Display Name: SolveLocationAllocation

Description: The SolveLocationAllocation tool chooses the best location or locations from a set of input locations. Input to this tool includes facilities, which provide goods or services, and demand points, which consume the goods and services. The objective is to find the facilities that supply the demand points most efficiently. The tool solves this problem by analyzing various ways the demand points can be assigned to the different facilities. The solution is the scenario that allocates the most demand to facilities and minimizes overall travel. The output includes the solution facilities, demand points associated with their assigned facilities, and lines connecting demand points to their facilities. The location-allocation tool can be configured to solve specific problem types. Examples include the following: A retail store wants to see which potential store locations would need to be developed to capture 10 percent of the retail market in the area. A fire department wants to determine where it should locate fire stations to reach 90 percent of the community within a four-minute response time. A police department wants to preposition personnel given past criminal activity at night. After a storm, a disaster response agency wants to find the best locations to set up triage facilities, with limited patient capacities, to tend to the affected population.

Category:

Help URL: https://sampleserver6.arcgisonline.com/arcgis/rest/directories/arcgisoutput/NetworkAnalysis/SanDiego_GPServer/NetworkAnalysis_SanDiego/SolveLocationAllocation.htm

Execution Type: esriExecutionTypeAsynchronous

Parameters:

Parameter: Facilities

Data Type: GPFeatureRecordSetLayer
Display Name Facilities
Description: Specify one or more facilities (up to 1,000). The tool chooses the best locations from the set of facilities you specify here. In a competitive analysis, in which you try to find the best locations in the face of competition, the facilities of the competitors are specified here as well. When defining the facilities, you can set properties for each one, such as the facility name or type, by using attributes. Facilities can be specified with the following fields: Name—The name of the facility. The name is included in the name of output allocation lines if the facility is part of the solution. FacilityType—Specifies whether the facility is a candidate, required, or competitor facility. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses):0 (Candidate)—A facility that may be part of the solution.1 (Required)—A facility that must be part of the solution.2 (Competitor)—A rival facility that potentially removes demand from your facilities. Competitor facilities are specific to the Maximize Market Share and Target Market Share problem types; they are ignored in other problem types. Weight—The relative weighting of the facility, which is used to rate the attractiveness, desirability, or bias of one facility compared to another. For example, a value of 2.0 could capture the preference of customers who prefer, at a ratio of 2 to 1, shopping in one facility over another facility. Factors that potentially affect facility weight include square footage, neighborhood, and age of the building. Weight values other than one are only honored by the maximize market share and target market share problem types; they are ignored in other problem types. Capacity—The Capacity field is specific to the Maximize Capacitated Coverage problem type; the other problem types ignore this field. Capacity specifies how much weighted demand the facility is capable of supplying. Excess demand won't be allocated to a facility even if that demand is within the facility's default measurement cutoff. Any value assigned to the Capacity field overrides the Default Capacity parameter (Default_Capacity in Python) for the given facility. CurbApproach—Specifies the direction a vehicle may arrive at or depart from the facility. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses): 0 (Either side of vehicle)—The facility can be visited from either the right or left side of the vehicle. 1 (Right side of vehicle)—Arrive at or depart the facility so that it is on the right side of the vehicle. This is typically used for vehicles such as buses that must arrive with the bus stop on the right-hand side so that passengers can disembark at the curb. 2 (Left side of vehicle)—Arrive at or depart the facility so that it is on the left side of the vehicle. When the vehicle approaches and departs the facility, the curb must be on the left side of the vehicle. This is typically used for vehicles such as buses that must arrive with the bus stop on the left-hand side so that passengers can disembark at the curb. 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 facility on the left side of a vehicle. It is always on the left side regardless of whether the vehicle travels on the left or right half of the road. What may change with national driving standards is your decision to approach a facility from one of two directions, that is, so it ends up on the right or left side of the vehicle. For example, if you want to arrive at a facility and not have a lane of traffic between the vehicle and the incident, you would choose Right side of vehicle (1) in the United States but Left side of vehicle (2) in the United Kingdom.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value:
Geometry Type: esriGeometryPoint
HasZ: false
HasM: false
Spatial Reference: 4326  (4326)

Fields:
• OBJECTID ( type: esriFieldTypeOID, alias: OBJECTID )
• Name ( type: esriFieldTypeString, alias: Name, length: 500 )
• FacilityType ( type: esriFieldTypeSmallInteger, alias: FacilityType )
• Weight ( type: esriFieldTypeDouble, alias: Weight )
• Capacity ( type: esriFieldTypeDouble, alias: Capacity )
• CurbApproach ( type: esriFieldTypeSmallInteger, alias: Curb Approach )
Features: None.



Parameter Type: esriGPParameterTypeRequired
Category:


Parameter: Demand_Points

Data Type: GPFeatureRecordSetLayer
Display Name Demand Points
Description: Specify one or more demand points (up to 10,000). The tool chooses the best facilities based in large part on how they serve the demand points specified here. When defining the demand points, you can set properties for each one, such as the demand-point name or weight, by using attributes. Demand points can be specified with the following fields: Name—The name of the demand point. The name is included in the name of an output allocation line or lines if the demand point is part of the solution. GroupName—The name of the group the demand point is part of. This property is ignored for the maximize capacitated coverage, target market share, and maximize market share problem types. If demand points share a group name, the solver allocates all members of the group to the same facility. (If constraints, such as a cutoff distance, prevent any of the demand points in the group from reaching the same facility, none of the demand points are allocated.) Weight—The relative weighting of the demand point. A value of 2.0 means the demand point is twice as important as one with a weight of 1.0. If demand points represent households, weight could indicate the number of people in each household. Cutoff_Time—The demand point can't be allocated to a facility that is beyond the travel time indicated here. This field value overrides the value of the Default Measurement Cutoff parameter. The units for this attribute value are specified by the Measurement Units parameter. The attribute value is referenced during the analysis only when the measurement units are time based. The default value is null, which means there isn't an override cutoff. Cutoff_Distance—The demand point can't be allocated to a facility that is beyond the travel distance indicated here. This field value overrides the value of the Default Measurement Cutoff parameter. The units for this attribute value are specified by the Measurement Units parameter. The attribute value is referenced during the analysis only when the measurement units are distance based. The default value is null, which means there isn't an override cutoff. CurbApproach—Specifies the direction a vehicle may arrive at or depart from the demand point. The field value is specified as one of the following integers (use the numeric code, not the name in parentheses): 0 (Either side of vehicle)—The demand point can be visited from either the right or left side of the vehicle. 1 (Right side of vehicle)—Arrive at or depart the demand point so that it is on the right side of the vehicle. This is typically used for vehicles such as buses that must arrive with the bus stop on the right-hand side so that passengers can disembark at the curb. 2 (Left side of vehicle)—Arrive at or depart the demand point so that it is on the left side of the vehicle. When the vehicle approaches and departs the demand point, the curb must be on the left side of the vehicle. This is typically used for vehicles such as buses that must arrive with the bus stop on the left-hand side so that passengers can disembark at the curb. 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 demand point on the left side of a vehicle. It is always on the left side regardless of whether the vehicle travels on the left or right half of the road. What may change with national driving standards is your decision to approach a demand point from one of two directions, that is, so it ends up on the right or left side of the vehicle. For example, if you want to arrive at a demand point and not have a lane of traffic between the vehicle and the demand point, you would choose Right side of vehicle (1) in the United States but Left side of vehicle (2) in the United Kingdom.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value:
Geometry Type: esriGeometryPoint
HasZ: false
HasM: false
Spatial Reference: 4326  (4326)

