Travelling modes and speeds have a large impact on the results obtained through the different analyses implemented in AccessMod. It is therefore important to take the time to decide on the mode(s) and speed(s) to be used. When available, household and/or health facility surveys that are collecting information about patient movement can be useful, especially if they are capturing patients’ point of origin, destination, the transportation media used, and the time taken to reach their destination.
Examples of travel speed values while walking or driving on a flat surface are presented in the following two tables.
Land cover type | Speed (km/h) |
Urban and built-up area | 5 |
Low dense vegetation | 4 |
Medium dense vegetation | 3 |
Dense vegetation | 2 |
Bare soil | 5 |
Example of travel speed estimation on a flat surface per land cover type for walking scenario
Roads type | Speed (km/h) |
Motorway or Highway | 100 |
Dual lane roads | 80 |
Track, trails or footpaths | 20 |
Example of maximum travel speed for different types of roads (extracted from Toxopeus (1996) and Nelson (2000))
In AccessMod, the scenario table allows for the attribution of a traveling mode (walking, motorized, and bicycling) and speed to each of the classes, and therefore each cell in which movement is allowed, contained in the merged land cover distribution grid (see Section 5.5.2).
The user can easily capture and change scenario and/or speed values in this table to investigate the changes it produces on the output results. Moreover, corrections for different modes of transportation can be applied in this file.
The travelling scenario table can either be created in Excel and then imported in AccessMod (see Section 5.4.1) or manually, created in AccessMod (see Sections 5.5.3, 5.5.4, 0 and 5.5.7). In both cases, the table is composed of the following four columns (see example in the Table below):
- class: Merged land cover class
- label: Merged land cover label
- speed: Travel speed (in km/h) on flat surfaces. The value must be greater or equal to zero (see below for the latter)
- mode: transportation mode considered for the given land cover class to be chosen from the following list:
○ MOTORIZED: the mode being applied to motorized vehicles when no corrections are being applied on the travelling speed, even if a DEM is used in the analysis.
○ WALKING: the mode applied when the population walks. In this case, a slope-based correction is applied to the indicated speed. This correction is based on Tobler’s formula (Tobler, 1993), which basically decreases or increase the effective walking speed depending on the steepness of the slope and this for up or down movements.
○ BICYCLING: a slope-based correction is applied to the indicated speed. See below for details.
class | label | speed | mode |
1 | Cropland | 3.0 | WALKING |
2 | Bare soil | 5.0 | WALKING |
4 | Dense forest | 3.0 | WALKING |
6 | Pasture | 4.0 | WALKING |
1016 | Highway | 120.0 | MOTORIZED |
1017 | National road | 80.0 | MOTORIZED |
1018 | Secondary road | 40.0 | MOTORIZED |
1019 | Residential road | 30.0 | MOTORIZED |
Example of a travelling scenario excel file
Starting from AccessMod version 5.2.1, speeds of zero are allowed in the scenario table. A speed of zero translates into a full barrier status for all concerned cells. However, when a facility falls into a "Zero speed" cell, it will not be taken into consideration in the analysis, in a similar way than facilities falling on barriers (NoData) cells. In this case, such facilities will have a “Yes” label in the “amOnZero” column of the "Selected facilities" table. These facilities will either have to be unselected or their coordinates modified before being able to run the analysis.
Speed corrections due to topography for walking and bicycling modes are computed through the following steps in AccessMod:
- Slopes between a given cell and its eight neighbors are computed first.
- A correction based on slope and on the transportation mode (walking or bicycling) is computed using the functions reported in the following sub-sections.
- This correction is applied to the speed attributed to travelling between any two neighboring cells, as inputted by the user in the travelling scenario table.