Origin Destination Cost Matrix service

The Origin Destination Cost Matrix service helps you to create an origin-destination (OD) cost matrix from multiple origins to multiple destinations. An OD cost matrix is a table that contains the cost, such as the travel time or travel distance, from each origin to each destination. Additionally, it ranks the destinations that each origin connects to in ascending order based on the minimum cost required to travel from that origin to each destination. When generating an OD cost matrix, you can optionally specify the maximum number of destinations to find for each origin and the maximum time or distance to travel when searching for destinations.

The results from the OD cost matrix service often become input for other spatial analyses where the cost to travel on the street network is more appropriate than straight-line cost. For example, predicting the movement of people in a city is better modeled with costs based on street networks, since people tend to travel on roads and pedestrian paths.

The best path on the street network is discovered for each origin-destination pair, and the cost is stored as part of the attributes of the output lines which can have no shapes (default) or a straight line shape. Even though the lines are straight for performance reasons, they always store the travel time or travel distance based on the street network, not straight-line distance.

TipTip:

The closest facility and OD cost matrix services perform very similar analyses; the main difference, however, is in the output and the computation speed. OD cost matrix service generates results more quickly but cannot return the true shapes of routes or their driving directions. It is designed to quickly solve large M x N problems and, as a result, does not internally contain the information required to generate route shapes and driving directions. Alternatively, the closest facility service returns routes and directions but performs the analysis more slowly than the OD cost matrix service. If you need driving directions or true shapes of routes, use the closest facility service; otherwise, use the OD cost matrix service to reduce the computation time.

Request URL

This service uses the asynchronous execution mode. The client must periodically check whether the service has finished execution and, once completed, get the result. While the service is executing, the application is available to do other things.

CautionCaution:

The maximum time an application can use the Origin Destination Cost Matrix service is 1 hour (3,600 seconds). If your request does not complete within this time limit, it will time out and return a failure.

You can make a request to the Origin Destination Cost Matrix service using the following form:

https://logistics.arcgis.com/arcgis/rest/services/World/OriginDestinationCostMatrix/GPServer/GenerateOriginDestinationCostMatrix/submitJob?parameters

Dive-inDive-in:

The service works in all of the supported countries listed in the data coverage page. One or more countries are grouped together to form a region. When you pass in your inputs, the service can examine their geographic locations and try to determine the region in which the analysis should be performed.

All input features need to fall within one region.

Request parameters

The origin-destination cost matrix request takes the parameters listed below. The only required parameters are origins, destinations, token, and f. The optional parameters have default values that are used when not specified in the request.

Required parameters

origins

Use this parameter to specify locations that function as starting points in generating the paths to destinations.

CautionCaution:

The service imposes a maximum limit of 1000 points that can be passed as origins. If the value is exceeded, the response returns an error message.

The origins parameter can be specified using a JSON structure that represents a set of point features. The JSON structure can include the following properties:

  • url: Specify a REST query request to any ArcGIS Server feature, map, or geoprocessing service that returns a JSON feature set. This property is optional. However, either features or url must be specified.
  • spatialReference: Specifies the spatial reference for the input point geometries. This property is not required if the coordinates are in the default spatial reference, WGS84. If the coordinates are in a different spatial reference, you need to specify the spatial reference's well-known ID (WKID). Depending on whether your input points are specified with a geographic or projected coordinate system, you can find the appropriate WKID in either the geographic coordinate system or projected coordinate system reference topic.

  • fields: Lists the fields that are part of the input features representing origins. This property is optional if you are using the default fields only. However, it is required if your origins include custom fields.
  • features: Specify an array of features. This property is optional. However, either the features or url property must be specified.

Each feature in the features array represents an origin and contains the following properties:

  • geometry: Specifies the origin's geometry as a point containing x and y properties.
  • attributes: Specify each attribute as a key-value pair where the key is the name of a given field, and the value is the attribute value for the corresponding field.

Attributes for origins

When specifying the origins, you can include additional properties for each one, such as its name or the number of destinations to find from the origin, by using attributes. The origins parameter can be specified using the following attributes:

  • Name: The name of the origin. The name can be a unique identifier for the origin. The name is included in the output lines (as the OriginName field) and in the output origins (as the Name field) and can be used to join additional information from the service outputs to the attributes of your origins.

    If the name is not specified, a unique name prefixed with "Location" is automatically generated in the output origins. An auto-generated origin name is not included in the output lines.

  • TargetDestinationCount: The maximum number of destinations to find from the origin. If a value is not specified, the value from the number_of_destinations_to_find parameter is used.
  • Cutoff: Specifies the travel time or travel distance value at which to stop searching for destinations from the origin. Any destination beyond the cutoff value will not be considered.

    The value needs to be in the units specified by the time_units parameter if the impedance attribute in your travel mode is time based or in the units specified by the distance_units parameter if the impedance attribute in your travel mode is distance based. If a value is not specified, the value from the cutoff parameter is used.

  • CurbApproach: Specifies the direction a vehicle may depart from the origin. One of the integers listed in the Coded value column in the following table must be specified as a value of this attribute. The values in the Setting column are the descriptive names for CurbApproach attribute values that you may have seen when using the ArcGIS Network Analyst extension software.

    Setting

    Coded value

    Description

    Either side of vehicle

    0

    The vehicle can depart the origin in either direction so a U-turn is allowed at the origin. This setting can be chosen if it is possible and practical for your vehicle to turn around at the origin. This decision may depend on the width of the road and the amount of traffic or whether the origin has a parking lot where vehicles can enter and turn around.

    Right side of vehicle
    Departing the origin so that it is on the right side of the vehicle is allowed.
    Left side of vehicle
    Departing the origin so that it is on the left side of the vehicle is allowed.

    Right side of vehicle

    1

    When the vehicle departs the origin, the origin must be on the right side of the vehicle. A U-turn is prohibited. This is typically used for vehicles like buses that must depart from the bus stop on the right hand side.

    Right side of vehicle
    Departing the origin so that it is on the right side of the vehicle is allowed.

    Left side of vehicle

    2

    When the vehicle departs the origin, the origin must be on the left side of the vehicle. A U-turn is prohibited. This is typically used for vehicles like buses that must depart from the bus stop on the left hand side.

    Left side of vehicle
    Departing the origin so that it is on the left side of the vehicle is allowed.

    NoteNote:

    For this service, the No U-turn (3) value functions the same as Either side of vehicle.

    The CurbApproach property is designed to work with both kinds of national driving standards: right-hand traffic (United States) and left-hand traffic (United Kingdom). First, consider an origin 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 depart the origin 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 depart from an origin and not have a lane of traffic between the vehicle and the origin, you would choose Right side of vehicle (1) in the United States but Left side of vehicle (2) in the United Kingdom.

    Right side of vehicle with right-hand traffic
    With right-hand traffic, the curb approach that leaves the vehicle closest to the origin is Right side of vehicle.
    Left side of vehicle with left-hand traffic
    With left-hand traffic, the curb approach that leaves the vehicle closest to the origin is Left side of vehicle.

Syntax for specifying origins using a JSON structure for features
{
    "spatialReference": {
        "wkid": <wkid>,
        "latestWkid": <wkid>, 
    },
    "features": [
        {
            "geometry": {
                "x": <x1>,
                "y": <y1>,
            },
            "attributes": {
                "<field1>": <value1_1>,
                "<field2>": <value1_2>
            }
        },
        {
            "geometry": {
                "x": <x2>,
                "y": <y2>,
            },
            "attributes": {
                "<field1>": <value2_1>,
                "<field2>": <value2_2>
            }
        }
    ], 
}
Syntax for specifying origins using a URL returning a JSON response
{
    "url": "<url>"
}
Example 1: Specifying origins in the default spatial reference, WGS84, using JSON structure

The origin geometries are in the default spatial reference, WGS84. Hence, the spatialReference property is not specified. The example also shows how to specify some attributes for the origins.

{
    "features": [
        {
            "geometry": {
                "y": 51.5254,
                "x": -0.1891
            },
            "attributes": {
                "Name": "Origin 1",
                "TargetDestinationCount": 50, 
                "Cutoff": 120,
                "CurbApproach": 0
            }
        },
        {
            "geometry": {
                "y": 51.5353,
                "x": -0.1744
            },
            "attributes": {
                "Name": "Origin 2",
                "TargetDestinationCount": 40,
                "Cutoff": 90,
                "CurbApproach": 0
            }
        }
    ]
}
Example 2: Specifying origins in the Web Mercator spatial reference using a JSON structure

The origin geometries are in the Web Mercator spatial reference and not in the default WGS84 spatial reference. Hence, the spatialReference property is required.

{
    "spatialReference": {
        "wkid": 102100
    },
    "features": [
        {
            "geometry": {
                "y": -5192521.476,
                "x": -2698533.989
            },
            "attributes": {
                "Name": "Origin 1"
            }
        },
        {
            "geometry": {
                "y": -5191915.261,
                "x": -2697821.094
            },
            "attributes": {
                "Name": "Origin 2"
            }
        }
    ]
}
Example 3: Specifying origins using URL

The URL makes a query for a few features from a map service. A URL querying features from a feature service can also be specified.

{
    "url": "http://sampleserver6.arcgisonline.com/arcgis/rest/services/NetworkAnalysis/SanDiego/MapServer/21/query?where=1%3D1&outFields=Name&f=json"
}

destinations

Use this parameter to specify locations that function as ending points in generating the paths from origins.

CautionCaution:

The service imposes a maximum limit of 1000 points that can be passed as destinations. If the value is exceeded, the response returns an error message.

The destinations parameter can be specified using a JSON structure that represents a set of point features. The JSON structure can include the following properties:

  • url: Specify a REST query request to any ArcGIS Server feature, map, or geoprocessing service that returns a JSON feature set. This property is optional. However, either features or url must be specified.
  • spatialReference: Specifies the spatial reference for the input point geometries. This property is not required if the coordinates are in the default spatial reference, WGS84. If the coordinates are in a different spatial reference, you need to specify the spatial reference's well-known ID (WKID). Depending on whether your input points are specified with a geographic or projected coordinate system, you can find the appropriate WKID in either the geographic coordinate system or projected coordinate system reference topic.