Fields:
• OBJECTID ( type: esriFieldTypeOID, alias: OBJECTID )
• Name ( type: esriFieldTypeString, alias: Name, length: 500 )
• GroupName ( type: esriFieldTypeString, alias: Group Name, length: 500 )
• Weight ( type: esriFieldTypeDouble, alias: Weight )
• TimeCutoff ( type: esriFieldTypeDouble, alias: Time Cutoff )
• DistanceCutoff ( type: esriFieldTypeDouble, alias: Distance Cutoff )
• CurbApproach ( type: esriFieldTypeSmallInteger, alias: Curb Approach )
Features: None.



Parameter Type: esriGPParameterTypeRequired
Category:


Parameter: Measurement_Units

Data Type: GPString
Display Name Measurement Units
Description: Specify the units that should be used to measure the travel times or travel distances between demand points and facilities. The tool chooses the best facilities based on which ones can reach, or be reached by, the most amount of weighted demand with the least amount travel. The output allocation lines report travel distance or travel time in different units, including the units you specify for this parameter. The choices are Meters Kilometers Feet Yards Miles NauticalMiles Seconds Minutes Hours Days
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: Minutes
Parameter Type: esriGPParameterTypeRequired
Category:
Choice List: [ Meters, Kilometers, Feet, Yards, Miles, NauticalMiles, Seconds, Minutes, Hours, Days ]

Parameter: Analysis_Region

Data Type: GPString
Display Name Analysis Region
Description: 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: EuropeGreece India JapanKorea MiddleEastAndAfrica NorthAmerica Oceania SouthAmerica SouthEastAsiaTaiwanThailand
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value:
Parameter Type: esriGPParameterTypeOptional
Category: Advanced Analysis
Choice List: [ Streets_ND ]

