Abstract
Environmental accessibility information measured by universal design guidelines does not exist in a form that can be effectively implemented as a geospatial database. Thus, this study explored the design process of a smart accessibility data model that integrates geospatial data with environmental accessibility information in a mixed indoor/outdoor environment. First, a typology of accessibility information integrated with universally designed geospatial information was identified, and a field experiment was conducted to observe components of the built environment and environment-behavior interactions during travel in a sightseeing area of Seoul, South Korea. The analysis found that each user group, namely people with mobility impairments, visual impairments, or hearing impairments, had different barriers, and facilitators in the environment. Certain barriers for one group could work as facilitators for another, and vice versa; also, some components previously classified as facilitators failed to actually fulfill that function. Additionally, the user groups demonstrated different prioritization of spatial attributes. The findings of the field study were organized in the data model as priority information and weighted values according to user group. The smart accessibility data model developed in this study has implications for designing user-customized multimodal systems, such as wayfinding services and web-based maps, that are useful to everyone, regardless of their ability or age. Furthermore, it increases the users’ decision-making power to plan a trip and can exert invisible pressure inducing physical improvements in the areas that lack accessibility, through visually displaying accurate information on the physical environment.
Highlights
Vulnerable groups are more strongly affected by environmental factors that determine an individual’s degree of independent life and equitable rights to social participation (Iwarsson and Ståhl, 2003)
They do not adequately provide user-customized information due to the limited source of data relying on governmental standards, focus mainly on outdoor data the environment is intimately connected by outdoor spaces and indoor spaces, and omit the process by which information should be stored mapped, and managed
This study defines the concept of geospatial information for all, identifies typology of environmental accessibility, and presents a smart accessibility data model that integrates geospatial data with user-customized universal design information in a mixed indoor/outdoor environment, based on an empirical understanding of complex environment-behavior interactions
Summary
Vulnerable groups are more strongly affected by environmental factors that determine an individual’s degree of independent life and equitable rights to social participation (Iwarsson and Ståhl, 2003). Smart Accessibility Data Model environmental conditions, at the local, federal, and national levels, and in collaboration with the private sector Since these instruments are not developed with no consideration for the design of a wayfinding system, the information collected is not in a form that can be effectively implemented as a geospatial database, which plays a key role in developing service platforms. The few studies dealing with environmental accessibility in geographic information systems (GISs) concentrate only on people with visual impairments (Marsh et al, 2000; Ran et al, 2004; Farcy et al, 2006; Hunaiti et al, 2006) and people who use wheelchairs (Hunaiti et al, 2006; Karimi et al, 2014) They do not adequately provide user-customized information due to the limited source of data relying on governmental standards, focus mainly on outdoor data (e.g., pedestrian accessibility) the environment is intimately connected by outdoor spaces and indoor spaces, and omit the process by which information should be stored mapped, and managed. This study defines the concept of geospatial information for all, identifies typology of environmental accessibility, and presents a smart accessibility data model that integrates geospatial data with user-customized universal design information in a mixed indoor/outdoor environment, based on an empirical understanding of complex environment-behavior interactions
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