  • fields: Lists the fields that are part of the input features representing destinations. This property is optional if you are using the default fields only. However, it is required if your destinations include custom fields.
  • features: Specify an array of features. This property is optional. However, either the features or url property must be specified.

Each feature in the features array represents a destination and contains the following properties:

  • geometry: Specifies the destination's geometry as a point containing x and y properties.
  • attributes: Specify each attribute as a key-value pair where the key is the name of a given field, and the value is the attribute value for the corresponding field.

Attributes for destinations

When specifying the destinations, you can include additional properties for each one, such as its name, by using attributes. The destinations parameter can be specified using the following attributes:

  • Name: The name of the destination. The name can be a unique identifier for the destination. The name is included in the output lines (as the DestinationName field) and in the output destinations (as the Name field) and can be used to join additional information from the service outputs to the attributes of your destinations.

    If the name is not specified, a unique name prefixed with "Location" is automatically generated in the output destinations. An auto-generated destination name is not included in the output lines.

  • CurbApproach: Specifies the direction a vehicle may arrive at the destination. One of the integers listed in the Coded value column in the following table must be specified as a value of this attribute. The values in the Setting column are the descriptive names for CurbApproach attribute values that you may have seen when using ArcGIS Network Analyst extension software.

    Setting

    Coded value

    Description

    Either side of vehicle

    0

    The vehicle can arrive at the destination from either direction. This setting can be chosen if it is possible and practical for your vehicle to turn around at the destination. This decision may depend on the width of the road and the amount of traffic or whether the destination has a parking lot where vehicles can enter and turn around.

    Right side of vehicle
    Approaching the destination so that it is on the right side of the vehicle is allowed.
    Left side of vehicle
    Approaching the destination so that it is on the left side of the vehicle is allowed.

    Right side of vehicle

    1

    When the vehicle arrives at the destination, the destination must be on the right side of the vehicle. A U-turn is prohibited. This is typically used for vehicles like buses that must arrive at the bus stop on the right hand side.

    Right side of vehicle
    Approaching the destination so that it is on the right side of the vehicle is allowed.

    Left side of vehicle

    2

    When the vehicle arrives at the destination, the destination must be on the left side of the vehicle. A U-turn is prohibited. This is typically used for vehicles like buses that must arrive at the bus stop on the left hand side.

    Left side of vehicle
    Approaching the destination so that it is on the right side of the vehicle is allowed.

    NoteNote:

    For this service, the No U-turn (3) value functions the same as Either side of vehicle.

    The CurbApproach property is designed to work with both kinds of national driving standards: right-hand traffic (United States) and left-hand traffic (United Kingdom). First, consider a destination 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 arrive at the destination 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 the destination and not have a lane of traffic between the vehicle and the destination, you would choose Right side of vehicle (1) in the United States but Left side of vehicle (2) in the United Kingdom.

    Right side of vehicle with right-hand traffic
    With right-hand traffic, the curb approach that leaves the vehicle closest to the destination is Right side of vehicle.
    Left side of vehicle with left-hand traffic
    With left-hand traffic, the curb approach that leaves the vehicle closest to the destination is Left side of vehicle.

Syntax for specifying destinations using a JSON structure for features
{
    "spatialReference": {
        "wkid": <wkid>,
        "latestWkid": <wkid>, 
    },
    "features": [
        {
            "geometry": {
                "x": <x1>,
                "y": <y1>,
            },
            "attributes": {
                "<field1>": <value1_1>,
                "<field2>": <value1_2>
            }
        },
        {
            "geometry": {
                "x": <x2>,
                "y": <y2>,
            },
            "attributes": {
                "<field1>": <value2_1>,
                "<field2>": <value2_2>
            }
        }
    ], 
}
Syntax for specifying destinations using a URL returning a JSON response
{
    "url": "<url>"
}
Example 1: Specifying destinations in the default spatial reference, WGS84, using JSON structure

The destination geometries are in the default spatial reference, WGS84. Hence, the spatialReference property is not specified. The example also shows how to specify some attributes for the destinations.

{
    "features": [
        {
            "geometry": {
                "y": 51.5354,
                "x": -0.1991
            },
            "attributes": {
                "Name": "Destination 1",
                "CurbApproach": 0
            }
        },
        {
            "geometry": {
                "y": 51.5458,
                "x": -0.1844
            },
            "attributes": {
                "Name": "Destination 2",
                "CurbApproach": 0
            }
        }
    ]
}
Example 2: Specifying destinations in the Web Mercator spatial reference using a JSON structure

The destination geometries are in the Web Mercator spatial reference and not in the default WGS84 spatial reference. Hence, the spatialReference property is required.

{
    "spatialReference": {
        "wkid": 102100
    },
    "features": [
        {
            "geometry": {
                "y": -5182521.476,
                "x": -2688533.989
            },
            "attributes": {
                "Name": "Destination 1"
            }
        },
        {
            "geometry": {
                "y": -5201915.261,
                "x": -2717821.094
            },
            "attributes": {
                "Name": "Destination 2"
            }
        }
    ]
}
Example 3: Specifying origins using URL

The URL makes a query for a few features from a map service. A URL querying features from a feature service can also be specified.

{
    "url": "http://sampleserver6.arcgisonline.com/arcgis/rest/services/NetworkAnalysis/SanDiego/MapServer/21/query?where=1%3D1&outFields=Name&f=json"
}

token

Use this parameter to specify a token that provides the identity of a user that has the permissions to access the service. Accessing services provided by Esri provides more information on how such an access token can be obtained.

f

Use this parameter to specify the response format. Choose either json or pjson, for example, f=json. The pjson value is used for printing the JSON response in a pretty format.

Optional parameters

travel_mode

Choose the mode of transportation for the analysis.

Travel modes are managed in ArcGIS Online and can be configured by the administrator of your organization to better reflect your organization's workflows. You need to specify the JSON object containing the settings for a travel mode supported by your organization. To get a list of supported travel modes, execute the GetTravelModes tool from the Utilities service.

The value for the travel_mode parameter should be a JSON object representing travel mode settings. When you use the GetTravelModes tool from the Utlities service, You get a string representing the travel mode JSON. You need to convert this string to a valid JSON object using your API and then pass the JSON object as the value for the travel_mode parameter.

For example, below is a string representating the Walking Time travel mode as returned by the GetTravelModes tool.

"{\"attributeParameterValues\": [{\"parameterName\": \"Restriction Usage\", \"attributeName\": \"Walking\", \"value\": \"PROHIBITED\"}, {\"parameterName\": \"Restriction Usage\", \"attributeName\": \"Preferred for Pedestrians\", \"value\": \"PREFER_LOW\"}, {\"parameterName\": \"Walking Speed (km/h)\", \"attributeName\": \"WalkTime\", \"value\": 5}], \"description\": \"Follows paths and roads that allow pedestrian traffic and finds solutions that optimize travel time. The walking speed is set to 5 kilometers per hour.\", \"impedanceAttributeName\": \"WalkTime\", \"simplificationToleranceUnits\": \"esriMeters\", \"uturnAtJunctions\": \"esriNFSBAllowBacktrack\", \"restrictionAttributeNames\": [\"Preferred for Pedestrians\", \"Walking\"], \"useHierarchy\": false, \"simplificationTolerance\": 2, \"timeAttributeName\": \"WalkTime\", \"distanceAttributeName\": \"Miles\", \"type\": \"WALK\", \"id\": \"caFAgoThrvUpkFBW\", \"name\": \"Walking Time\"}"

The above value should be converted to a valid JSON object and passed as the value for the travel_mode parameter

travel_mode={"attributeParameterValues":[{"parameterName":"Restriction Usage","attributeName":"Walking","value":"PROHIBITED"},{"parameterName":"Restriction Usage","attributeName":"Preferred for Pedestrians","value":"PREFER_LOW"},{"parameterName":"Walking Speed (km/h)","attributeName":"WalkTime","value":5}],"description":"Follows paths and roads that allow pedestrian traffic and finds solutions that optimize travel time. The walking speed is set to 5 kilometers per hour.","impedanceAttributeName":"WalkTime","simplificationToleranceUnits":"esriMeters","uturnAtJunctions":"esriNFSBAllowBacktrack","restrictionAttributeNames":["Preferred for Pedestrians","Walking"],"useHierarchy":false,"simplificationTolerance":2,"timeAttributeName":"WalkTime","distanceAttributeName":"Miles","type":"WALK","id":"caFAgoThrvUpkFBW","name":"Walking Time"}

The default value,Custom, allows you to configure your own travel mode. When you pass in Custom, you can set values for the following parameters impedance, uturn_at_junctions, use_hierarchy, route_line_simplification_tolerance, restrictions, and attribute_parameter_values.

The default values of the custom travel mode parameters model travelling by car. You may want to 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 may choose to do this to try out different settings to get desired analysis results. Once you have identified the analysis settings, you should work with your organization's administrator and save these settings as part of new or existing travel mode so that everyone in your organization can rerun the analysis with the same settings.

CautionCaution:

When the travel_mode parameter is not set to Custom, this means you are choosing a travel mode configured by your organization, and the service automatically overrides the values of other parameters with values that model the chosen travel mode. The following parameters are overridden:impedance, uturn_at_junctions, use_hierarchy, route_line_simplification_tolerance, restrictions, and attribute_parameter_values.

If you set travel_mode to Custom, the service honors the default or user-defined values for the related parameters (impedance, uturn_at_junctions, use_hierarchy, route_line_simplification_tolerance, restrictions, and attribute_parameter_values) so you can create your own travel mode.

time_units

Specify the units that should be used to measure and report the total travel time between each origin-destination pair.

The choices are as follows:

  • Seconds
  • Minutes
  • Hours
  • Days

The default value is Minutes

distance_units

Specify the units that should be used to measure and report the total travel distance between each origin-destination pair.