Parameter: Problem_Type

Data Type: GPString
Display Name Problem Type
Description: Specifies the objective of the location-allocation analysis. The default objective is to minimize impedance. Minimize Impedance: This is also known as the P-Median problem type. Facilities are located such that the sum of all weighted travel time or distance between demand points and solution facilities is minimized. (Weighted travel is the amount of demand allocated to a facility multiplied by the travel distance or time to the facility.) This problem type is traditionally used to locate warehouses, because it can reduce the overall transportation costs of delivering goods to outlets. Since Minimize Impedance reduces the overall distance the public needs to travel to reach the chosen facilities, the minimize impedance problem without an impedance cutoff is ordinarily regarded as more equitable than other problem types for locating some public-sector facilities such as libraries, regional airports, museums, department of motor vehicles offices, and health clinics. The following list describes how the minimize impedance problem type handles demand:A demand point that cannot reach any facilities, due to setting a cutoff distance or time, is not allocated.A demand point that can only reach one facility has all its demand weight allocated to that facility.A demand point that can reach two or more facilities has all its demand weight allocated to the nearest facility only. Maximize Coverage: Facilities are located such that as much demand as possible is allocated to solution facilities within the impedance cutoff. Maximize Coverage is frequently used to locate fire stations, police stations, and ERS centers, because emergency services are often required to arrive at all demand points within a specified response time. Note that it is important for all organizations, and critical for emergency services, to have accurate and precise data so that analysis results correctly model real-world results. Pizza delivery businesses, as opposed to eat-in pizzerias, try to locate stores where they can cover the most people within a certain drive time. People who order pizzas for delivery don't typically worry about how far away the pizzeria is; they are mainly concerned with the pizza arriving within an advertised time window. Therefore, a pizza-delivery business would subtract pizza-preparation time from their advertised delivery time and solve a maximize coverage problem to choose the candidate facility that would capture the most potential customers in the coverage area. (Potential customers of eat-in pizzerias are more affected by distance, since they need to travel to the restaurant; thus, the attendance maximizing or market share problem types would better suit eat-in restaurants.) The following list describes how the Maximize Coverage problem handles demand:A demand point that cannot reach any facilities due to cutoff distance or time is not allocated.A demand point that can only reach one facility has all its demand weight allocated to that facility.A demand point that can reach two or more facilities has all its demand weight allocated to the nearest facility only. Maximize Capacitated Coverage: Facilities are located such that all or the greatest amount of demand can be served without exceeding the capacity of any facility. Maximize Capacitated Coverage behaves like either the Minimize Impedance or Maximize Coverage problem type but with the added constraint of capacity. You can specify a capacity for an individual facility by assigning a numeric value to its corresponding Capacity field on the input facilities. If the Capacity field value is null, the facility is assigned a capacity from the Default Capacity property. Use-cases for Maximize Capacitated Coverage include creating territories that encompass a given number of people or businesses, locating hospitals or other medical facilities with a limited number of beds or patients who can be treated, or locating warehouses whose inventory isn't assumed to be unlimited. The following list describes how the Maximize Capacitated Coverage problem handles demand:Unlike Maximize Coverage, Maximize Capacitated Coverage doesn't require a value for the Default Measurement Cutoff; however, when an cutoff is specified, any demand point outside the cutoff time or distance of all facilities is not allocated.An allocated demand point has all or none of its demand weight assigned to a facility; that is, demand isn't apportioned with this problem type.If the total demand that can reach a facility is greater than the capacity of the facility, only the demand points that maximize total captured demand and minimize total weighted travel are allocated. You may notice an apparent inefficiency when a demand point is allocated to a facility that isn't the nearest solution facility. This may occur when demand points have varying weights and when the demand point in question can reach more than one facility. This kind of result indicates the nearest solution facility didn't have adequate capacity for the weighted demand, or the most efficient solution for the entire problem required one or more local inefficiencies. In either case, the solution is correct. Minimize Facilities: Facilities are chosen such that as much weighted demand as possible are allocated to solution facilities within the travel time or distance cutoff; additionally, the number of facilities required to cover demand is minimized. Minimize Facilities is the same as Maximize Coverage but with the exception of the number of facilities to locate, which in this case is determined by the solver. When the cost of building facilities is not a limiting factor, the same kinds of organizations that use Maximize Coverage (emergency response, for instance) use Minimize Facilities so that all possible demand points will be covered. The following list describes how the Minimize Facilities problem handles demand:A demand point that cannot reach any facilities due to a cutoff distance or time is not allocated.A demand point that can only reach one facility has all its demand weight allocated to that facility.A demand point that can reach two or more facilities has all its demand weight allocated to the nearest facility only. Maximize Attendance: Facilities are chosen such that as much demand weight as possible is allocated to facilities while assuming the demand weight decreases in relation to the distance between the facility and the demand point. Specialty stores that have little or no competition benefit from this problem type, but it may also be beneficial to general retailers and restaurants that don't have the data on competitors necessary to perform market share problem types. Some businesses that might benefit from this problem type include coffee shops, fitness centers, dental and medical offices, and electronics stores. Public transit bus stops are often chosen with the help of Maximize Attendance. Maximize Attendance assumes that the farther people have to travel to reach your facility, the less likely they are to use it. This is reflected in how the amount of demand allocated to facilities diminishes with distance. The following list describes how the Maximize Attendance problem handles demand:A demand point that cannot reach any facilities due to a cutoff distance or time is not allocated.When a demand point can reach a facility, its demand weight is only partially allocated to the facility. The amount allocated decreases as a function of the maximum cutoff distance (or time) and the travel distance (or time) between the facility and the demand point.The weight of a demand point that can reach more than one facility is proportionately allocated to the nearest facility only. Maximize Market Share: A specific number of facilities are chosen such that the allocated demand is maximized in the presence of competitors. The goal is to capture as much of the total market share as possible with a given number of facilities, which you specify. The total market share is the sum of all demand weight for valid demand points. The market share problem types require the most data because, along with knowing your own facilities' weight, you also need to know that of your competitors' facilities. The same types of facilities that use the Maximize Attendance problem type can also use market share problem types given that they have comprehensive information that includes competitor data. Large discount stores typically use Maximize Market Share to locate a finite set of new stores. The market share problem types use a Huff model, which is also known as a gravity model or spatial interaction. The following list describes how the Maximize Market Share problem handles demand:A demand point that cannot reach any facilities due to a cutoff distance or time is not allocated.A demand point that can only reach one facility has all its demand weight allocated to that facility.A demand point that can reach two or more facilities has all its demand weight allocated to them; furthermore, the weight is split among the facilities proportionally to the facilities' attractiveness (facility weight) and inversely proportional to the distance between the facility and demand point. Given equal facility weights, this means more demand weight is assigned to near facilities than far facilities. The total market share, which can be used to calculate the captured market share, is the sum of the weight of all valid demand points. Target Market Share: Target Market Share chooses the minimum number of facilities necessary to capture a specific percentage of the total market share in the presence of competitors. The total market share is the sum of all demand weight for valid demand points. You set the percent of the market share you want to reach and let the solver choose the fewest number of facilities necessary to meet that threshold. The market share problem types require the most data because, along with knowing your own facilities' weight, you also need to know that of your competitors' facilities. The same types of facilities that use the Maximize Attendance problem type can also use market share problem types given that they have comprehensive information that includes competitor data. Large discount stores typically use the Target Market Share problem type when they want to know how much expansion would be required to reach a certain level of the market share or see what strategy would be needed just to maintain their current market share given the introduction of new competing facilities. The results often represent what stores would like to do if budgets weren't a concern. In other cases where budget is a concern, stores revert to the Maximize Market Share problem and simply capture as much of the market share as possible with a limited number of facilities. The following list describes how the target market share problem handles demand:The total market share, which is used in calculating the captured market share, is the sum of the weight of all valid demand points.A demand point that cannot reach any facilities due to a cutoff distance or time is not allocated.A demand point that can only reach one facility has all its demand weight allocated to that facility.A demand point that can reach two or more facilities has all its demand weight allocated to them; furthermore, the weight is split among the facilities proportionally to the facilities' attractiveness (facility weight) and inversely proportional to the distance between the facility and demand point. Given equal facility weights, this means more demand weight is assigned to near facilities than far facilities.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: Minimize Impedance
Parameter Type: esriGPParameterTypeOptional
Category: Location-Allocation Problem Settings
Choice List: [ Maximize Attendance, Maximize Capacitated Coverage, Maximize Coverage, Maximize Market Share, Minimize Facilities, Minimize Impedance, Target Market Share ]

Parameter: Number_of_Facilities_to_Find

Data Type: GPLong
Display Name Number of Facilities to Find
Description: Specify the number of facilities the solver should choose. The default value is 1. The facilities with a FacilityType field value of 1 (Required) are always chosen first. Any excess facilities to choose are picked from candidate facilities, which have a FacilityType field value of 2. Any facilities that have a FacilityType value of 3 (Chosen) before solving are treated as candidate facilities at solve time. If the number of facilities to find is less than the number of required facilities, an error occurs. Number of Facilities to Find is disabled for the Minimize Facilities and Target Market Share problem types since the solver determines the minimum number of facilities needed to meet the objectives.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: 1
Parameter Type: esriGPParameterTypeOptional
Category: Location-Allocation Problem Settings


