URBAN-SPIN: A street-level bikeability index to inform design implementations in historical city centres

• URL: http://arxiv.org/abs/2602.10124v1
• Date: Fri, 30 Jan 2026 23:22:11 GMT
• Title: URBAN-SPIN: A street-level bikeability index to inform design implementations in historical city centres
• Authors: Haining Ding, Chenxi Wang, Michal Gath-Morad,
• Abstract summary: This study develops a perception-led, typology-based, and data-integrated framework.<n>It explicitly models street typologies and their sub-classifications to evaluate how visual and spatial configurations shape cycling experience.<n>The framework offers a transferable model for evaluating and improving cycling conditions in heritage cities.
• Score: 2.770226625653906
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Cycling is reported by an average of 35\% of adults at least once per week across 28 countries, and as vulnerable road users directly exposed to their surroundings, cyclists experience the street at an intensity unmatched by other modes. Yet the street-level features that shape this experience remain under-analysed, particularly in historical urban contexts where spatial constraints rule out large-scale infrastructural change and where typological context is often overlooked. This study develops a perception-led, typology-based, and data-integrated framework that explicitly models street typologies and their sub-classifications to evaluate how visual and spatial configurations shape cycling experience. Drawing on the Cambridge Cycling Experience Video Dataset (CCEVD), a first-person and handlebar-mounted corpus developed in this study, we extract fine-grained streetscape indicators with computer vision and pair them with built-environment variables and subjective ratings from a Balanced Incomplete Block Design (BIBD) survey, thereby constructing a typology-sensitive Bikeability Index that integrates subjective and perceived dimensions with physical metrics for segment-level comparison. Statistical analysis shows that perceived bikeability arises from cumulative, context-specific interactions among features. While greenness and openness consistently enhance comfort and pleasure, enclosure, imageability, and building continuity display threshold or divergent effects contingent on street type and subtype. AI-assisted visual redesigns further demonstrate that subtle, targeted changes can yield meaningful perceptual gains without large-scale structural interventions. The framework offers a transferable model for evaluating and improving cycling conditions in heritage cities through perceptually attuned, typology-aware design strategies.

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