The choices are as follows:

  • Meters
  • Kilometers
  • Feet
  • Yards
  • Miles
  • NauticalMiles

The default value is Kilometers

analysis_region

Specify the region in which to perform the analysis. 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 recommended to speed up the tool execution. To specify a region, use one of the following values:

  • Europe
  • Greece
  • India
  • Japan
  • Korea
  • MiddleEastAndAfrica
  • NorthAmerica
  • Oceania
  • SouthAmerica
  • SouthAsia
  • SouthEastAsia
  • Taiwan
  • Thailand

The data coverage page lists the countries that are grouped into each of these regions.

number_of_destinations_to_find

Specify the maximum number of destinations to find per origin. If a value for this parameter is not specified (which is the default), the output matrix includes travel costs from each origin to every destination. Individual origins can have their own values (specified as the TargetDestinationCount field) that override the number_of_destinations_to_find parameter value.

cutoff

Specify the travel time or travel distance value at which to stop searching for destinations from a given origin. Any destination beyond the cutoff value will not be considered. Individual origins can have their own values (specified as the Cutoff field) that override the cutoffparameter value.

The value needs to be in the units specified by the time_units parameter if the impedance attribute of your travel mode is time based or in the units specified by the distance_units parameter if the impedance attribute of your travel mode is distance based. If a value is not specified (which is the default), the tool will not enforce any travel time or travel distance limit when searching for destinations.

time_of_day

Specify whether travel times should consider traffic conditions. To use traffic in the analysis, choose a travel mode such as Driving Time or Rural Driving Time that supports time-based impedance attribute and assign a value to time_of_day. The time_of_day value represents the time at which travel begins from the origins. The time is specified as UNIX time (milliseconds since midnight, January 1, 1970).

If a time of day is not passed in, the service uses static road speeds based on average historical speeds or posted speed limits. It uses posted speeds in areas where historical traffic information isn't available.

NoteNote:

Traffic is supported only with the driving time impedance or travel mode. It's not supported with trucking.

The service supports two kinds of traffic: typical and live. Typical traffic references travel speeds that are composed of historical averages for each five-minute interval spanning a week. Live traffic retrieves speeds from a traffic feed that processes phone probe records, sensors, and other data sources to record actual travel speeds and predict speeds for the near future.

The Data Coverage page shows the countries Esri currently provides traffic data for.

Typical traffic

To ensure the task uses typical traffic in locations where it is available, choose a time and day of the week, and convert the day of the week to one of the following dates from 1990:

  • Monday—1/1/1990
  • Tuesday—1/2/1990
  • Wednesday—1/3/1990
  • Thursday—1/4/1990
  • Friday—1/5/1990
  • Saturday—1/6/1990
  • Sunday—1/7/1990

Set the time and date as UNIX time in milliseconds.

For example, to solve for 1:03 p.m. on Thursdays, set the time and date to 1:03 p.m., 4 January 1990; and convert to milliseconds (1388840580000).

NoteNote:

Although the dates representing days of the week are from 1990, typical traffic is calculated from recent traffic trends—usually over the last several months.

Live traffic

To use live traffic when and where it is available, choose a time and date and convert to UNIX time.

Esri saves live traffic data for 12 hours and references predictive data extending 12 hours into the future. If the time and date you specify for this parameter is outside the 24-hour time window, or the travel time in the analysis continues past the predictive data window, the task falls back to typical traffic speeds.

NoteNote:

  • The default value is null, which means the effect of changing traffic isn't included in the analysis.
  • This parameter is ignored when travel_mode is distance based or the impedance parameter is set to Travel Distance if you're using a custom travel mode.
  • The time zone for time_of_day can be coordinated universal time (UTC) or the time zone in which the origins are located. Specify time zones with the time_zone_for_time_of_day parameter.
  • All points in origins need to be in the same time zone when using traffic.

Examples:

  • "time_of_day": 631414980000 // 13:03, 4 January 1990. Typical traffic on Thursdays at 1:03 p.m.
  • "time_of_day": 631731600000 // 17:00, 7 January 1990. Typical traffic on Sundays at 5:00 p.m.
  • "time_of_day": 1413964800000 // 8:00, 22 October 2014. If the current time is between 8:00 p.m., 21 Oct. 2014 and 8:00 p.m., 22 Oct. 2014, live traffic speeds are referenced in the analysis; otherwise, typical traffic speeds are referenced.
  • "time_of_day": 1426674000000 // 10:20, 18 March 2015. If the current time is between 10:20 p.m., 17 Mar. 2015 and 10:20 p.m., 18 Mar. 2015, live traffic speeds are referenced in the analysis; otherwise, typical traffic speeds are referenced.

time_zone_for_time_of_day

Specify the time zone or zones of the time_of_day parameter. There are two options: Geographically Local (default) and UTC.

Geographically Local:

The Geographically Local value indicates the service to use the time zone in which the input origins are geographically located when applying the time_of_day value.

UTC:

The timeOfDay value refers to UTC.

The UTC value indicates the service to use UTC as the time zone when applying the time_of_day value.

NoteNote:

This parameter is ignored when travel_mode is distance based or the impedance parameter is set to Travel Distance if you're using a custom travel mode.

point_barriers

Use this parameter to specify one or more points that 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 time delay spent at a railroad crossing.

CautionCaution:

The service imposes a maximum limit of 250 point barriers. If the value is exceeded, the response returns an error message.

The point_barriers parameter can be specified using a JSON structure that represents a set of features. The JSON structure can include the following properties:

  • url: Specify a REST query request to any ArcGIS Server feature, map, or geoprocessing service that returns a JSON feature set. This property is optional. However, either features or url must be specified.
  • spatialReference: Specifies the spatial reference for the geometries of point barriers. This property is not required if the coordinate values are in the default spatial reference, WGS84. If the coordinate values are in a different spatial reference, you need to specify the well-known ID (WKID) for the spatial reference. See Geographic coordinate systems and Projected coordinate systems to look up WKID values.
  • features: Specify an array of features. This property is optional. However, either the features or url property must be specified.

Each feature in the features array represents a point barrier and contains the following properties:

  • geometry: Specifies the barrier's geometry as a point containing x and y properties.
  • attributes: Specify each attribute as a key-value pair where the key is the name of a given field, and the value is the attribute value for the corresponding field.

Attributes for point_barriers

When specifying the point_barriers parameter you can specify additional information about barriers, such as the barrier type, using attributes. The point_barriers parameter can be specified with 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:
    • 0 - Prohibits traversing through the barrier. The barrier is referred to as restriction point barrier since it acts as a restriction. This is the default value.
      Two maps demonstrate how a restriction point barrier affects finding the best route.
      The map on the left shows the shortest path between two stops without any restriction point barriers. The map on the right has a road that is blocked by a fallen tree, so the shortest path between the same points is longer.
    • 2 - Traveling through the barrier increases the travel time or distance by the amount specified as the value for Additional_Time or Additional_Distance attributes. This barrier type is referred to as an added cost point barrier.
      Two maps demonstrate how added cost barriers affect finding the best route.
      The map on the left shows the shortest path between two stops without any added cost point barrier. For the map on the right, the travel time from stop one to stop two would be the same whether going around the north end of the block or the south end; however, since crossing railroad tracks incurs a time penalty (modeled with added cost point barriers), the route with only one railroad crossing is chosen. The cost of crossing the barrier is added to the accumulated travel time of the resulting route.
      NoteNote:

      There is no point barrier type with a value of 1 for the BarrierType attribute.

  • Additional_Time: Indicates how much travel time is added when the barrier is traversed. This attribute is applicable only for added-cost barriers and only if the measurement units are time based. The attribute value must be greater than or equal to zero and is specified in the measurement units.
  • Additional_Distance: Indicates how much distance is added when the barrier is traversed. This attribute is applicable only for added-cost barriers and only if the measurement units are distance based. The attribute value must be greater than or equal to zero and is specified in the measurement units.

Syntax for specifying point_barriers using a JSON structure for features
{
    "spatialReference": {
        "wkid": <wkid>,
        "latestWkid": <wkid>, 
    },
    "features": [
        {
            "geometry": {
                "x": <x1>,
                "y": <y1>,
            },
            "attributes": {
                "<field1>": <value11>,
                "<field2>": <value12>
            }
        },
        {
            "geometry": {
                "x": <x2>,
                "y": <y2>,
            },
            "attributes": {
                "<field1>": <value21>,
                "<field2>": <value22>
            }
        }
    ], 
}
Syntax for specifying point_barriers using a URL returning a JSON response
{
    "url": "<url>"
}
Example 1: Specifying an added cost point barrier in the default spatial reference, WGS84, using JSON structure.

This example shows how to use an added cost point barrier to model a 5-minute delay at a railroad crossing. The BarrierType attribute is used to specify the point barrier is of type added cost and the Additional_Time attribute is used to specify the added delay in minutes. The barrier geometries are in the default spatial reference, WGS84. Hence, the spatialReference property is not specified.

{
    "features": [
        {
            "geometry": {
                "x": 37.541479,
                "y": -122.053461
            },
            "attributes": {
                "Name": "Haley St railroad crossing",
                "BarrrierType": 2,
                "Additional_Time": 5
            }
        }
    ]
}
Example 2: Specifying restriction point barriers in the Web Mercator spatial reference using a JSON structure.

This example shows how to use a restriction point barrier to model a road that is blocked by a fallen tree.The barrier's geometry is in the Web Mercator spatial reference and not in the default WGS84 spatial reference. Hence, the spatialReference property is required.

{
    "spatialReference": {
        "wkid": 102100
    },
    "features": [
        {
            "geometry": {
                "y": -13635398.9398,
                "x": 4544699.034400001
            },
            "attributes": {
                "Name": "Fallen tree at 123 Main St", 
                "BarrierType": 0
            }
        }
    ]
}
Example 3: Specifying point barriers using a URL.

The URL makes a query for a few features from a map service. A URL querying features from a feature service can also be specified.

{
    "url": "http://sampleserver6.arcgisonline.com/arcgis/rest/services/NetworkAnalysis/SanDiego/MapServer/21/query?where=1%3D1&outFields=Name&f=json"
}

line_barriers

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.

Two maps demonstrate how a line barrier affects finding a route between two stops.
The map on the left displays the shortest path between two stops. The map on the right shows the shortest path when several streets are blocked by a line barrier.

CautionCaution:

The service imposes a limit on the number of streets you can restrict using the line_barriers parameter. While there is no limit on number of lines you can specify as line barriers, the combined number of streets intersected by all the lines cannot exceed 500. If the value is exceeded, the response returns an error message.