Parameter: Default_Measurement_Cutoff

Data Type: GPDouble
Display Name Default Measurement Cutoff
Description: Specifies the maximum travel time or distance allowed between a demand point and the facility it is allocated to. If a demand point is outside the cutoff of a facility, it cannot be allocated to that facility. The default value is none, which means the cutoff limit doesn't apply. The units for this parameter are the same as those specified by the Measurement Units parameter. The travel time or distance cutoff is measured by the shortest path along roads. This property might be used to model the maximum distance that people are willing to travel to visit stores or the maximum time that is permitted for a fire department to reach anyone in the community. Note that demand points have Cutoff_Time and Cutoff_Distance fields, which, if set accordingly, overrides the Default Measurement Cutoff parameter. You might find that people in rural areas are willing to travel up to 10 miles to reach a facility while urbanites are only willing to travel up to two miles. Assuming Measurement Units is set to Miles, you can model this behavior by setting the default measurement cutoff to 10 and the Cutoff_Distance field value of the demand points in urban areas to 2.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value:
Parameter Type: esriGPParameterTypeOptional
Category: Location-Allocation Problem Settings


Parameter: Default_Capacity

Data Type: GPDouble
Display Name Default Capacity
Description: This property is specific to the Maximize Capacitated Coverage problem type. It is the default capacity assigned to all facilities in the analysis. You can override the default capacity for a facility by specifying a value in the facility's Capacity field. The default value is 1.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: 1
Parameter Type: esriGPParameterTypeOptional
Category: Location-Allocation Problem Settings


Parameter: Target_Market_Share

Data Type: GPDouble
Display Name Target Market Share
Description: This parameter is specific to the Target Market Share problem type. It is the percentage of the total demand weight that you want the chosen and required facilities to capture. The solver chooses the minimum number of facilities needed to capture the target market share specified here. The default value is 10 percent.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: 10
Parameter Type: esriGPParameterTypeOptional
Category: Location-Allocation Problem Settings


Parameter: Measurement_Transformation_Model

Data Type: GPString
Display Name Measurement Transformation Model
Description: This sets the equation for transforming the network cost between facilities and demand points. This property, coupled with the Impedance Parameter, specifies how severely the network impedance between facilities and demand points influences the solver's choice of facilities. In the following list of transformation options, d refers to demand points and f, facilities. "Impedance" refers to the shortest travel distance or time between two locations. So impedancedf is the shortest-path (time or distance) between demand point d and facility f, and costdf is the transformed travel time or distance between the facility and demand point. Lambda (λ) denotes the impedance parameter. The Measurement Units setting determines whether travel time or distance is analyzed. Linear: costdf = λ * impedancedf The transformed travel time or distance between the facility and the demand point is the same as the time or distance of the shortest path between the two locations. With this option, the impedance parameter (λ) is always set to one. This is the default. Power: costdf = impedancedfλ The transformed travel time or distance between the facility and the demand point is equal to the time or distance of the shortest path raised to the power specified by the impedance parameter (λ). Use the Power option with a positive impedance parameter to specify higher weight to nearby facilities. Exponential: costdf = e(λ * impedancedf) The transformed travel time or distance between the facility and the demand point is equal to the mathematical constant e raised to the power specified by the shortest-path network impedance multiplied with the impedance parameter (λ). Use the Exponential option with a positive impedance parameter to specify a high weight to nearby facilities.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: Linear
Parameter Type: esriGPParameterTypeOptional
Category: Location-Allocation Problem Settings
Choice List: [ Linear, Power, Exponential ]

Parameter: Measurement_Transformation_Factor

Data Type: GPDouble
Display Name Measurement Transformation Factor
Description: Provides a parameter value to the equations specified in the Measurement Transformation Model parameter. The parameter value is ignored when the impedance transformation is of type linear. For power and exponential impedance transformations, the value should be nonzero. The default value is 1.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: 1
Parameter Type: esriGPParameterTypeOptional
Category: Location-Allocation Problem Settings


Parameter: Travel_Direction

Data Type: GPString
Display Name Travel Direction
Description: Specify whether to measure travel times or distances from facilities to demand points or from demand points to facilities. The default value is to measure from facilities to demand points. Facility to Demand: Direction of travel is from facilities to demand points. This is the default. Demand to Facility: Direction of travel is from demand points to facilities. Travel times and distances may change based on direction of travel. If going from point A to point B, you may encounter less traffic or have a shorter path, due to one-way streets and turn restrictions, than if you were traveling in the opposite direction. For instance, going from point A to point B may only take 10 minutes, but going the other direction may take 15 minutes. These differing measurements may affect whether demand points can be assigned to certain facilities because of cutoffs or, in problem types where demand is apportioned, affect how much demand is captured. Fire departments commonly measure from facilities to demand points since they are concerned with the time it takes to travel from the fire station to the location of the emergency. A retail store is more concerned with the time it takes shoppers to reach the store; therefore, stores commonly measure from demand points to facilities. Travel Direction also determines the meaning of any start time that is provided. See the Time of Day parameter for more information.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: Facility to Demand
Parameter Type: esriGPParameterTypeOptional
Category: Advanced Analysis
Choice List: [ Demand to Facility, Facility to Demand ]

Parameter: Time_of_Day

Data Type: GPDate
Display Name Time of Day
Description: Specify the time at which travel begins. This property is ignored unless Measurement Units are time based. The default is no time or date. When Time of Day isn't specified, the solver uses generic speeds—typically those from posted speed limits. Traffic constantly changes in reality, and as it changes, travel times between facilities and demand points also fluctuate. Therefore, indicating different time and date values over several analyses may affect how demand is allocated to facilities and which facilities are chosen in the results. The time of day always indicates a start time. However, travel may start from facilities or demand points; it depends on what you choose for the Travel Direction parameter. The Time Zone for Time of Day parameter specifies whether this time and date refer to UTC or the time zone in which the facility or demand point is located.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value:
Parameter Type: esriGPParameterTypeOptional
Category: Advanced Analysis


Parameter: Time_Zone_for_Time_of_Day

Data Type: GPString
Display Name Time Zone for Time of Day
Description: Specifies the time zone of the Time of Day parameter. The default is geographically local. Geographically Local: The Time of Day parameter refers to the time zone in which the facilities or demand points are located. If Travel Direction is facilities to demand points, this is the time zone of the facilities. If Travel Direction is demand points to facilities, this is the time zone of the demand points. UTC: The Time of Day parameter refers to Coordinated Universal Time (UTC). Choose this option if you want to choose the best location for a specific time, such as now, but aren't certain in which time zone the facilities or demand points will be located. Irrespective of the Time Zone for Time of Day setting, the following rules are enforced by the tool if your facilities and demand points are in multiple time zones:All facilities must be in the same time zone when specifying a time of day and travel is from facility to demand.All demand points must be in the same time zone when specifying a time of day and travel is from demand to facility.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: Geographically Local
Parameter Type: esriGPParameterTypeOptional
Category: Advanced Analysis
Choice List: [ Geographically Local, UTC ]

