route1

1/1/2000

1/1/2005

7

10

No Error

Snap behavior

If the reassignment is set to occur on 1/1/2005 with target values of 0 to 5 and Recalibrate route downstream is chosen, this has the following effects:

  • Event1 is represented by two time slices. There is a time slice from 1/1/2000 to 1/1/2005 with the original measures from 0 to 7, and a time slice from 1/1/2005 to <Null> with two event records. The first Event1 event record after reassignment has measures from 0 to 5 that snap to the new measures from Route1; and the second event record has measures from 0 to 2 that snap to the new measures of Route2.
  • Event2 is represented by two time slices. There is a time slice from 1/1/2000 to 1/1/2005 with the original measures from 7 to 10, and a time slice from 1/1/2005 to <Null> with measures from 2 to 5 that snap to the new measures of Route2.

Before Snap event behavior

The following diagram provides details about the routes before reassignment:

Before Snap event behavior

The following table provides details about the events before reassignment:

EventRoute NameFrom DateTo DateFrom MeasureTo Measure

Event1

Route1

1/1/2000

<Null>

0

7

Event2

Route1

1/1/2000

<Null>

7

10

After Snap event behavior

The following diagram provides details about the routes after reassignment:

After Snap event behavior

The following table provides details about the events after reassignment when Snap is the configured event behavior:

EventRoute NameFrom DateTo DateFrom MeasureTo MeasureLocation Error

Event1

Route1

1/1/2000

1/1/2005

0

7

No Error

Event1

Route1

1/1/2005

<Null>

0

5

No Error

Event1

Route2

1/1/2005

<Null>

0

2

No Error

Event2

Route1

1/1/2000

1/1/2005

7

10

No Error

Event2

Route2

1/1/2005

<Null>

2

5

No Error

Detailed behavior results on routes in a line network with events that span routes

The following sections detail how event behavior rules are enforced when routes on a line in a line network are reassigned.

Stay Put behavior

The routes are active from 1/1/2000, and if the reassignment is set to occur on 1/1/2005 from measure 25 on Route3 to 48 on Route4 and Recalibrate route downstream is not chosen, this has the following effects:

  • Reassignment is used for merging Route3 and Route4 to create a new route, Route3A.
  • Event1 is represented by two time slices. There is a time slice from 1/1/2000 to 1/1/2005 with the original measures from 0 on Route1 to 30 on Route3, and a time slice from 1/1/2005 to <Null> with measures from 0 on Route1 to 22 on Route2, as it stays the same geographically. The portion of the event on Route3 is retired since there is no Route3 to build the event shape on any longer.
  • Event2 retires. as the event is completely within the reassigned portion. There is no longer a Route3 or Route4 on which to build the event shape.

Before Stay Put behavior

The following diagram provides details about the routes before reassignment:

Before Stay Put event behavior

The following table provides details about the events before reassignment:

Event IDFrom DateTo DateFrom Route IDTo Route IDFrom MeasureTo Measure

Event1

1/1/2000

<Null>

Route1

Route3

0

30

Event2

1/1/2000

<Null>

Route3

Route4

30

48

After Stay Put behavior

The following diagram provides details about the routes after reassignment:

After Stay Put event behavior

The following table provides details about the events after reassignment when Stay Put is the configured event behavior:

Event IDFrom DateTo DateFrom Route IDTo Route IDFrom MeasureTo MeasureLocation Error

Event1

1/1/2000

1/1/2005

Route1

Route3

0

30

No Error

Event1

1/1/2005

<Null>

Route1

Route2

0

22

No Error

Event2

1/1/2000

1/1/2005

Route3

Route4

30

48

Route Not Found

Move behavior

The routes are active from 1/1/2000, and if the reassignment is set to occur on 1/1/2005 from measure 25 on Route3 to 48 on Route4 and Recalibrate route downstream is unchecked, this has the following effects:

  • Event1 is represented by two time slices. There is a time slice from 1/1/2000 to 1/1/2005 with the original measures from 0 on Route1 to 30 on Route3, and a time slice from 1/1/2005 to <Null> with measures from 0 on Route1 to 30 on Route3, but since Route3 has been reassigned, the shape can’t be built in that location. In the new time slice, the event has the same measures but different geometry.
  • Event2 is represented by two time slices. There is a time slice from 1/1/2000 to 1/1/2005with the original measures from 30 on Route3 to 48 on Route4. The second time slice, from 1/1/2005 to <Null>, has measures from 30 on Route3 to 48 on Route4, but Route3 and Route4 have been reassigned, so there is no shape for this event.