The line_barriers parameter can be specified using a JSON structure that represents a set of features. The JSON structure can include the following properties:

  • url: Specify a REST query request to any ArcGIS Server feature, map, or geoprocessing service that returns a JSON feature set. This property is optional. However, either features or url must be specified.
  • spatialReference: Specifies the spatial reference for the geometries of the barriers. This property is not required if the coordinate values are in the default spatial reference, WGS84. If the coordinate values are in a different spatial reference, you need to specify the well-known ID (WKID) for the spatial reference. See Geographic coordinate systems and Projected coordinate systems to look up WKID values.
  • features: Specify an array of features. This property is optional. However, either the features or url property must be specified.

Each feature in the features array represents a line barrier and contains the following properties:

  • geometry: Specifies the barrier's geometry. The structure is based on ArcGIS REST polyline object. A polyline contains an array of paths. Each path is represented as an array of points, and each point in the path is represented as an array of numbers containing X and Y coordinate values at index 0 and 1 respectively.
  • attributes: Specify each attribute as a key-value pair where the key is the name of a given field, and the value is the attribute value for the corresponding field.

Attributes for line_barriers

The line_barriers parameter can be specified with the following attributes:

  • Name: The name of the line barrier.

Syntax for specifying line barriers using a JSON structure for features
{
    "spatialReference": {
        "wkid": <wkid>,
        "latestWkid": <wkid>, 
    },
    "features": [
        {
            "geometry": {
                "paths": [
                    [
                        [
                            <x11>,
                            <y11>
                        ],
                        [
                            <x12>,
                            <y12>
                        ]
                    ],
                    [
                        [
                            <x21>,
                            <y21>
                        ],
                        [
                            <x22>,
                            <y22>
                        ]
                    ]
                ]
            },
            "attributes": {
                "<field1>": <value11>,
                "<field2>": <value12>
            }
        },
		{
            "geometry": {
                "paths": [
                    [
                        [
                            <x11>,
                            <y11>
                        ],
                        [
                            <x12>,
                            <y12>
                        ]
                    ],
                    [
                        [
                            <x21>,
                            <y21>
                        ],
                        [
                            <x22>,
                            <y22>
                        ]
                    ]
                ]
            },
            "attributes": {
                "<field1>": <value21>,
                "<field2>": <value22>
            }
        }
    ], 
}
Syntax for specifying line barriers using a URL returning a JSON response
{
    "url": "<url>"
}
Example 1: Specifying line barriers using a JSON structure in Web Mercator spatial reference.

The example shows how to add two lines as line barriers to restrict travel on the streets intersected by the lines. Barrier 1 is a single-part line feature made up of two points. Barrier 2 is a two-part line feature whose first part is made up of three points and whose second part is made up of two points. The barrier geometries are in the Web Mercator spatial reference and not in the default WGS84 spatial reference. Hence, the spatialReference property is required.

{
    "spatialReference": {
        "wkid": 102100
    },
    "features": [
        {
            "geometry": {
                "paths": [
                    [
                        [
                            -10804823.397,
                            3873688.372
                        ],
                        [
                            -10804811.152,
                            3873025.945
                        ]
                    ]
                ]
            },
            "attributes": {
                "Name": "Barrier 1"
            }
        },
        {
            "geometry": {
                "paths": [
                    [
                        [
                            -10804823.397,
                            3873688.372
                        ],
                        [
                            -10804807.813,
                            3873290.911
                        ],
                        [
                            -10804811.152,
                            3873025.945
                        ]
                    ],
                    [
                        [
                            -10805032.678,
                            3863358.76
                        ],
                        [
                            -10805001.508,
                            3862829.281
                        ]
                    ]
                ]
            },
            "attributes": {
                "Name": "Barrier 2"
            }
        }
    ]
}
Example 2: Specifying line barriers using URL.

The URL makes a query for a few features from a map service. A URL querying features from a feature service can also be specified.

{
    "url": "http://sampleserver3.arcgisonline.com/ArcGIS/rest/services/Network/USA/MapServer/6/query?where=1%3D1&returnGeometry=true&f=json"
}

polygon_barriers

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.

CautionCaution:

The service imposes a limit on the number of streets you can restrict using the polygon_barriers parameter. While there is no limit on number of polygons you can specify as the polygon barriers, the combined number of streets intersected by all the polygons cannot exceed 2,000. If the value is exceeded, the response returns an error message.

The polygon_barriers parameter can be specified using a JSON structure that represents a set of features. The JSON structure can include the following properties:

  • url: Specify a REST query request to any ArcGIS Server feature, map, or geoprocessing service that returns a JSON feature set. This property is optional. However, either features or url must be specified.
  • spatialReference: Specifies the spatial reference for the geometries of barriers. This property is not required if the coordinate values are in the default spatial reference, WGS84. If the coordinate values are in a different spatial reference, you need to specify the well-known ID (WKID) for the spatial reference. See Geographic coordinate systems and Projected coordinate systems to look up WKID values.
  • features: Specify an array of features. This property is optional. However, either the features or url property must be specified.

Each feature in the features array represents a polygon barrier and contains the following properties:

  • geometry: Specifies the barrier's geometry. The structure is based on ArcGIS REST polygon object. A polygon contains an array of rings. The first point of each ring is always the same as the last point. Each point in the ring is represented as an array of numbers containing X and Y coordinate values at index 0 and 1 respectively.
  • attributes: Specify each attribute as a key-value pair where the key is the name of a given field, and the value is the attribute value for the corresponding field.

Attributes for polygon_barriers

When specifying the polygonBarriers parameter, you can specify additional information about barriers, such as the barrier type, using attributes. The polygon_barriers parameter can be specified with the following attributes:

  • Name: The name of the barrier.
  • BarrierType: Specifies whether the barrier restricts travel completely or scales the time or distance for traveling through it. The value for this attribute is specified as one of the following integers:
    • 0 - Prohibits traveling through any part of the barrier. The barrier is referred to as restriction polygon barrier since it prohibits traveling on streets intersected by the barrier. One use of this type of barrier is to model floods that make traveling on flooded streets impossible. This is the default value.
      Two maps demonstrate how a restriction polygon barrier affects finding a route between two stops.
      The left side depicts the shortest path between two stops. On the right, a polygon barrier blocks flooded streets, so the shortest path between the same two stops is different.
    • 1 - Scales the time or distance required to travel the underlying streets by a factor specified using the ScaledTimeFactor or ScaledDistanceFactor attributes. If the streets are partially covered by the barrier, the travel time or distance is apportioned and then scaled. For example, a factor 0.25 would mean that travel on underlying streets is expected to be four times faster than normal. A factor of 3.0 would mean it is expected to take three times longer than normal to travel on underlying streets. This barrier type is referred to as scaled cost polygon barrier. It might be used to model storms that reduce travel speeds in specific regions.
      Two maps demonstrate how a scaled cost polygon barrier affects finding a route between two stops.
      The map on the left shows a route that goes through inclement weather without regard for the effect poor road conditions have on travel time. On the right, a scaled polygon barrier doubles the travel time of the roads covered by the storm. Notice the route still passes through the southern tip of the storm since it is quicker to spend more time driving slowly through a small part of the storm rather than driving completely around it. The service uses the modified travel time in calculating the best route; furthermore, the modified travel time is reported as the total travel time in the response.
  • ScaledTimeFactor: This is the factor by which the travel time of the streets intersected by the barrier is multiplied. This attribute is applicable only to scaled-cost barriers whose measurement units are time based. The attribute value must be greater than zero. The default value is 1.
  • ScaledDistanceFactor: This is the factor by which the distance of the streets intersected by the barrier is multiplied. This attribute is applicable only to scaled-cost barriers whose measurement units are distance based. The attribute value must be greater than zero. The default value is 1.

Syntax for specifying polygon barriers using a JSON structure for features
{
    "spatialReference": {
        "wkid": <wkid>,
        "latestWkid": <wkid>    
    }
    "features": [
        {
            "geometry": {
                "rings": [
                    [
                        [
                            <x11>,
                            <y11>
                        ],
                        [
                            <x12>,
                            <y12>
                        ],
                        ...,
                        [
                            <x11>,
                            <y11>
                        ]
                    ],
                    [
                        [
                            <x21>,
                            <y21>
                        ],
                        [
                            <x22>,
                            <y22>
                        ],
                        ...,
                        [
                            <x21>,
                            <y21>
                        ]
                    ]
                ]
            },
            "attributes": {
                "<field1>": <value11>,
                "<field2>": <value12>
            }
        },
        {
            "geometry": {
                "rings": [
                    [
                        [
                            <x11>,
                            <y11>
                        ],
                        [
                            <x12>,
                            <y12>
                        ],
                        ...,
                        [
                            <x11>,
                            <y11>
                        ]
                    ],
                    [
                        [
                            <x21>,
                            <y21>
                        ],
                        [
                            <x22>,
                            <y22>
                        ],
                        ...,
                        [
                            <x21>,
                            <y21>
                        ]
                    ]
                ]
            },
            "attributes": {
                "<field1>": <value21>,
                "<field2>": <value22>
            }
        }
    ]
}
Syntax for specifying polygon barriers using a URL returning a JSON response
{
    "url": "<url>"
}
Example 1: Specifying polygon barriers using a JSON structure.

The example shows how to add two polygons as barriers. The first polygon named Flood zone is a restriction polygon barrier that prohibits travel on the underlying streets. The polygon is a single-part polygon feature made up of four points. The second polygon named Severe weather zone is a scaled-cost polygon barrier that increases the travel time on underlying streets to one third of the original value. The polygon is a two-part polygon feature. Both parts are made up of four points.

The barrier geometries are in the default spatial reference, WGS84. Hence, the spatialReference property is not required.