Parameter: UTurn_at_Junctions

Data Type: GPString
Display Name UTurn at Junctions
Description: The U-Turn policy at junctions. Allowing U-turns implies the solver can turn around at a junction and double back on the same street. Given that junctions represent street intersections and dead ends, different vehicles may be able to turn around at some junctions but not at others—it depends on whether the junction represents an intersection or dead end. To accommodate, the U-turn policy parameter is implicitly specified by how many edges, or streets, connect to the junction, which is known as junction valency. The acceptable values for this parameter are listed below; each is followed by a description of its meaning in terms of junction valency. Allowed: U-turns are permitted at junctions with any number of connected edges, or streets. This is the default value. Not Allowed: U-turns are prohibited at all junctions, regardless of junction valency. Allowed only at Dead Ends: U-turns are prohibited at all junctions, except those that have only one adjacent edge (a dead end). Allowed only at Intersections and Dead Ends: U-turns are prohibited at junctions where exactly two adjacent edges meet but are permitted at intersections (junctions with three or more adjacent edges) and dead ends (junctions with exactly one adjacent edge). Oftentimes, networks modeling streets have extraneous junctions in the middle of road segments. This option prevents vehicles from making U-turns at these locations. This parameter is ignored unless Travel Mode is set to Custom.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: Allowed Only at Intersections and Dead Ends
Parameter Type: esriGPParameterTypeOptional
Category: Custom Travel Mode
Choice List: [ Allowed, Not Allowed, Allowed Only at Dead Ends, Allowed Only at Intersections and Dead Ends ]

Parameter: Point_Barriers

Data Type: GPFeatureRecordSetLayer
Display Name Point Barriers
Description: Specify one or more points to 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. The tool imposes a limit of 250 points that can be added as barriers. When specifying the point barriers, you can set properties for each one, such as its name or barrier type, by using attributes. The point barriers 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 (use the numeric code, not the name in parentheses): 0 (Restriction)—Prohibits travel through the barrier. The barrier is referred to as a restriction point barrier since it acts as a restriction. 2 (Added Cost)—Traveling through the barrier increases the travel time or distance by the amount specified in the Additional_Time or Additional_Distance field. This barrier type is referred to as an added-cost point barrier. Additional_Time: Indicates how much travel time is added when the barrier is traversed. This field is applicable only for added-cost barriers and only if the measurement units are time based. This field value must be greater than or equal to zero, and its units are the same as those specified in the Measurement Units parameter. Additional_Distance: Indicates how much distance is added when the barrier is traversed. This field is applicable only for added-cost barriers and only if the measurement units are distance based. The field value must be greater than or equal to zero, and its units are the same as those specified in the Measurement Units parameter.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value:
Geometry Type: esriGeometryPoint
HasZ: false
HasM: false
Spatial Reference: 4326  (4326)

Fields:
• OBJECTID ( type: esriFieldTypeOID, alias: OBJECTID )
• Name ( type: esriFieldTypeString, alias: Name, length: 500 )
• BarrierType ( type: esriFieldTypeInteger, alias: Barrier Type )
• Additional_Time ( type: esriFieldTypeDouble, alias: Additional Time )
• Additional_Distance ( type: esriFieldTypeDouble, alias: Additional Distance )
• CurbApproach ( type: esriFieldTypeSmallInteger, alias: CurbApproach )
Features: None.



Parameter Type: esriGPParameterTypeOptional
Category: Barriers


Parameter: Line_Barriers

Data Type: GPFeatureRecordSetLayer
Display Name Line Barriers
Description: Specify one or more lines that prohibit travel anywhere the lines intersect the streets. For example, a parade or protest that blocks traffic across several street segments can be modeled with a line barrier. A line barrier can also quickly fence off several roads from being traversed, thereby channeling possible routes away from undesirable parts of the street network. The tool imposes a limit on the number of streets you can restrict using the Line Barriers parameter. While there is no limit on the number of lines you can specify as line barriers, the combined number of streets intersected by all the lines cannot exceed 500. When specifying the line barriers, you can set a name property for each one by using the following attribute: Name: The name of the barrier.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value:
Geometry Type: esriGeometryPolyline
HasZ: false
HasM: false
Spatial Reference: 4326  (4326)

Fields:
• OBJECTID ( type: esriFieldTypeOID, alias: OBJECTID )
• Name ( type: esriFieldTypeString, alias: Name, length: 500 )
• SHAPE_Length ( type: esriFieldTypeDouble, alias: SHAPE_Length )
Features: None.



Parameter Type: esriGPParameterTypeOptional
Category: Barriers


Parameter: Polygon_Barriers

Data Type: GPFeatureRecordSetLayer
Display Name Polygon Barriers
Description: Specify polygons that either completely restrict travel or proportionately scale the time or distance required to travel on the streets intersected by the polygons. The service imposes a limit on the number of streets you can restrict using the Polygon Barriers parameter. While there is no limit on the number of polygons you can specify as the polygon barriers, the combined number of streets intersected by all the polygons should not exceed 2,000. When specifying the polygon barriers, you can set properties for each one, such as its name or barrier type, by using attributes. The polygon barriers 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 field value is specified as one of the following integers (use the numeric code, not the name in parentheses): 0 (Restriction)—Prohibits traveling through any part of the barrier. The barrier is referred to as a restriction polygon barrier since it prohibits traveling on streets intersected by the barrier. One use of this type of barrier is to model floods covering areas of the street that make traveling on those streets impossible. 1 (Scaled Cost)—Scales the time or distance required to travel the underlying streets by a factor specified using the ScaledTimeFactor or ScaledDistanceFactor field. If the streets are partially covered by the barrier, the travel time or distance is apportioned and then scaled. For example, a factor 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 a scaled-cost polygon barrier. It might be used to model storms that reduce travel speeds in specific regions. ScaledTimeFactor: This is the factor by which the travel time of the streets intersected by the barrier is multiplied. This field is applicable only for scaled-cost barriers and only if the measurement units are time based. The field value must be greater than zero. ScaledDistanceFactor: This is the factor by which the distance of the streets intersected by the barrier is multiplied. This attribute is applicable only for scaled-cost barriers and only if the measurement units are distance based. The attribute value must be greater than zero.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value:
Geometry Type: esriGeometryPolygon
HasZ: false
HasM: false
Spatial Reference: 4326  (4326)

