Label | Explanation | Data Type |
Network Data Source | The network dataset or service on which the network analysis will be performed. Use the portal URL for a service. | Network Dataset Layer;String |
Layer Name (Optional) | The name of the network analysis layer that will be created. | String |
Travel Mode (Optional) | The name of the travel mode that will be used in the analysis. The travel mode represents a collection of network settings, such as travel restrictions and U-turn policies, that determine how a pedestrian, car, truck, or other medium of transportation moves through the network. Travel modes are defined on your network data source. An arcpy.na.TravelMode object and a string containing the valid JSON representation of a travel mode can also be used as input to this parameter. | String |
Travel Direction (Optional) | Specifies the direction of travel between facilities and demand points when calculating the network costs. The direction of travel may affect the allocation of the demand points to the facilities on a network with one-way restrictions and different impedances based on direction of travel. For instance, it may take 15 minutes to drive from the demand point to the facility but only 10 minutes when driving from the facility to the demand point.
| String |
Problem Type (Optional) | The problem type that will be solved. The choice of the problem type depends on the kind of facility being located. Different kinds of facilities have different priorities and constraints.
| String |
Cutoff (Optional) | The maximum impedance at which a demand point can be allocated to a facility in the units of the impedance attribute used by the specified Travel Mode value. The maximum impedance is measured by the least-cost path along the network. If a demand point is outside the cutoff, it is left unallocated. This parameter can 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. This cutoff value can be overridden on a per-demand-point basis by specifying individual cutoff values in the demand points sublayer in the Cutoff_[Impedance] property. For example, it may show that people in rural areas are willing to travel up to 10 miles to reach a facility, while people in the city are only willing to travel up to 2 miles. You can model this behavior by setting the cutoff value of the analysis layer to 10 and setting the Cutoff_Miles value of each demand point in urban areas to 2. By default, no cutoff value is used for the analysis. | Double |
Number of Facilities to Find (Optional) | The number of facilities that the solver will locate. The default value is 1. The facilities with a FacilityType value of Required are always part of the solution when there are more facilities to find than required facilities; any excess facilities to choose are picked from candidate facilities. Any facilities that have a FacilityType value of Chosen before solving are treated as candidate facilities at solve time. This parameter value is not considered for the Minimize facilities problem type since the solver searches for the minimum number of facilities to locate to maximize coverage. This parameter value is overridden for the Target market share problem type because the solver searches for the minimum number of facilities required to capture the specified market share. | Long |
Decay Function Type (Optional) | The equation that will be used for transforming the network cost between facilities and demand points. This parameter, along with the Decay Function Parameter Value parameter, specifies how severely the network impedance between facilities and demand points influences the solver's selection of facilities. Demand points have an ImpedanceTransformation property, which, if set, overrides the Decay Function Parameter Value parameter of the analysis layer on a per-demand-point basis. You may determine that the decay function should be different for urban and rural residents. You can model this by setting the impedance transformation for the analysis layer to match that of rural residents and setting the impedance transformation for the individual demand points located in urban areas to match that of urbanites.
| String |
Decay Function Parameter Value (Optional) | A parameter value for the equations specified in the Decay Function Type parameter. This parameter value is ignored when the Decay Function Type parameter is set to Linear. For the Power and Exponential options, the value should not be zero. Demand points have an ImpedanceTransformation property, which, if set, overrides the Decay Function Parameter Value parameter of the analysis layer on a per-demand-point basis. You may determine that the decay function should be different for urban and rural residents. You can model this by setting the impedance transformation for the analysis layer to match that of rural residents and setting the impedance transformation for the individual demand points located in urban areas to match that of urbanites. | Double |
Target Market Share (Optional) | The target market share, as a percentage, to solve for when the Problem Type parameter is set to Target market share. It is the percentage of the total demand weight that you want the solution facilities to capture. The solver selects the minimum number of facilities required to capture the target market share specified by this numeric value. | Double |
Capacity
(Optional) | The default capacity of facilities when the Problem Type parameter is set to Maximize capacitated coverage. This parameter is ignored for all other problem types. Facilities have a Capacity property, which, if set to a nonnull value, overrides the Capacity parameter value for that facility. | Double |
Time of Day (Optional) | The time and date of departure. The departure time can be from facilities or demand points, depending on whether Travel Direction is set to Toward facilities or Away from facilities. If you chose a traffic-based impedance attribute, the solution will be generated given dynamic traffic conditions at the time of day specified here. A date and time can be specified as 5/14/2012 10:30 AM. Configure the analysis to use one of the following special dates to model a day of the week or the current date instead of a specific, static date:
Learn more about how dates and times are used and interpreted in a network analysis | Date |
Time Zone (Optional) | The time zone of the Time of Day parameter.
| String |
Line Shape (Optional) | Specifies the output line shape. Regardless of the output shape type specified, the best route is always determined by the network impedance, not Euclidean distance. This means that only the route shapes are different, not the underlying traversal of the network.
| String |
Accumulate Attributes (Optional) | A list of cost attributes to be accumulated during analysis. These accumulated attributes are for reference only; the solver only uses the cost attribute used by the designated travel mode when solving the analysis. For each cost attribute that is accumulated, a Total_[Impedance] property is populated in the network analysis output features. This parameter is not available if the network data source is an ArcGIS Online service or the network data source is a service on a version of Portal for ArcGIS that does not support accumulation. | String |
Ignore Invalid Locations at Solve Time
(Optional) | Specifies whether invalid input locations will be ignored. Typically, locations are invalid if they cannot be located on the network. When invalid locations are ignored, the solver will skip them and attempt to perform the analysis using the remaining locations.
| Boolean |
Derived Output
Label | Explanation | Data Type |
Network Analyst Layer | The newly created network analysis layer. | Network Analyst Layer |