Before Move behavior

The following diagram provides details about the routes before reassignment:

Before Move event behavior

The following table provides details about the events before reassignment:

Event IDFrom DateTo DateFrom Route IDTo Route IDFrom MeasureTo Measure

Event1

1/1/2000

<Null>

Route1

Route3

0

30

Event2

1/1/2000

<Null>

Route3

Route4

30

48

After Move behavior

The following diagram provides details about the routes after reassignment:

After Move event behavior

The following table provides details about the events after reassignment when Move is the configured event behavior:

Event IDFrom DateTo DateFrom Route IDTo Route IDFrom MeasureTo MeasureLocation Error

Event1

1/1/2000

1/1/2005

Route1

Route3

0

30

No Error

Event1

1/1/2005

<Null>

Route1

Route3

0

30

Partial Match for the To Measure

Event2

1/1/2000

1/1/2005

Route3

Route4

30

48

No Error

Event2

1/1/2005

<Null>

Route3

Route4

30

48

Route Not Found

注意:

Event2 exists after the Apply Event Behavior tool is run but has no shape.

Retire behavior

The routes are active from 1/1/2000, and if the reassignment is set to occur on 1/1/2005 from measure 25 on Route3 to 48 on Route4 and Recalibrate route downstream is not chosen, this has the following effects:

  • Event1 retires since it is located in the reassigned region.
  • Event2 retires since it is located in the reassigned region.

Before Retire behavior

The following diagram provides details about the routes before reassignment:

Before Retire event behavior

The following table provides details about the event before reassignment:

Event IDFrom DateTo DateFrom Route IDTo Route IDFrom MeasureTo Measure

Event1

1/1/2000

<Null>

Route1

Route3

0

30

Event2

1/1/2000

<Null>

Route3

Route4

30

48

After Retire behavior

The following diagram provides details about the routes after reassignment:

After Retire event behavior

The following table provides details about the events after reassignment when Retire is the configured event behavior:

Event IDFrom DateTo DateFrom Route IDTo Route IDFrom MeasureTo MeasureLocation Error

Event1

1/1/2000

1/1/2005

Route1

Route3

0

30

No Error

Event2

1/1/2000

1/1/2005

Route3

Route4

30

48

No Error

Snap behavior

The routes are active from 1/1/2000, and if the reassignment is set to occur on 1/1/2005 from measure 25 on Route3 to 48 on Route4 and Recalibrate route downstream is unchecked, this has the following effects:

  • Event1 is represented by two time slices. There is a time slice from 1/1/2000 to 1/1/2005 with the original measures from 0 on Route1 to 30 on Route3, and a second time slice from 1/1/2005 to <Null> with two event records. Because the reassignment took place in the middle of the event, it splits. The first Event1 record after reassignment has measures from 0 on Route1 to 22 on Route2, while the second Event1 record has measures from 25 on Route3A to 30 on Route3A. Both events stay in the same location geographically, but the second event snaps to the new route at the location, Route3A.
  • Event2 is represented by two time slices. There is a time slice from 1/1/2000 to 1/1/2005 with the original measures from 30 on Route3 to 48 on Route4, and a time slice from 1/1/2005 to <Null> with measures from 30 on Route3A to 48 on Route3A. The event stays in the same location geographically, but snaps to the new route at the location, Route3A.

Before Snap event behavior

The following diagram provides details about the routes before reassignment:

Before Snap event behavior

The following table provides details about the events before reassignment:

Event IDFrom DateTo DateFrom Route IDTo Route IDFrom MeasureTo Measure

Event1

1/1/2000

<Null>

Route1

Route3

0

30

Event2

1/1/2000

<Null>

Route3

Route4

30

48

After Snap event behavior

The following diagram provides details about the routes after reassignment:

After Snap event behavior

The following table provides details about the events after reassignment when Snap is the configured event behavior:

EventFrom DateTo DateFrom Route IDTo Route IDFrom MeasureTo MeasureLocation Error

Event1

1/1/2000

1/1/2005

Route1

Route3

0

30

No Error

Event1

1/1/2005

<Null>

Route1

Route2

0

22

No Error

Event1

1/1/2005

<Null>

Route3A

Route3A

25

30

No Error

Event2

1/1/2000

1/1/2005

Route3

Route4

30

48

No Error

Event2

1/1/2005

<Null>

Route3A

Route3A

30

48

No Error