{
    "features": [
        {
            "geometry": {
                "rings": [
                    [
                        [
                            -97.0634,
                            32.8442
                        ],
                        [
                            -97.0554,
                            32.84
                        ],
                        [
                            -97.0558,
                            32.8327
                        ],
                        [
                            -97.0638,
                            32.83
                        ],
                        [
                            -97.0634,
                            32.8442
                        ]
                    ]
                ]
            },
            "attributes": {
                "Name": "Flood zone",
                "BarrierType": 0
            }
        },
        {
            "geometry": {
                "rings": [
                    [
                        [
                            -97.0803,
                            32.8235
                        ],
                        [
                            -97.0776,
                            32.8277
                        ],
                        [
                            -97.074,
                            32.8254
                        ],
                        [
                            -97.0767,
                            32.8227
                        ],
                        [
                            -97.0803,
                            32.8235
                        ]
                    ],
                    [
                        [
                            -97.0871,
                            32.8311
                        ],
                        [
                            -97.0831,
                            32.8292
                        ],
                        [
                            -97.0853,
                            32.8259
                        ],
                        [
                            -97.0892,
                            32.8279
                        ],
                        [
                            -97.0871,
                            32.8311
                        ]
                    ]
                ]
            },
            "attributes": {
                "Name": "Severe weather zone",
                "BarrierType": 1,
                "ScaledTimeFactor": 3
            }
        }
    ]
}
Example 2: Specifying a polygon barrier using a URL.

The URL makes a query for a few features from a map service. A URL querying features from a feature service can also be specified.

{
    "url": "http://sampleserver3.arcgisonline.com/ArcGIS/rest/services/Network/USA/MapServer/7/query?where=1%3D1&returnGeometry=true&f=json"
}

uturn_at_junctions

Use this parameter to restrict or allow the analysis to make U-turns at junctions.

CautionCaution:

The value of this parameter, regardless of whether you rely on the default or explicitly set a value, is overridden when travel_mode is set to any other value than Custom. The default value for travel_mode is Driving, so unless you set travel_mode to a different value, this parameter value will be overridden.

In order to understand the available parameter values, consider for a moment that a junction is a point where only two streets intersect each other. If three or more streets intersect at a point, it is called as an intersection. A cul-de-sac is a dead-end. The parameter can have the following values:

Parameter Value

Description

Allowed

U-turns are permitted everywhere. Allowing U-turns implies that the vehicle can turn around at a junction or intersection and double back on the same street.

U-turns are allowed
U-turns are permitted at junctions with any number of adjacent streets.

Allowed only at Intersections and Dead Ends

U-turns are prohibited at junctions where exactly two adjacent streets meet.

U-turns allowed only at intersections and dead-ends
U-turns are permitted only at intersections or dead ends.

Allowed only at Dead Ends

U-turns are prohibited at all junctions and interesections and are permitted only at dead ends.

U-turns allowed only at dead-ends
U-turns are permitted only at dead ends.

Not Allowed

U-turns are prohibited at all junctions, intersections, and dead-ends. Note that even when this parameter value is chosen, a route can still make U-turns at stops. If you wish to prohibit U-turns at a stop, you can set its CurbApproach property to the appropriate value (3).

The default value for this parameter is Allowed.

use_hierarchy

Specify whether hierarchy should be used when finding the shortest paths.

CautionCaution:

The value of this parameter, regardless of whether you rely on the default or explicitly set a value, is overridden when travel_mode is set to any other value than Custom. The default value for travel_mode is Driving, so unless you set travel_mode to a different value, this parameter value will be overridden.

  • true—Use hierarchy when measuring between points. This is the default value. When hierarchy is used, the tool prefers higher-order streets (such as freeways) to lower-order streets (such as local roads), and can be used to simulate the driver preference of traveling on freeways instead of local roads even if that means a longer trip. This is especially true when finding routes to faraway locations, because drivers on long-distance trips tend to prefer traveling on freeways where stops, intersections, and turns can be avoided. Using hierarchy is computationally faster, especially for long-distance routes, since the tool can determine the best route from a relatively smaller subset of streets.

  • false—Do not use hierarchy when measuring between stops. If hierarchy is not used, the tool considers all the streets and doesn't prefer higher-order streets when finding the route. This is often used when finding short-distance routes within a city.

CautionCaution:

The service automatically reverts to using hierarchy if the straight-line distance between the stops is greater than 50 miles (80.46 kilometers), even if you have specified to find the route without using hierarchy.

restrictions

Use this parameter to specify which restrictions should be honored by the service. A restriction represents a driving preference or requirement. In most cases, restrictions cause roads or pathways to be prohibited, but they can also cause them to be avoided or preferred. For instance, using an Avoid Toll Roads restriction will result in a route that will include toll roads only when it is absolutely required to travel on toll roads in order to visit a stop. Height Restriction makes it possible to route around any clearances that are lower than the height of your vehicle. If you are carrying corrosive materials on your vehicle, using the Any Hazmat Prohibited restriction prevents hauling the materials along roads where it is marked as illegal to do so.

CautionCaution:

The value of this parameter, regardless of whether you rely on the default or explicitly set a value, is overridden when travel_mode is set to any other value than Custom. The default value for travel_mode is Driving, so unless you set travel_mode to a different value, this parameter value will be overridden.

The service supports the restriction names listed in the following table:

NoteNote:

Some restrictions are supported only in certain countries as indicated by the Availability column in the table. A restriction is supported in a country if the Logistics Attribute column has a value of Yes in the list of supported countries. If you specify restriction names that are not available in the country where your input points are located, the service ignores the invalid restrictions and returns warning messages indicating the names for the restrictions that were not considered when making measurements.

NoteNote:

Sometimes you need to specify an additional value, the restriction attribute parameter, on a restriction to get the intended results. This value needs to be associated with the restriction name and a restriction parameter using attribute_parameter_values.

Restriction Name

Description

Availability

Any Hazmat Prohibited

The route will exclude roads where transporting any kind of hazardous material is prohibited.

Select countries in North America and Europe

Avoid Carpool Roads

The route will avoid roads designated exclusively for carpool (high-occupancy) vehicles.

All countries

Avoid Express Lanes

The route will avoid roads designated as express lanes.

All countries

Avoid Ferries

The route will avoid ferries.

All countries

Avoid Gates

The route will avoid roads where there are gates, such as keyed-access or guard-controlled entryways.

All countries

Avoid Limited Access Roads

The route will avoid roads designated as limited-access highways.

All countries

Avoid Private Roads

The route will avoid roads that are not publicly owned and maintained.

All countries

Avoid Toll Roads

The route will avoid toll roads.

All countries

Avoid Unpaved Roads

The route will avoid roads that are not paved (for example, dirt, gravel, etc.).

All countries

Avoid Truck Restricted Roads

The route will avoid roads where trucks are not allowed except when making deliveries.

All countries

Axle Count Restriction

The route 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.

Select countries in North America and Europe

Driving a Bus

The route will exclude roads where buses are prohibited. Using this restriction also ensures the route will honor one-way streets.

All countries

Driving a Delivery Vehicle

The route will exclude roads where delivery vehicles are prohibited. Using this restriction also ensures the route will honor one-way streets.

All countries

Driving a Taxi

The route will exclude roads where taxis are prohibited. Using this restriction also ensures the route will honor one-way streets.

All countries

Driving a Truck

The route will exclude roads where trucks are prohibited. Using this restriction also ensures the route will honor one-way streets.

All countries

Driving an Automobile

The route will exclude roads where automobiles are prohibited. Using this restriction also ensures the route will honor one-way streets.

All countries

Driving an Emergency Vehicle

The route will exclude roads where emergency vehicles are prohibited. Using this restriction also ensures the route will honor one-way streets.

All countries

Height Restriction

The route will exclude 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.

Select countries in North America and Europe

Kingpin to Rear Axle Length Restriction

The route will exclude roads where the vehicle kingpin-to-rear-axle length exceeds the maximum allowed for the road. The vehicle's length between the vehicle kingpin and the rear axle can be specified using the Vehicle Kingpin to Rear Axle Length (meters) restriction parameter.

Select countries in North America and Europe

Length Restriction

The route will exclude 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.

Select countries in North America and Europe

Preferred for Pedestrians

The route prefers paths designated for pedestrians.

All countries

Riding a Motorcycle

The route will exclude roads where motorcycles are prohibited. Using this restriction also ensures the route will honor one-way streets.

All countries

Roads Under Construction Prohibited

The route will exclude roads that are under construction.

All countries

Semi or Tractor with One or More Trailers Prohibited

The route will exclude roads where semis or tractors with one or more trailers are prohibited.

Select countries in North America and Europe

Single Axle Vehicles Prohibited

The route will exclude roads where vehicles with single axles are prohibited.

Select countries in North America and Europe

Tandem Axle Vehicles Prohibited

The route will exclude roads where vehicles with tandem axles are prohibited.

Select countries in North America and Europe

Through Traffic Prohibited

The route will exclude roads where through traffic (non-local) is prohibited.

All countries

Truck with Trailers Restriction

The route will exclude 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.

Select countries in North America and Europe

Use Preferred Hazmat Routes

The route will prefer roads designated for transporting any kind of hazardous materials.

Select countries in North America and Europe

Use Preferred Truck Routes

The route will prefer roads 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 or roads in an area that are generally more suitable for trucks.

Select countries in North America and Europe

Walking

The route will exclude roads where pedestrians are prohibited.

All countries

Weight Restriction

The route will exclude 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.

Select countries in North America and Europe

Weight per Axle Restriction

The route will exclude roads where the vehicle's weight per axle exceeds the maximum allowed for the road. The vehicle's weight per axle can be specified using the Vehicle Weight per Axle (kilograms) restriction parameter.

Select countries in North America and Europe

Width Restriction

The route will roads where the vehicle width exceeds the maximum allowed for the road. The vehicle width can be specified using the Vehicle Width(meters) restriction parameter.

Select countries in North America and Europe

LegacyLegacy:

Driving a Delivery Vehicle restriction attribute is deprecated and will be unavailable in future releases. To achieve similar results, use Driving a Truck restriction attribute along with Avoid Truck Restricted Roads restriction attribute.

The restrictions parameter value is specified as an array of restriction names. The default value for this parameter is restrictions=[Avoid Carpool Roads, Avoid Express Lanes, Avoid Gates, Avoid Private Roads, Avoid Unpaved Roads, Driving an Truck, Use Preferred Truck Routes, Roads Under Construction Prohibited, Through Traffic Prohibited]. A value of null indicates that no restrictions should be used when finding the best route, but only when travel_mode is set to Custom.

Example: restrictions=[Driving an Emergency Vehicle,Height Restriction,Length Restriction]

attribute_parameter_values

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.