Fields:
• OBJECTID ( type: esriFieldTypeOID, alias: OBJECTID )
• Name ( type: esriFieldTypeString, alias: Name, length: 500 )
• BarrierType ( type: esriFieldTypeInteger, alias: Barrier Type )
• ScaledTimeFactor ( type: esriFieldTypeDouble, alias: Scaled Time Factor )
• ScaledDistanceFactor ( type: esriFieldTypeDouble, alias: Scaled Distance Factor )
• SHAPE_Length ( type: esriFieldTypeDouble, alias: SHAPE_Length )
• SHAPE_Area ( type: esriFieldTypeDouble, alias: SHAPE_Area )
Features: None.



Parameter Type: esriGPParameterTypeOptional
Category: Barriers


Parameter: Use_Hierarchy

Data Type: GPBoolean
Display Name Use Hierarchy
Description: Specify whether hierarchy should be used when finding the shortest path between the facilities and demand points. Checked (True): Use hierarchy when measuring between facilities and demand points. 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. Unchecked (False): Do not use hierarchy when measuring between facilities and demand points. 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. The tool automatically reverts to using hierarchy if the straight-line distance between facilities and demand points is greater than 50 miles, even if you have set this parameter to not use hierarchy.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: true
Parameter Type: esriGPParameterTypeOptional
Category: Custom Travel Mode


Parameter: Restrictions

Data Type: GPMultiValue:GPString
Display Name Restrictions
Description: Specify which restrictions should be honored by the tool when finding the best routes between facilities and demand points. A restriction represents a driving preference or requirement. In most cases, restrictions cause roads to be prohibited. 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 an incident or a facility. 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. Below is a list of available restrictions and a short description. Some restrictions require an additional value to be specified for their desired use. This value needs to be associated with the restriction name and a specific parameter intended to work with the restriction. You can identify such restrictions if their names appear under the AttributeName column in the Attribute Parameter Values parameter. The ParameterValue field should be specified in the Attribute Parameter Values parameter for the restriction to be correctly used when finding traversable roads. Some restrictions are supported only in certain countries; their availability is stated by region in the list below. Of the restrictions that have limited availability within a region, you can check whether the restriction is available in a particular country by looking at the table in the Country List section of the Data coverage for network analysis services web page. If a country has a value of Yes in the Logistics Attribute column, the restriction with select availability in the region is supported in that country. If you specify restriction names that are not available in the country where your incidents are located, the service ignores the invalid restrictions. The service also ignores restrictions whose Restriction Usage parameter value is between 0 and 1 (see the Attribute Parameter Value parameter). It prohibits all restrictions whose Restriction Usage parameter value is greater than 0. The tool supports the following restrictions:Any Hazmat Prohibited—The results will not include roads where transporting any kind of hazardous material is prohibited. Availability: Select countries in North America and EuropeAvoid Carpool Roads—The results will avoid roads that are designated exclusively for carpool (high-occupancy) vehicles. Availability: All countriesAvoid Express Lanes—The results will avoid roads designated as express lanes. Availability: All countriesAvoid Ferries—The results will avoid ferries. Availability: All countriesAvoid Gates—The results will avoid roads where there are gates such as keyed access or guard-controlled entryways.Availability: All countriesAvoid Limited Access Roads—The results will avoid roads that are limited access highways.Availability: All countriesAvoid Private Roads—The results will avoid roads that are not publicly owned and maintained.Availability: All countriesAvoid Toll Roads—The results will avoid toll roads.Availability: All countriesAvoid Truck Restricted Roads—The results will avoid roads where trucks are not allowed, except when making deliveries.Availability: All countries Avoid Unpaved Roads—The results will avoid roads that are not paved (for example, dirt, gravel, and so on). Availability: All countriesAxle Count Restriction—The results will not include roads where trucks with the specified number of axles are prohibited. The number of axles can be specified using the Number of Axles restriction parameter.Availability: Select countries in North America and EuropeDriving a Bus—The results will not include roads where buses are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countriesDriving a Delivery Vehicle—The results will not include roads where delivery vehicles are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countriesDriving a Taxi—The results will not include roads where taxis are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countriesDriving a Truck—The results will not include roads where trucks are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countriesDriving an Automobile—The results will not include roads where automobiles are prohibited. Using this restriction will also ensure that the results will honor one-way streets. Availability: All countriesDriving an Emergency Vehicle—The results will not include roads where emergency vehicles are prohibited. Using this restriction will also ensure that the results will honor one-way streets.Availability: All countriesHeight Restriction—The results will not include roads where the vehicle height exceeds the maximum allowed height for the road. The vehicle height can be specified using the Vehicle Height (meters) restriction parameter. Availability: Select countries in North America and EuropeKingpin to Rear Axle Length Restriction—The results will not include roads where the vehicle length exceeds the maximum allowed kingpin to rear axle for all trucks on the road. The length between the vehicle kingpin and the rear axle can be specified using the Vehicle Kingpin to Rear Axle Length (meters) restriction parameter. Availability: Select countries in North America and EuropeLength Restriction—The results will not include roads where the vehicle length exceeds the maximum allowed length for the road. The vehicle length can be specified using the Vehicle Length (meters) restriction parameter. Availability: Select countries in North America and EuropeRiding a Motorcycle—The results will not include roads where motorcycles are prohibited. Using this restriction will also ensure that the results will honor one-way streets.Availability: All countriesRoads Under Construction Prohibited—The results will not include roads that are under construction.Availability: All countriesSemi or Tractor with One or More Trailers Prohibited—The results will not include roads where semis or tractors with one or more trailers are prohibited. Availability: Select countries in North America and EuropeSingle Axle Vehicles Prohibited—The results will not include roads where vehicles with single axles are prohibited.Availability: Select countries in North America and EuropeTandem Axle Vehicles Prohibited—The results will not include roads where vehicles with tandem axles are prohibited.Availability: Select countries in North America and EuropeThrough Traffic Prohibited—The results will not include roads where through traffic (non local) is prohibited.Availability: All countriesTruck with Trailers Restriction—The results will not include roads where trucks with the specified number of trailers on the truck are prohibited. The number of trailers on the truck can be specified using the Number of Trailers on Truck restriction parameter.Availability: Select countries in North America and EuropeUse Preferred Hazmat Routes—The results will prefer roads that are designated for transporting any kind of hazardous materials. Availability: Select countries in North America and EuropeUse Preferred Truck Routes—The results will prefer roads that are designated as truck routes, such as the roads that are part of the national network as specified by the National Surface Transportation Assistance Act in the United States, or roads that are designated as truck routes by the state or province, or roads that are preferred by the trucks when driving in an area.Availability: Select countries in North America and EuropeWalking—The results will not include roads where pedestrians are prohibited.Availability: All countriesWeight Restriction—The results will not include roads where the vehicle weight exceeds the maximum allowed weight for the road. The vehicle weight can be specified using the Vehicle Weight (kilograms) restriction parameter.Availability: Select countries in North America and EuropeWeight per Axle Restriction—The results will not include roads where the vehicle weight per axle exceeds the maximum allowed weight per axle for the road. The vehicle weight per axle can be specified using the Vehicle Weight per Axle (kilograms) restriction parameter.Availability: Select countries in North America and EuropeWidth Restriction—The results will not include roads where the vehicle width exceeds the maximum allowed width for the road. The vehicle width can be specified using the Vehicle Width (meters) restriction parameter.Availability: Select countries in North America and EuropeThe Driving a Delivery Vehicle restriction attribute is deprecated and will be unavailable in future releases. To achieve similar results, use the Driving a Truck restriction attribute along with the Avoid Truck Restricted Roads restriction attribute.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: [ Driving an Automobile, Through Traffic Prohibited, Avoid Unpaved Roads, Avoid Private Roads, Avoid Gates, Avoid Carpool Roads, Avoid Express Lanes ]
Parameter Type: esriGPParameterTypeOptional
Category: Custom Travel Mode
Choice List: [ Any Hazmat Prohibited, Avoid Carpool Roads, Avoid Express Lanes, Avoid Ferries, Avoid Gates, Avoid Limited Access Roads, Avoid Private Roads, Avoid Toll Roads, Avoid Truck Restricted Roads, Avoid Unpaved Roads, Driving a Bus, Driving a Delivery Vehicle, Driving a Taxi, Driving a Truck, Driving an Automobile, Driving an Emergency Vehicle, Height Restriction, Length Restriction, Through Traffic Prohibited, Use Preferred Hazmat Routes, Use Preferred Truck Routes, Walking, Weight Restriction ]

