The Infrastructure Impact Tool

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1 The Infrastructure Impact Tool Guidance notes Delivered by Sustrans in partnership with:

2 About Sustrans Sustrans is the charity making it easier for people to walk and cycle. We are engineers and educators, experts and advocates. We connect people and places, create liveable neighbourhoods, transform the school run and a deliver a happier, healthier commute. Sustrans works in partnership, bringing people together to find the right solutions. We make the case for walking and cycling by using robust evidence and showing what can be done. We are grounded in communities and believe that grassroots support combined with political leadership drives real change, fast. Join us on our journey. www.sustrans.org.uk Head Office Sustrans 2 Cathedral Square College Green Bristol BS1 5DD Sustrans 2017 Registered Charity No. 326550 (England and Wales) SC039263 (Scotland) VAT Registration No. 416740656 Table of contents 03 Introduction 04 Inputs 04 Pre-intervention annual usage 05 Intervention type 05 Urban classification of location 06 Proportion of leisure users 07 Outputs 07 Usage 07 Mode shift 08 Conclusion

3 1. Introduction This document provides guidance on how to use Sustrans Infrastructure Impact Tool (IIT). The IIT estimates the impact, primarily in terms of increases in the number of cycle trips, of investments in specific types of cycling infrastructure. It uses data from a range of previous interventions to develop a category model for different types of infrastructure, calculating the typical impact of those interventions 1. This document details the inputs required by the tool, and explains the resulting outputs. It should be noted from the outset that this tool does not attempt to provide a definitive measure of the impact of an intervention. It should be used as part of a range of sources for forecasting the impact of a proposed intervention and should have appropriate sensitivity testing applied to the outputs. The tool does not make any attempt to identify the extent of displacement from alternative routes so this should be considered when reporting the results. It is also important to note that the IIT does not take into consideration pedestrian usage and should not be used for this purpose. Where appropriate optimism bias has been accounted for by using conservative assumptions. 1. The data has been collected from interventions making up the Connect2 (funded by Big Lottery), Linking Communities (2012/13 and 2013/14) (funded by the Department for Transport) and Cycle Safety Fund (funded by the Department for Transport) programmes of investment, totalling 112 separate interventions. Automatic cycle counters and manual counts were used to determine the level of usage while Route User Intercept Surveys (RUIS) were used to collect data on the user profiles.

4 2. Inputs There are four inputs required for the IIT (Figure 2-1). The sections below explain each of these in turn. Figure 2-1 Model inputs 2.1 Pre-intervention annual usage This input is a measure of the level of cycling at the intervention location prior to the intervention. Continuous counts from automatic cycle counters (ACC) are the most robust source of this data, but annualised estimates calculated from temporary counts can also be used. In all cases the data must be presented as the total number of trips taking place each year. Estimating pre-intervention usage is more complicated when the intervention involves creating a new route that was not previously available (e.g. locations where a new bridge is being installed). In these case there is no pre-intervention usage so the IIT is unable to estimate a proportional increase in usage following the installation of the infrastructure. In these situations the most robust approach is to estimate the number of existing cycling trips that would have used the proposed infrastructure were it in place. In effect, this is estimating the number of trips that would be displaced from existing routes onto the new infrastructure. This approach is used as this type of intervention is likely to be considered only in scenarios where comprehensive displacement to the new infrastructure is expected. This approach to estimating pre-intervention usage can be done using a variety of methods. A GIS approach using network routing and some form of origin/destination data is recommended. In cases where this is not possible, a best estimate approach using data from nearby routes might be appropriate as long as it is supported by a clear explanation of the assumptions made.

5 2.2 Intervention type Sustrans experience indicates that different types of infrastructure interventions have an influence on the number of trips likely to be achieved from investment. Four intervention categories are included in the tool: Cycle and pedestrian tracks Pedestrian and cycle bridge On-road cycle lanes Other intervention types Although more categories would be possible, most interventions can be characterised according to these categories. Interventions that feature multiple types of infrastructure should be categorised according to the main element of the proposed intervention. 2.3 Urban classification of location To simulate the level of demand for active travel, the IIT groups intervention according to the urban/rural classification of the scheme location. The urban classification used in the tool is based on the Office of National Statistics 2011 rural/ urban classification for Lower Super Output Areas (LSOA) in England and Wales 2. However, because of the relatively small number of LSOAs in some categories, the IIT combines some of the groups (Table 2-1). Table 2-1 Rural/urban classification of LSOAs in England and Wales (2011) Class ONS classification IIT classification Urban Rural Major Conurbation Minor Conurbation City and Town City and Town in a Sparse Setting Town and Fringe Town and Fringe in a Sparse Setting Village and Dispersed Village and Dispersed in a Sparse Setting Urban conurbation (major and minor) Urban city and town All rural Different urban/rural classification systems are in use in Scotland and Northern Ireland. In these cases, the equivalences shown in tables 2-2 and 2-3 should be used. 2. http://webarchive.nationalarchives.gov.uk/20160105160709/http://www.ons.gov.uk/ons/guidemethod/geography/products/area-classi cations/2011-rural-urban/index.html

6 Table 2-2 Scottish Government 8 fold Urban Rural Classification (2013-14) Label Name Equivalent IIT classification 1 Large Urban Areas Urban conurbation (major and minor) 2 Other Urban Areas 3 Accessible Small Towns Urban city and town 4 Remote Small Towns 5 Very Remote Small Towns 6 Accessible Rural Areas 7 Remote Rural Areas All rural 8 Very Remote Rural Areas Source: http://www.gov.scot/topics/statistics/about/methodology/urbanruralclassification Table 2-3 Northern Ireland Settlement Development Limits (2015) Label Name Equivalent IIT classification Band A Belfast Metropolitan Urban Area Urban conurbation (major and minor) Band B Band C Band D Band E Band F Band G Band H Derry Urban Area Large town Medium town Small town Intermediate settlement Village Small village, hamlet and open countryside Source: http://www.nisra.gov.uk/geography/urbanrural.htm Urban city and town All rural In scenarios where an intervention runs across several differently classified LSOAs, the highest level of urban classification of the relevant LSOAs should be used. 2.4 Proportion of leisure users This input variable is used to estimate the proportion of trips that could have been made by car. In most cases the data for this input will be gathered from preintervention surveys of route users, but where this is not possible a best estimate can be used.

7 3. Outputs This part of the document explains the outputs of the IIT. 3.1 Usage The figures presented at the top of the results are the new cycling trips that will take place each year following the intervention. It is assumed that it represents the maximum level of post-intervention usage. Figure 4-1 Usage output 3.2 Mode shift This section of the outputs details the proportion of the new trips that could have been made by car and the car kilometres that this removes from the road. Figure 4-2 Mode shift output

8 4. Conclusion The Infrastructure Impact Tool helps to identify the possible impact of a proposed piece of infrastructure. Used correctly, although the outputs should be seen as indicative rather than precise estimates, the tool will help to simplify the appraisal of cycling interventions which in turn will help with the development of a successful strategy for investing in, and increasing, levels of cycling.

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