CautionCaution:

The value of this parameter, regardless of whether you rely on its default or explicitly set a value, is overridden when travel_mode is set to any other value than Custom. The default value for travel_mode is Custom.

The attributes_parameter_values parameter can be specified using a JSON structure that represents a set of features. The JSON structure can include the following properties:

  • url: Specify a REST query request to any ArcGIS Server feature, map, or geoprocessing service that returns a JSON feature set. This property is optional. However, either features or url must be specified.
  • features: Specify an array of features. This property is optional. However, either the features or url property must be specified.

Each feature in the features array represents an attribute parameter and contains the following properties:

  • attributes: Specify each attribute as a key-value pair where the key is the name of a given field, and the value is the attribute value for the corresponding field.
NoteNote:

The JSON structure for the attribute_parameter_values parameter does not have a geometry property.

Attributes for attribute_parameter_values

The attribute_parameter_values parameter can be specified with the following attributes:

  • AttributeName: Lists the name of the restriction.
  • ParameterName: Lists the name of the parameter associated with the restriction. A restriction can have one or more ParameterName values based on its intended use, which implies you may need multiple attribute_parameter_values parameters for a single attribute name.
  • ParameterValue: The value for the ParameterName that is used by the service when evaluating the restriction.

NoteNote:

In most cases, the attribute_parameter_values parameter is dependent on the restrictions parameter. The ParameterValue specified as part of attribute_parameter_values is applicable only if the restriction name is specified as the value for the restrictions parameter.

When specifying the attribute_parameter_values parameter, each restriction (listed as AttributeName) has a ParameterName value, Restriction Usage, that specifies whether the restriction prohibits, avoids, or prefers travel on the roads associated with the restriction and 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 within the parentheses:

  • PROHIBITED (-1)—Travel on the roads using the restriction is completely prohibited.
  • AVOID_HIGH (5)—It is very unlikely for the service to include, in the results, roads that are associated with the restriction.
  • AVOID_MEDIUM (2)—It is unlikely for the service to include, in the results, roads that are associated with the restriction.
  • AVOID_LOW (1.3)—It is somewhat unlikely for the service to include, in the results, roads that are associated with the restriction.
  • PREFER_LOW (0.8)—It is somewhat likely for the service to include, in the results, results roads that are associated with the restriction.
  • PREFER_MEDIUM(0.5)—It is likely for the service to include, in the results, roads that are associated with the restriction.
  • PREFER_HIGH (0.2)—It is very likely for the service to include, in the results, roads that are associated with the restriction.

In most cases, you can use the default value, PROHIBITED, for Restriction Usage if the restriction is dependent on a physical vehicle characteristic, such as vehicle height. However, in some cases, the value for Restriction Usage depends on your travel preferences. For example, the Avoid Toll Roads restriction has the default value of AVOID_MEDIUM for the Restriction Usage parameter. This means that when the restriction is used, the service will try to 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 would put lower importance on avoiding tolls; choosing AVOID_HIGH instead would give it a higher importance and thus make it more acceptable for the service to generate longer routes to avoid tolls. Choosing PROHIBITED would entirely disallow 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 thus 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, you would choose PREFER_LOW, PREFER_MEDIUM, or PREFER_HIGH as the value for Restriction Usage. The higher the preference, the farther the service will go out of its way to travel on the roads associated with the restriction.

The following table lists the restriction names and the default restriction parameter values for all the restrictions. The default value for the attribute_parameter_values parameter is the JSON structure containing all the rows from the table.

TipTip:

If you want to use the default value for any restriction, AttributeName, ParameterName, and ParameterValue do not have to be specified as part of the attribute_parameter_values parameter.

AttributeName

ParameterName

ParameterValue

Any Hazmat Prohibited

Restriction Usage

PROHIBITED

Avoid Carpool Roads

Restriction Usage

AVOID_HIGH

Avoid Express Lanes

Restriction Usage

AVOID_HIGH

Avoid Ferries

Restriction Usage

AVOID_MEDIUM

Avoid Gates

Restriction Usage

AVOID_MEDIUM

Avoid Limited Access Roads

Restriction Usage

AVOID_MEDIUM

Avoid Private Roads

Restriction Usage

AVOID_MEDIUM

Avoid Toll Roads

Restriction Usage

AVOID_MEDIUM

Avoid Truck Restricted Roads

Restriction Usage

AVOID_HIGH

Axle Count Restriction

Number of Axles

0

Restriction Usage

PROHIBITED

Driving a Bus

Restriction Usage

PROHIBITED

Driving a Delivery Vehicle

Restriction Usage

PROHIBITED

Driving a Taxi

Restriction Usage

PROHIBITED

Driving a Truck

Restriction Usage

PROHIBITED

Driving an Automobile

Restriction Usage

PROHIBITED

Driving an Emergency Vehicle

Restriction Usage

PROHIBITED

Height Restriction

Restriction Usage

PROHIBITED

Vehicle Height (meters)

0

Kingpin to Rear Axle Length Restriction

Restriction Usage

PROHIBITED

Vehicle Kingpin to Rear Axle Length (meters)

0

Length Restriction

Restriction Usage

PROHIBITED

Vehicle Length (meters)

0

Riding a Motorcycle

Restriction Usage

PROHIBITED

Roads Under Construction Prohibited

Restriction Usage

PROHIBITED

Semi or Tractor with One or More Trailers Prohibited

Restriction Usage

PROHIBITED

Single Axle Vehicles Prohibited

Restriction Usage

PROHIBITED

Tandem Axle Vehicles Prohibited

Restriction Usage

PROHIBITED

Through Traffic Prohibited

Restriction Usage

AVOID_HIGH

Truck with Trailers Restriction

Restriction Usage

PROHIBITED

Number of Trailers on Truck

0

Use Preferred Hazmat Routes

Restriction Usage

PREFER_MEDIUM

Use Preferred Truck Routes

Restriction Usage

PREFER_HIGH

Walking

Restriction Usage

PROHIBITED

WalkTime

Walking Speed (km/h)

5

Weight Restriction

Restriction Usage

PROHIBITED

Vehicle Weight (kilograms)

0

Weight per Axle Restriction

Restriction Usage

PROHIBITED

Vehicle Weight per Axle (kilograms)

0

Width Restriction

Restriction Usage

PROHIBITED

Vehicle Width (meters)

0

Syntax for specifying attribute_parameter_values
{
    "features": [
        {
            "attributes": {
                "<field1>": <value11>,
                "<field2>": <value12>,
                "<field3>": <value13>

            }
        },
        {
            "attributes": {
                "<field1>": <value21>,
                "<field2>": <value22>,
                "<field3>": <value13>
            }
        }
    ] 
}
Example: Specifying the vehicle height and weight and a high preference to use designated truck routes

This example shows how to specify the height and weight of the vehicle for use with the height and weight restrictions respectively along with a high preference to include designated truck routes. This results in a route that does not include any roads where the clearance under overpasses or through tunnels is less than the vehicle height. The results will also not include any roads with load limited bridges or local roads that prohibit heavy vehicles if the vehicle weight exceeds the maximum permissible weight. However, the route will include as many roads as possible that are designated as preferred truck routes.

Note that the Restriction Usage ParameterName for the Height Restriction and the Weight Restriction restrictions are not specified since we want to use the default value of PROHIBITED for these restriction parameters.

attribute_parameter_values=
{
    "features": [
        {
            "attributes": {
                "AttributeName": "Height Restriction",
                "ParameterName": "Vehicle Height (meters)",
                "ParameterValue": 4.12
            }
        },
        {
            "attributes": {
                "AttributeName": "Weight Restriction",
                "ParameterName": "Vehicle Weight (kilograms)",
                "ParameterValue": 36287
            }
        },
        {
            "attributes": {
                "AttributeName": "Use Preferred Truck Routes",
                "ParameterName": "Restriction Usage",
                "ParameterValue": "PREFER_HIGH"
            }
        }
    ]
}

impedance

Specify the impedance.

origin_destination_line_shape

Specify the shape of line feature connecting each origin-destination pair in the output matrix. The resulting lines of an OD cost matrix can be represented with either straight-line geometry or no geometry at all. In both cases, the route is always computed along the street network by minimizing the travel time or the travel distance, never using the straight-line distance between origins and destinations.

The parameter accepts one of the following values:

  • Straight Line: Straight lines connect origins and destinations.
  • None: Do not return any shapes for the lines that connect origins and destinations. This is useful when you have a large number of origins and destinations and are interested only in the OD cost matrix table (and not the output line shapes).

The default value is None.

env:outSR

Specify the spatial reference of the geometries, such as the output origins and destinations or the lines in the output matrix returned by the service.

The parameter value can be specified as a well-known ID (WKID) for the spatial reference. If env:outSR is not specified, the geometries are returned in the default spatial reference, WGS84. See Geographic coordinate systems and Projected coordinate systems to look up WKID values.

save_output_network_analysis_layer

Use this parameter to specify if the service should save the analysis settings as a network analysis layer file. You cannot directly work with this file even when you open the file in an ArcGIS Desktop application like ArcMap. It is meant to be sent to Esri Technical Support in order to diagnose the quality of results returned from the service.

  • true—Saves network analysis layer file. The file can be downloaded from the URL provided as part of the output_network_analysis_layer parameter.

  • false—Don't save network analysis layer file. This is the default value.

overrides

Specify additional settings that can influence the behavior of the solver when finding solutions for the network analysis problems.

The value for this parameter needs to be specified in JavaScript Object Notation (JSON). The values can be either a number, Boolean, or a string.

{
"overrideSetting1" : "value1", 
"overrideSetting2" : "value2"
}

The default value for this parameter is no value, which indicates not to override any solver settings.

Overrides are advanced settings that should be used only after careful analysis of the results obtained before and after applying the settings. A list of supported override settings for each solver and their acceptable values can be obtained by contacting Esri Technical Support.

JSON response

When you submit a request, the service assigns a unique job ID to the transaction. The job ID and the status of the job are returned in the response.

JSON response syntax from the request
{
    "jobId": <jobID>,
    "jobStatus": <jobStatus>
}

The jobStatus property can have the following values:

You can use the job ID to periodically check the status of the job and messages. Additionally, if the job has successfully completed, you can use the job ID to retrieve the results or even the inputs. The job information and results remain available for 24 hours after the job is done.

