Integrating design and system approaches for analyzing road traffic collisions in low-income settings
Integrating design and system approaches for analyzing road traffic collisions in low-income settings
Road crashes have become a critical issue in low- and middle-income countries (LMICs), where complex social and systemic factors exacerbate road safety challenges. This study combines Systems-Theoretic Accident Model and Processes-Systems Theoretic Process Analysis (STAMP-STPA) and Design with Intent (DwI), aiming to address both systemic and design-based factors, providing a comprehensive framework for enhancing road safety interventions in LMICs. A case study of a head-on collision in Bangladesh is analyzed using STAMP-STPA and DwI independently where the former identifies control and feedback failures, and the latter generates creative design solutions for road safety improvements. The design ideas generated in DwI workshops are analyzed using natural language processing (NLP) techniques, including topic modeling and bigram analysis, to extract key themes and reveal frequent word pairs for deeper insights. The STAMP-STPA analysis revealed critical systemic vulnerabilities related to road safety policies, vehicle standards, intersection design, and enforcement practices, which aided in proposing ten countermeasures across system levels. The DwI workshop yielded additional design ideas emphasizing infrastructure improvements, driver education, and technological solutions. NLP analysis of workshop data identified four key themes and prominent bigrams, highlighting critical areas for targeted interventions. By combining STAMP-STPA’s systematic analysis with DwI’s participatory, design-focused ideation, stakeholders can identify and implement countermeasures addressing both infrastructural and human factors to enhance road safety. Although this framework, tailored to LMIC contexts, demonstrates its applicability to a real-world case in Bangladesh, future research could expand it by incorporating multiple cases from various LMICs to enhance the generalizability of the findings.
Al Momin, Khondhaker
cb86a68a-9f64-4fd7-beeb-a229b1ef8cc1
Hamim, Omar Faruqe
2012820e-54f7-4590-9c94-3a7c9ae39b1e
Hoque, Md. Shamsul
32cecf2b-7bbc-42ca-be3f-0213900972c3
McIlroy, Rich C.
68e56daa-5b0b-477e-a643-3c7b78c1b85d
20 February 2020
Al Momin, Khondhaker
cb86a68a-9f64-4fd7-beeb-a229b1ef8cc1
Hamim, Omar Faruqe
2012820e-54f7-4590-9c94-3a7c9ae39b1e
Hoque, Md. Shamsul
32cecf2b-7bbc-42ca-be3f-0213900972c3
McIlroy, Rich C.
68e56daa-5b0b-477e-a643-3c7b78c1b85d
Al Momin, Khondhaker, Hamim, Omar Faruqe, Hoque, Md. Shamsul and McIlroy, Rich C.
(2020)
Integrating design and system approaches for analyzing road traffic collisions in low-income settings.
Accident Analysis & Prevention, [107965].
(doi:10.1016/j.aap.2025.107965).
Abstract
Road crashes have become a critical issue in low- and middle-income countries (LMICs), where complex social and systemic factors exacerbate road safety challenges. This study combines Systems-Theoretic Accident Model and Processes-Systems Theoretic Process Analysis (STAMP-STPA) and Design with Intent (DwI), aiming to address both systemic and design-based factors, providing a comprehensive framework for enhancing road safety interventions in LMICs. A case study of a head-on collision in Bangladesh is analyzed using STAMP-STPA and DwI independently where the former identifies control and feedback failures, and the latter generates creative design solutions for road safety improvements. The design ideas generated in DwI workshops are analyzed using natural language processing (NLP) techniques, including topic modeling and bigram analysis, to extract key themes and reveal frequent word pairs for deeper insights. The STAMP-STPA analysis revealed critical systemic vulnerabilities related to road safety policies, vehicle standards, intersection design, and enforcement practices, which aided in proposing ten countermeasures across system levels. The DwI workshop yielded additional design ideas emphasizing infrastructure improvements, driver education, and technological solutions. NLP analysis of workshop data identified four key themes and prominent bigrams, highlighting critical areas for targeted interventions. By combining STAMP-STPA’s systematic analysis with DwI’s participatory, design-focused ideation, stakeholders can identify and implement countermeasures addressing both infrastructural and human factors to enhance road safety. Although this framework, tailored to LMIC contexts, demonstrates its applicability to a real-world case in Bangladesh, future research could expand it by incorporating multiple cases from various LMICs to enhance the generalizability of the findings.
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Published date: 20 February 2020
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Local EPrints ID: 500696
URI: http://eprints.soton.ac.uk/id/eprint/500696
ISSN: 0001-4575
PURE UUID: bcded777-6c3b-4298-9e3e-911dddf0b1bb
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Date deposited: 09 May 2025 17:13
Last modified: 10 May 2025 01:57
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Author:
Khondhaker Al Momin
Author:
Omar Faruqe Hamim
Author:
Md. Shamsul Hoque
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