Parameter: Attribute_Parameter_Values

Data Type: GPRecordSet
Display Name Attribute Parameter Values
Description: Specify additional values required by some restrictions, such as the weight of a vehicle for Weight Restriction. You can also use the attribute parameter to specify whether any restriction prohibits, avoids, or prefers travel on roads that use the restriction. If the restriction is meant to avoid or prefer roads, you can further specify the degree to which they are avoided or preferred using this parameter. For example, you can choose to never use toll roads, avoid them as much as possible, or even highly prefer them. The values you provide for this parameter are ignored unless Travel Mode is set to Custom. If you specify the Attribute Parameter Values parameter from a feature class, the field names on the feature class must match the fields as described below: 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 field values based on its intended use. ParameterValue: The value for ParameterName used by the tool when evaluating the restriction. Attribute Parameter Values is dependent on the Restrictions parameter. The ParameterValue field is applicable only if the restriction name is specified as the value for the Restrictions parameter. In Attribute Parameter Values, each restriction (listed as AttributeName) has a ParameterName field value, Restriction Usage, that specifies whether the restriction prohibits, avoids, or prefers travel on the roads associated with the restriction 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 highly unlikely for the tool to include in the route the roads that are associated with the restriction. AVOID_MEDIUM (2)—It is unlikely for the tool to include in the route the roads that are associated with the restriction. AVOID_LOW (1.3)—It is somewhat unlikely for the tool to include in the route the roads that are associated with the restriction. PREFER_LOW (0.8)—It is somewhat likely for the tool to include in the route the roads that are associated with the restriction. PREFER_MEDIUM (0.5)—It is likely for the tool to include in the route the roads that are associated with the restriction. PREFER_HIGH (0.2)—It is highly likely for the tool to include in the route the roads that are associated with the restriction. In most cases, you can use the default value, PROHIBITED, for the Restriction Usage if the restriction is dependent on a vehicle-characteristic such as vehicle height. However, in some cases, the value for Restriction Usage depends on your routing 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 tool 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 tool will go out of its way to travel on the roads associated with the restriction.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value:
Fields:
• OBJECTID ( type: esriFieldTypeOID, alias: ObjectID )
• AttributeName ( type: esriFieldTypeString, alias: AttributeName, length: 255 )
• ParameterName ( type: esriFieldTypeString, alias: ParameterName, length: 255 )
• ParameterValue ( type: esriFieldTypeString, alias: ParameterValue, length: 25 )
Features: # records: 27

OBJECTID: 28
AttributeName: Any Hazmat Prohibited
ParameterName: Restriction Usage
ParameterValue: PROHIBITED

OBJECTID: 29
AttributeName: Avoid Carpool Roads
ParameterName: Restriction Usage
ParameterValue: PROHIBITED

OBJECTID: 30
AttributeName: Avoid Express Lanes
ParameterName: Restriction Usage
ParameterValue: PROHIBITED

more...