After the initial request is submitted, you can make a request of the following form to get the status of the job:

https://logistics.arcgis.com/arcgis/rest/services/World/OriginDestinationCostMatrix/GPServer/GenerateOriginDestinationCostMatrix/jobs/<yourJobID>/?token=<yourToken>&returnMessages=true&f=json
JSON response syntax during job execution
{
    "jobId": "<jobId>",
    "jobStatus": "<jobStatus>",
    "messages": [
        {
            "type": "<type1>",
            "description": "<description1>"
        },
        {
            "type": "<type2>",
            "description": "<description2>"
        }
    ]
}

While a job is executing, you can cancel it by making a request of the following form:

http://logistics.arcgis.com/arcgis/rest/services/World/OriginDestinationCostMatrix/GPServer/GenerateOriginDestinationCostMatrix/jobs/<jobID>/cancel?token=<yourToken>&f=json

NoteNote:

When you submit your request, if the service is busy processing other requests, the job will wait in the queue. The job status will be reported as esriJobSubmitted. If your application cannot wait for the entire duration while the job is in the queue, you can cancel the request and submit it at a later time. A canceled request will not incur any service credits. However, if your application did not cancel the request, it will eventually execute and will incur service credits irrespective of whether your application retrieved the results or ignored them. Therefore, your application should always cancel the request if required.

After the successful completion of the job, you can make a request of the following form to retrieve the outputs. Refer to the Output parameters section for more information on how to interpret the solution provided by the service.

https://logistics.arcgis.com/arcgis/rest/services/World/OriginDestinationCostMatrix/GPServer/GenerateOriginDestinationCostMatrix/jobs/<jobID>/results/<output_parameter_name>?token=<yourToken>&f=pjson

You can also retrieve the value for any input parameter by making the requests of the following form:

http://logistics.arcgis.com/arcgis/rest/services/World/OriginDestinationCostMatrix/GPServer/GenerateOriginDestinationCostMatrix/jobs/<jobID>/inputs/<input_parameter_name>?token=<yourToken>f=pjson

Output parameters

After successfully executing, the service returns the lines connecting each origin-destination pair, the output origins, the output destinations, and the status of whether the analysis was successful. This information is output in the following output parameters:

output_origin_destination_lines

Access the information about the resulting routes from the origins to the destinations. The routes include data about the total travel time and the travel distance between a given origin-destination pair. The line geometries connect an origin-destination pair using a straight line if the origin_destination_line_shape parameter was specified as Straight Line and are returned in the spatial reference specified as the env:outSR parameter.

The following provides a description of the fields that are returned for each route:

  • OBJECTID—A unique identifier for the line connecting each origin-destination pair. This identifier is automatically generated by the service.
  • DestinationRank —The rank of the destination among all destinations found for the associated origin. The destination that is closest to the origin has a rank of 1.
  • Total_Time—The travel time along the street network between the associated origin and destination. The value is in the units specified by the time_units parameter.
  • Total_Distance— The travel distance along the street network between the associated origin and destination. The value is in the units specified by the distance_units parameter.
  • OriginOID—The object ID value of the corresponding input origin feature. This can be used to join additional attributes between the input origins and the origin destination lines.
  • OriginName—The name of the corresponding input origin feature. This field is included only if the Name field is specified on input origins and at least one of the origins have a valid name. If the name is not specified for some of the origins, an auto-generated name beginning with "Location" is created for those origins.
  • DestinationOID—The object ID value of the corresponding input destination feature. This can be used to join additional attributes between the input destinations and the origin destination lines.
  • DestinationName—The name of the corresponding input destination feature. This field is included only if the Name field is specified on input destinations and at least one of the destinations have a valid name. If the name is not specified for some of the destinations, an auto-generated name beginning with "Location" is created for those destinations.
  • Shape_Length—The length of the route in the units of the spatial reference specified for the analysis. By default, the length is reported in decimal degrees if the env:outSR parameter is not specified.

output_origins

Access the origins that participated in the analysis. It provides information about origins that could not be included in the analysis as well the total number of destinations that could be reached from a given origin. The origin geometries are returned in the spatial reference specified as the env:outSR parameter.

The following list describes the attributes of the output origins:

  • OBJECTID—A unique identifier for the origin. This identifier is automatically generated by the service.
  • Name—The name of the origin. If the name of the origin was specified as part of the Name field, this field has the same value. Otherwise, it includes an auto-generated value beginning with "Location".

  • TargetDestinationCount—The value of the TargetDestinationCount field in the corresponding input origins.

  • CurbApproach—The value of the CurbApproach field in the corresponding input origins.

  • Status—Indicates how the corresponding input origin was evaluated in the analysis. The possible values are the following:

    • 0 (OK)—The origin was successfully located on the transportation network and analyzed.
    • 1 (Not Located)—A traversable road wasn't within 12.42 miles (20 kilometers) of the origin and therefore was excluded from the analysis.
    • 4 (Invalid Field Values)—Field values fall outside a range or coded-value domain.
    • 5 (Not Reached)—The origin could not find routes to any destinations due to constraints; for example, a curb approach is set so that a vehicle must travel in the wrong direction on a one-way street to reach the destination or no destinations are within the specified travel time or travel distance based cutoff.

  • Cutoff—The value of the Cutoff field in the corresponding input origins.

  • OriginOID—The object ID value of the corresponding input origin feature. This can be used to join additional attributes from the input origins.

  • DestinationCount—A count of destinations that were reached from the origin.

output_destinations

Access the destinations that participated in the analysis. It provides information about destinations that could not be included in the analysis as well as the total number of origins that were able to reach a given destination. The destination geometries are returned in the spatial reference specified as the env:outSR parameter.

The following list describes the attributes of the output destinations:

  • OBJECTID—A unique identifier for the destination. This identifier is automatically generated by the service.
  • Name—The name of the destination. If the name of the destination was specified as part of the Name field, this field has the same value. Otherwise, it includes an auto-generated value beginning with "Location".

  • CurbApproach—The value of the CurbApproach field in the corresponding input destinations.

  • Status—Indicates how the corresponding input destination was evaluated in the analysis. The possible values are the following:

    • 0 (OK)—The destination was successfully located on the transportation network and analyzed.
    • 1 (Not Located)—A traversable road wasn't within 12.42 miles (20 kilometers) of the destination and therefore was excluded from the analysis.
    • 4 (Invalid Field Values)—Field values fall outside a range or coded-value domain.
    • 5 (Not Reached)—No routes were found that can reach the destination due to constraints; for example, a curb approach is set so that a vehicle must travel in the wrong direction on a one-way street to reach the destination or the destination is outside the specified travel time or travel distance based cutoff from every origin.

  • DestinationOID—The object ID value of the corresponding input destination feature. This can be used to join additional attributes from the input destinations.

  • OriginCount—A count of origins that were able to reach the destination.

solve_succeeded

Determine if the service was able to successfully generate the OD cost matrix. The error messages for any failure can be obtained by making a request to get the status of the job.

The solve_succeeded parameter is returned as a JSON feature set with following syntax:

{
    "paramName": "Solve_Succeeded",
    "dataType": "GPBoolean",
    "value": <true | false>
}

The following shows an example of the solve_succeeded parameter:

{
    "paramName": "Solve_Succeeded",
    "dataType": "GPBoolean",
    "value": true
}

Usage limits

The table below lists the limits that apply to this service.

Limit Description

Limit Value

Maximum number of origins

1000

Maximum number of destinations

1000

Maximum number of (point) barriers

250

Maximum number of street features intersected by polyline barriers

500

Maximum number of street features intersected by polygon barriers

2,000

Force hierarchy beyond a straight-line distance of

(If the straight-line distance between any facility and demand point is greater than the limit shown here, the analysis uses hierarchy, even if useHierarchy is set to false.)

50 miles (80.46 kilometers)

Maximum snap tolerance

(If the distance between an input point and its nearest traversable street is greater than the distance specified here, the point is excluded from the analysis.)

12.42 miles (20 kilometers)

Maximum time a client can use the asynchronous service

1 hour (3,600 seconds)

Examples

NoteNote:

If you copy and paste the request URL from the examples into a web browser, you will get an invalid token error message. You need to replace <yourToken> with a valid token. See Accessing services provided by Esri to see how to generate one.

Generate a travel cost matrix

In this example, you will generate an origin destination cost matrix between two origins and two destinations. The resulting origin destination cost matrix will have four features.

The origins and destinations are in the default spatial reference, WGS84, so the spatialReference property is not required.

Request URL to submit the job

The first request submits a job and returns the job ID.

https://logistics.arcgis.com/arcgis/rest/services/World/OriginDestinationCostMatrix/GPServer/GenerateOriginDestinationCostMatrix/submitJob?origins={"features":[{"geometry":{"y":51.5254,"x":-0.1891},"attributes":{"Name":"Origin 1","TargetDestinationCount":2,"Cutoff":120,"CurbApproach":0}},{"geometry":{"y":51.5353,"x":-0.1744},"attributes":{"Name":"Origin 2","TargetDestinationCount":3,"Cutoff":90,"CurbApproach":0}}]}&demand_points={"features":[{"geometry":{"y":51.5354,"x":-0.1991},"attributes":{"Name":"Destination 1","CurbApproach":0}},{"geometry":{"y":51.5458,"x":-0.1844},"attributes":{"Name":"Destination 2","CurbApproach":0}}]}&token=<yourToken>&f=pjson

JSON response

{
    "jobId": "j5943d41e8b2c4de7a0aaca3283655a33",
    "jobStatus": "esriJobSubmitted"
}

Request URL to query job status

The job ID obtained from the response of the first request can be queried periodically to determine the status of the job.

https://logistics.arcgis.com/arcgis/rest/services/World/OriginDestinationCostMatrix/GPServer/GenerateOriginDestinationCostMatrix/jobs/<jobID>/?token=<yourToken>&returnMessages=true&f=pjson

