Advanced Huff Model (Business Analyst)
Résumé
Creates a probability surface to predict the sales potential of an area based on distance and attractiveness factors. Creates a probability surface to predict the sales potential of an area based on distance and attractiveness factors
Usage
-
The results of the Huff Model can be used to:
- Estimate market potential.
- Define and analyze market potential.
- Assess economic impact of a new site location.
- Forecast sales and potential of existing stores and outlets.
- Assess the impact of competitive and environmental changes on outlet performance.
-
The first step to executing this tool is to define a study area that includes all the trade areas of all competing stores being analyzed.
-
The Sales Potential Layer is usually a polygon features representing subareas where the potential customers live. Point features can also be used; for example, block centroids that have associated demographic data.
-
The Competitive Store Layer should include all competitive locations in a given study area. This layer should also include any of your existing store locations in the study area, since they will act as competitors to a new store location. In most cases, the competitive store layer will be a Business Analyst store layer.
-
Competitive store locations can be extracted from the Add Business Listings function in Business Analyst.
-
A higher Distance Coefficient indicates that distance will have a greater impact on consumer behavior. For example, consumers are more willing to travel farther for high-order goods, such as automobiles and furniture, than they are for low-order goods, such as groceries.
-
The output of the Huff Model generates probabilities and estimated sales for each subgeographic area. The output probabilities can be used to define primary market (trade) areas for a new store location. For example, a trade area can be created using the Dissolve By Attribute tool to create a primary market area that includes all the subgeography areas that have a probability higher than 40 percent of patronizing the new store location.
-
The spatial reference of the output feature class will be the same as the Sales Potential Layer.
-
The Potential Sales Field measure the attractiveness of a store. The values in this field, also known as predictor values, often include attributes of a store, such as square footage, number of parking spaces, advertising, store hours, prices, age, appearance, signage, accessibility, and so forth.
Syntaxe
Paramètre | Explication | Type de donnée |
SalesPotentialLayer |
The input feature class that contains the data used to calculate the numeric potential of the Huff Model. This is typically expressed in annual sales data. | Feature Layer |
SalesPotentialLayerIDFieldName |
The unique identifier of the sales potential layer. | Field |
PotentialSalesFldName |
The field containing the values used to calculate the sales potential of the Huff Model. | Field |
StoreLayer |
The layer that contains the competitive points (usually stores) used to determine how sales are influenced and distributed across the analysis area. | Feature Layer |
StoreIDField |
The unique identifier of the competitive store layer. | Field |
WayToDefineStoreLocation |
The method used to generate the potential store layer:
| String |
WayToDefineParams |
Input method for the parameters for the Advanced Huff Model:
| String |
DistanceCalculationMethod |
Assigns the method used to calculate distances between geographic areas defined by the potential customer's layer parameter and stores from the competitive stores layer.
| String |
DistanceCoefficient |
The value that determines how much of a factor travel distance is to the consumer. | Double |
AttractionVariables [[Variable, {Potential Store Value}, {Coefficient}],...] |
The values that measure how attractive a store is to consumers. | Value Table |
OutputFeatureClass |
The feature class that will contain the Huff Model results. | Feature Class |
ExtentSourceLayer (Facultatif) |
The input feature class used to define the extent of the analysis. | Feature Layer |
Longitude (Facultatif) |
The x-coordinate (longitude) for the potential site. | Double |
Latitude (Facultatif) |
The y-coordinate (latitude) for the potential site. | Double |
PotentialStoreLayer (Facultatif) |
The existing point feature class that will be used to define the potential store location. | Feature Layer |
PotentialStoreOID (Facultatif) |
The unique identifier for the potential store location. | Long |
PathToCalibratedResult (Facultatif) |
The existing Huff Model calibration file. | Folder |
Exemple de code
# Name: HuffModelExample.py # Description: Analyzes stores in the San Francisco area to determine the estimated annual sales. # Author: ESRI # Import system modules import arcpy arcpy.ImportToolbox("C:\Program Files\ArcGIS\Desktop10.0\ArcToolbox\Toolboxes\Business Analyst Tools.tbx") try: # Acquire extension license arcpy.CheckOutExtension("Business") arcpy.CheckOutExtension("Network") # Define input and output parameters for the Advanced Huff Model tool SalesLayer = "C:/Program Files/ArcGIS/Desktop10.0/Business Analyst/Data/BDS/esri_bg.bds" SalesId = "ID" Potential= "TOTPOP_CY" CompLayer = "C:/temp/sf_stores.shp" StoreId = "STORE_ID" AttractionParam= "SALES 500000 1.75" OutPath = "C:/temp/Huff_adv.shp" Extent = "C:/temp/analysis_extent.shp" # Create Advanced Huff Model arcpy.HuffModelAdvanced_ba(SalesLayer, SalesId, Potential, CompLayer, StoreId, "BY_COORDINATES", "MANUALLY", "DRIVE_TIME", "-1.5", AttractionParam, OutPath, Extent, "-122.46", "37.76") # Release extension license arcpy.CheckInExtension("Business") arcpy.CheckInExtension("Network") except: print arcpy.GetMessages(2)