Parameter Type: esriGPParameterTypeOptional
Category: Custom Travel Mode


Parameter: Allocation_Line_Shape

Data Type: GPString
Display Name Allocation Line Shape
Description: The default is to output straight lines. Specify the type of line features that are output by the tool. The parameter accepts one of the following values: Straight Line: Return straight lines between solution facilities and the demand points allocated to them. This is the default. Drawing straight lines on a map helps you visualize how demand is allocated. None: Return a table containing data about the shortest paths between solution facilities and the demand points allocated to them, but don't return lines. No matter which value you choose for the Allocation Line Shape parameter, the shortest route is always determined by minimizing the travel time or the travel distance, never using the straight-line distance between demand points and facilities. That is, this parameter only changes the output line shapes; it doesn't change the measurement method.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: Straight Line
Parameter Type: esriGPParameterTypeOptional
Category: Output
Choice List: [ None, Straight Line ]

Parameter: Travel_Mode

Data Type: GPString
Display Name Travel Mode
Description: Specify the mode of transportation to model in 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 name of a travel mode supported by your organization. To get a list of supported travel mode names, use the same GIS server connection you used to access this tool, and from the Utilities toolbox, run GetTravelModes. The GetTravelModes tool adds a table, Supported Travel Modes, to the application. Any value in the Travel Mode Name field from the Supported Travel Modes table can be specified as input. You can also specify the value from the Travel Mode Settings field as input. This speeds up the tool execution because the tool does not have to look up the settings based on the travel mode name. The default value, Custom, allows you to configure your own travel mode using the custom travel mode parameters (UTurn at Junctions, Use Hierarchy, Restrictions, Attribute Parameter Values, and Impedance). The default values of the custom travel mode parameters model traveling by car. You 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 the analysis results you want. Once you have identified the analysis settings, you should work with your organization's administrator and save these settings as part of a new or existing travel mode so that everyone in your organization can rerun the analysis with the same settings. By choosing Custom, the values you set for the custom travel mode parameters are included in the analysis. Specifying another travel mode, as defined by your organization, causes any values you set for the custom travel mode parameters to be ignored; the tool overrides them with values from your specified travel mode.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: Custom
Parameter Type: esriGPParameterTypeOptional
Category:


Parameter: Impedance

Data Type: GPString
Display Name Impedance
Description: Specify the impedance, which is a value that represents the effort or cost of traveling along road segments or on other parts of the transportation network. Travel distance is an impedance; the length of a road in kilometers can be thought of as impedance. Travel distance in this sense is the same for all modes—a kilometer for a pedestrian is also a kilometer for a car. (What may change is the pathways on which the different modes are allowed to travel, which affects distance between points, and this is modeled by travel mode settings.) Travel time can also be an impedance; a car may take one minute to travel a mile along an empty road. Travel times can vary by travel mode—a pedestrian may take more than 20 minutes to walk the same mile, so it is important to choose the right impedance for the travel mode you are modeling. Choose from the following impedance values: Drive Time—Models travel times for a car. These travel times are dynamic and fluctuate according to traffic flows in areas where traffic data is available. This is the default value. Truck Time—Models travel times for a truck. These travel times are static for each road and don't fluctuate with traffic. Walk Time—Models travel times for a pedestrian. Travel Distance—Stores length measurements along roads and paths. To model walk distance, choose this option and ensure Walking is set in the Restriction parameter. Similarly, to model drive or truck distance, choose Travel Distance here and set the appropriate restrictions so your vehicle travels only on roads where it is permitted to do so. The value you provide for this parameter is ignored unless Travel Mode is set to Custom, which is the default value. If you choose Drive Time, Truck Time, or Walk Time, the Measurement Units parameter must be set to a time-based value; if you choose Travel Distance for Impedance, Measurement Units must be distance-based.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: Drive Time
Parameter Type: esriGPParameterTypeOptional
Category: Custom Travel Mode
Choice List: [ Drive Time, Truck Time, Walk Time, Travel Distance ]

Parameter: Save_Output_Network_Analysis_Layer

Data Type: GPBoolean
Display Name Save Output Network Analysis Layer
Description: Specify if the tool 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 to diagnose the quality of results returned from the tool. Checked (True)—Save the network analysis layer file. The file is downloaded in a temporary directory on your machine. In ArcGIS Pro, the location of the downloaded file can be determined by viewing the value for the Output Network Analysis Layer parameter in the entry corresponding to the tool execution in the Geoprocessing history of your Project. In ArcMap, the location of the file can be determined by accessing the Copy Location option in the shortcut menu on the Output Network Analysis Layer parameter in the entry corresponding to the tool execution in the Geoprocessing Results window. Unchecked (False)—Do not save the network analysis layer file. This is the default.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value: false
Parameter Type: esriGPParameterTypeOptional
Category: Output


Parameter: Overrides

Data Type: GPString
Display Name Overrides
Description: 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). For example, a valid value is of the following form {"overrideSetting1" : "value1", "overrideSetting2" : "value2"}. The override setting name is always enclosed in double quotation marks. The values can be a number, Boolean, or a string. 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.
Direction: esriGPParameterDirectionInput
Filter:
Dependency:
Default Value:
Parameter Type: esriGPParameterTypeOptional
Category: Advanced Analysis


Parameter: Solve_Succeeded

Data Type: GPBoolean
Display Name Solve Succeeded
Description:
Direction: esriGPParameterDirectionOutput
Filter:
Dependency:
Default Value:
Parameter Type: esriGPParameterTypeDerived
Category:


Parameter: Output_Allocation_Lines

Data Type: GPFeatureRecordSetLayer
Display Name Output Allocation Lines
Description:
Direction: esriGPParameterDirectionOutput
Filter:
Dependency:
Default Value:
Geometry Type:
HasZ: false
HasM: false
Spatial Reference: N/A
Fields: None

Features: None.



Parameter Type: esriGPParameterTypeDerived
Category:


Parameter: Output_Facilities

Data Type: GPFeatureRecordSetLayer
Display Name Output Facilities
Description:
Direction: esriGPParameterDirectionOutput
Filter:
Dependency:
Default Value:
Geometry Type:
HasZ: false
HasM: false
Spatial Reference: N/A
Fields: None

Features: None.



Parameter Type: esriGPParameterTypeDerived
Category:


Parameter: Output_Demand_Points

Data Type: GPFeatureRecordSetLayer
Display Name Output Demand Points
Description:
Direction: esriGPParameterDirectionOutput
Filter:
Dependency:
Default Value:
Geometry Type:
HasZ: false
HasM: false
Spatial Reference: N/A
Fields: None

Features: None.



Parameter Type: esriGPParameterTypeDerived
Category:


Parameter: Output_Network_Analysis_Layer

Data Type: GPDataFile
Display Name Output Network Analysis Layer
Description:
Direction: esriGPParameterDirectionOutput
Filter:
Dependency:
Default Value:
Parameter Type: esriGPParameterTypeDerived
Category:

Supported Operations:   Submit Job

Child Resources:   Metadata