JSON response

{
 "jobId": "j5943d41e8b2c4de7a0aaca3283655a33",
 "jobStatus": "esriJobSucceeded",
 "results": {
  "Solve_Succeeded": {
   "paramUrl": "results/Solve_Succeeded"
  },
  "Output_Origin_Destination_Lines": {
   "paramUrl": "results/Output_Origin_Destination_Lines"
  },
  "Output_Origins": {
   "paramUrl": "results/Output_Origins"
  },
  "Output_Destinations": {
   "paramUrl": "results/Output_Destinations"
  }
 },
 "inputs": {
  "Origins": {
   "paramUrl": "inputs/Origins"
  },
  "Destinations": {
   "paramUrl": "inputs/Destinations"
  },
  "Travel_Mode": {
   "paramUrl": "inputs/Travel_Mode"
  },
  "Time_Units": {
   "paramUrl": "inputs/Time_Units"
  },
  "Distance_Units": {
   "paramUrl": "inputs/Distance_Units"
  },
  "Analysis_Region": {
   "paramUrl": "inputs/Analysis_Region"
  },
  "Number_of_Destinations_to_Find": {
   "paramUrl": "inputs/Number_of_Destinations_to_Find"
  },
  "Cutoff": {
   "paramUrl": "inputs/Cutoff"
  },
  "Time_of_Day": {
   "paramUrl": "inputs/Time_of_Day"
  },
  "Time_Zone_for_Time_of_Day": {
   "paramUrl": "inputs/Time_Zone_for_Time_of_Day"
  },
  "Point_Barriers": {
   "paramUrl": "inputs/Point_Barriers"
  },
  "Line_Barriers": {
   "paramUrl": "inputs/Line_Barriers"
  },
  "Polygon_Barriers": {
   "paramUrl": "inputs/Polygon_Barriers"
  },
  "UTurn_at_Junctions": {
   "paramUrl": "inputs/UTurn_at_Junctions"
  },
  "Use_Hierarchy": {
   "paramUrl": "inputs/Use_Hierarchy"
  },
  "Restrictions": {
   "paramUrl": "inputs/Restrictions"
  },
  "Attribute_Parameter_Values": {
   "paramUrl": "inputs/Attribute_Parameter_Values"
  },
  "Impedance": {
   "paramUrl": "inputs/Impedance"
  },
  "Origin_Destination_Line_Shape": {
   "paramUrl": "inputs/Origin_Destination_Line_Shape"
  }
 },
 "messages": [
  
 ]
}

Request URL to return the output origin destination lines

Because the job succeeded, the travel time and travel distance between every origin-destination pair can be obtained using the output_origin_destination_lines output parameter. Since you did not specify any value for the origin_destination_line_shape parameter, the default value, None, was used by the service for this parameter. Hence the features array in the output response does not have the geometry property.

https://logistics.arcgis.com/arcgis/rest/services/World/OriginDestinationCostMatrix/GPServer/GenerateOriginDestinationCostMatrix/jobs/<jobID>/results/output_origin_destination_lines?token=<yourToken>&f=pjson

{
 "paramName": "Output_Origin_Destination_Lines",
 "dataType": "GPFeatureRecordSetLayer",
 "value": {
  "displayFieldName": "",
  "geometryType": "esriGeometryPolyline",
  "spatialReference": {
   "wkid": 4326,
   "latestWkid": 4326
  },
  "fields": [
   {
    "name": "OBJECTID",
    "type": "esriFieldTypeOID",
    "alias": "OBJECTID"
   },
   {
    "name": "DestinationRank",
    "type": "esriFieldTypeInteger",
    "alias": "Destination Rank"
   },
   {
    "name": "Total_Time",
    "type": "esriFieldTypeDouble",
    "alias": "Total Time (Minutes)"
   },
   {
    "name": "Total_Distance",
    "type": "esriFieldTypeDouble",
    "alias": "Total Distance (Kilometers)"
   },
   {
    "name": "OriginName",
    "type": "esriFieldTypeString",
    "alias": "Origin Name",
    "length": 128
   },
   {
    "name": "OriginOID",
    "type": "esriFieldTypeInteger",
    "alias": "Origin OID"
   },
   {
    "name": "DestinationName",
    "type": "esriFieldTypeString",
    "alias": "Destination Name",
    "length": 128
   },
   {
    "name": "DestinationOID",
    "type": "esriFieldTypeInteger",
    "alias": "Destination OID"
   },
   {
    "name": "Shape_Length",
    "type": "esriFieldTypeDouble",
    "alias": "Shape_Length"
   }
  ],
  "features": [
   {
    "attributes": {
     "OBJECTID": 1,
     "DestinationRank": 1,
     "Total_Time": 6.2279130881726257,
     "Total_Distance": 2.4774838708418678,
     "OriginName": "Origin 1",
     "OriginOID": 1,
     "DestinationName": "Destination 1",
     "DestinationOID": 1,
     "Shape_Length": 0
    }
   },
   {
    "attributes": {
     "OBJECTID": 2,
     "DestinationRank": 2,
     "Total_Time": 9.0778785641163715,
     "Total_Distance": 3.723118842219868,
     "OriginName": "Origin 1",
     "OriginOID": 1,
     "DestinationName": "Destination 2",
     "DestinationOID": 2,
     "Shape_Length": 0
    }
   },
   {
    "attributes": {
     "OBJECTID": 3,
     "DestinationRank": 1,
     "Total_Time": 4.6095379183132064,
     "Total_Distance": 1.9294457981067437,
     "OriginName": "Origin 2",
     "OriginOID": 2,
     "DestinationName": "Destination 2",
     "DestinationOID": 2,
     "Shape_Length": 0
    }
   },
   {
    "attributes": {
     "OBJECTID": 4,
     "DestinationRank": 2,
     "Total_Time": 6.0035312672863181,
     "Total_Distance": 2.3148191217414382,
     "OriginName": "Origin 2",
     "OriginOID": 2,
     "DestinationName": "Destination 1",
     "DestinationOID": 1,
     "Shape_Length": 0
    }
   }
  ],
  "exceededTransferLimit": false
 }
}

Request URL to return the output origins

The output origins can be obtained using the output_origins output parameter.

https://logistics.arcgis.com/arcgis/rest/services/World/OriginDestinationCostMatrix/GPServer/GenerateOriginDestinationCostMatrix/jobs/<jobID>/results/output_origins?token=<yourToken>&f=pjson

{
 "paramName": "Output_Origins",
 "dataType": "GPFeatureRecordSetLayer",
 "value": {
  "displayFieldName": "",
  "geometryType": "esriGeometryPoint",
  "spatialReference": {
   "wkid": 4326,
   "latestWkid": 4326
  },
  "fields": [
   {
    "name": "OBJECTID",
    "type": "esriFieldTypeOID",
    "alias": "OBJECTID"
   },
   {
    "name": "Name",
    "type": "esriFieldTypeString",
    "alias": "Name",
    "length": 128
   },
   {
    "name": "TargetDestinationCount",
    "type": "esriFieldTypeInteger",
    "alias": "Target Destination Count"
   },
   {
    "name": "CurbApproach",
    "type": "esriFieldTypeInteger",
    "alias": "Curb Approach"
   },
   {
    "name": "Status",
    "type": "esriFieldTypeInteger",
    "alias": "Status"
   },
   {
    "name": "Cutoff",
    "type": "esriFieldTypeDouble",
    "alias": "Cutoff"
   },
   {
    "name": "OriginOID",
    "type": "esriFieldTypeInteger",
    "alias": "Origin OID"
   },
   {
    "name": "DestinationCount",
    "type": "esriFieldTypeInteger",
    "alias": "Destination Count"
   }
  ],
  "features": [
   {
    "attributes": {
     "OBJECTID": 1,
     "Name": "Origin 1",
     "TargetDestinationCount": 2,
     "CurbApproach": 0,
     "Status": 0,
     "Cutoff": 120,
     "OriginOID": 1,
     "DestinationCount": 2
    },
    "geometry": {
     "x": -0.18909999999993943,
     "y": 51.525400000000047
    }
   },
   {
    "attributes": {
     "OBJECTID": 2,
     "Name": "Origin 2",
     "TargetDestinationCount": 2,
     "CurbApproach": 0,
     "Status": 0,
     "Cutoff": 90,
     "OriginOID": 2,
     "DestinationCount": 2
    },
    "geometry": {
     "x": -0.17439999999993461,
     "y": 51.535300000000063
    }
   }
  ],
  "exceededTransferLimit": false
 }
}

Request URL to return the output destinations

The output destinations can be obtained using the output_destinations output parameter.

https://logistics.arcgis.com/arcgis/rest/services/World/OriginDestinationCostMatrix/GPServer/GenerateOriginDestinationCostMatrix/jobs/<jobID>/results/output_destinations?token=<yourToken>&f=pjson

{
 "paramName": "Output_Destinations",
 "dataType": "GPFeatureRecordSetLayer",
 "value": {
  "displayFieldName": "",
  "geometryType": "esriGeometryPoint",
  "spatialReference": {
   "wkid": 4326,
   "latestWkid": 4326
  },
  "fields": [
   {
    "name": "OBJECTID",
    "type": "esriFieldTypeOID",
    "alias": "OBJECTID"
   },
   {
    "name": "Name",
    "type": "esriFieldTypeString",
    "alias": "Name",
    "length": 128
   },
   {
    "name": "CurbApproach",
    "type": "esriFieldTypeInteger",
    "alias": "Curb Approach"
   },
   {
    "name": "Status",
    "type": "esriFieldTypeInteger",
    "alias": "Status"
   },
   {
    "name": "DestinationOID",
    "type": "esriFieldTypeInteger",
    "alias": "Destination OID"
   },
   {
    "name": "OriginCount",
    "type": "esriFieldTypeInteger",
    "alias": "Origin Count"
   }
  ],
  "features": [
   {
    "attributes": {
     "OBJECTID": 1,
     "Name": "Destination 1",
     "CurbApproach": 0,
     "Status": 0,
     "DestinationOID": 1,
     "OriginCount": 2
    },
    "geometry": {
     "x": -0.19909999999993033,
     "y": 51.535400000000038
    }
   },
   {
    "attributes": {
     "OBJECTID": 2,
     "Name": "Destination 2",
     "CurbApproach": 0,
     "Status": 0,
     "DestinationOID": 2,
     "OriginCount": 2
    },
    "geometry": {
     "x": -0.18439999999992551,
     "y": 51.545800000000042
    }
   }
  ],
  "exceededTransferLimit": false
 }
}
7/27/2017