Difference between revisions of "Mcrefs"
From stgo
(→Marie Curie PDF Proposal List of References) |
(→List of References) |
||
(One intermediate revision by one user not shown) | |||
Line 1: | Line 1: | ||
− | + | == Marie Curie PDF Proposal Walkability.Data == | |
− | + | === List of References === | |
− | + | #Abadi, M., Agarwal, A., Barham, P., Brevdo, E., Chen, Z., Citro, C., ... , Zheng, X., 2016. Tensorflow: Large-scale machine learning on heterogeneous distributed systems. ''arXiv preprint'' arXiv:1603.04467. | |
+ | #Adkins, A., Dill, J., Luhr, G., Neal, M., 2012. Unpacking walkability: testing the influence of urban design features on perceptions of walking environment attractiveness. ''Journal of Urban Design'', 17, 499–510. | ||
+ | #Anselin, L. (2019/2024) Global Spatial Autocorrelation, in: ''An Introduction to Spatial Data Science with GeoD''a. CRC/Chapman & Hall, Boca Raton. URL https://lanselin.github.io/introbook_vol1/ | ||
+ | #Arellana, J., Saltarín, M., Larrañaga, A. M., Alvarez, V., Henao, C. A., 2020. Urban walkability considering pedestrians’ perceptions of the built environment: a 10-year review and a case study in a medium-sized city in Latin America. ''Transport Reviews'', 40(2), 183-203. | ||
+ | #Bayside City Council, 2015. Bayside Walking Strategy. Victoria, AUS. | ||
+ | #Bellizzi, M. G., Forciniti, C., Mazzulla, G., 2021. A stated preference survey for evaluating young pedestrians’ preferences on walkways. ''Sustainability'', 13(22), 12434. | ||
+ | #Brownson, R. C., Hoehner, C. M., Day, K., Forsyth, A., Sallis, J. F., 2009. Measuring the built environment for physical activity: state of the science. ''American Journal of Preventive Medicine'', 36(4), S99-S123. | ||
+ | #Bull and Hardman 2018 Bull, F.C., Hardman, A.E., 2018. Walking: a best buy for public and planetary health. ''British Journal of Sports Medicine'', 52, 755–756. | ||
+ | #Campisi, T., Tesoriere, G., Skoufas, A., Zeglis, D., Andronis, C., Basbas, S., 2022. Perceived pedestrian level of service: the case of Thessaloniki, Greece. ''Transportation Research Procedia'', 60, 124-131. | ||
+ | #Clifton, K. J., Smith, A. D. L., Rodriguez, D., 2007. The development and testing of an audit for the pedestrian environment. ''Landscape and Urban Planning'', 80(1-2), 95-110. | ||
+ | #Day, K., Boarnet, M., Alfonzo, M. and Forsyth, A., 2006. The Irvine–Minnesota inventory to measure built environments: development. ''American Journal of Preventive Medicine'', 30(2), pp.144-152. | ||
+ | #De Vos, J., Lättman, K., Van der Vlugt, A. L., Welsch, J., Otsuka, N., 2023. Determinants and effects of perceived walkability: a literature review, conceptual model and research agenda. ''Transport Reviews'', 43(2), 303-324. | ||
+ | #Ewing and Handy 2009 Ewing, R., Handy, S., 2009. Measuring the unmeasurable: urban design qualities related to walkability. ''Journal of Urban Design'', 14, 65–84. | ||
+ | #Ewing, R., Cervero, R., 2010. Travel and the built environment. ''Journal of the American Planning Association'', 76, 265–294. | ||
+ | #Ferrari, G., Werneck, A. O., Da Silva, D. R., Kovalskys, I., Gómez, G., Rigotti, A., ... , ELANS Study Group, 2020. Is the perceived neighborhood built environment associated with domain-specific physical activity in Latin American adults? An eight-country observational study. ''International Journal of Behavioral Nutrition and Physical Activity'', 17, 1-14. | ||
+ | #Forsyth, A., Schmitz, K.H., Oakes, M., Zimmerman, J., Koepp, J., 2006. Standards for environmental measurement using GIS: toward a protocol for protocols. ''Journal of Physical Activity and Health'', 3, S241–S257. | ||
+ | #Frank, L.D., Schmid, T.L., Sallis, J.F., Chapman, J., Saelens, B.E., 2005. Linking objectively measured physical activity with objectively measured urban form: Findings from SMARTRAQ. ''American Journal of Preventive Medicine'', 28, 117–125. | ||
+ | #Gebel, K., Bauman, A., Owen, N., 2009. Correlates of non-concordance between perceived and objective measures of walkability. ''Annals of Behavioural Medicine'', 37, 228–238. | ||
+ | #Geurs, K.T., van Wee, B., 2004. Accessibility evaluation of land-use and transport strategies: review and research directions. ''Journal of Transportation Geography'', 12, 127–140. | ||
+ | #Geurs, K.T., Montis, A., Reggiani, A., 2015. Recent advances and applications in accessibility modelling. ''Computers, Environment and Urban Systems'', 49, 82–85. | ||
+ | #Giles-Corti, B., Foster, S., Shilton, T., Falconer, R., 2010. The co-benefits for health of investing in active transportation. ''New South Wales Public Health Bulletin'', 21, 122–127. | ||
+ | #Grekousis, G. (2019) Artificial neural networks and deep learning in urban geography: A T systematic review and meta-analysis. ''Computers, Environment and Urban Systems'', 74, 244-256. | ||
+ | #Hall, C.M., Ram, Y., 2018. Walk score® and its potential contribution to the study of active transport and walkability: A critical and systematic review. ''Transportation Research - Part D: Transp. Environ.'', 61, 310–324. | ||
+ | #Herrmann-Lunecke, M. G., Figueroa-Martínez, C., Parra Huerta, F., Mora, R., 2022. The disabling city: older persons walking in central neighbourhoods of Santiago de Chile. ''Sustainability'', 14(17), 11085. | ||
+ | #iRAP, 2024. ''Star Rating for Schools''. Available from: https://starratingforschools.org/ | ||
+ | #Ito, K., Biljecki, F., 2021. Assessing bikeability with street view imagery and computer vision. ''Transportation Research - Part C: Emerging Technologies'', 132, 103371. | ||
+ | #Jiron, P., Carrasco, J. A., 2019. Understanding daily mobility strategies through ethnographic, time use, and social network lenses. ''Sustainability'', 12(1), 312. | ||
+ | #Lee, E., Dean, J., 2018. Perceptions of walkability and determinants of walking behaviour among urban seniors in Toronto, Canada. ''Journal of Transport and Health'', 9, 309–320. | ||
+ | #Lee, S., Talen, E., 2014. Measuring walkability: A note on auditing methods. Journal of Urban Design, 19, 368–388. | ||
+ | #Litman, T.A., 2009. ''Economic Value of Walkability.'' Victoria Transport Policy Institute, Victoria, BC. | ||
+ | #Litman, T.A., 2013. ''Transportation and public health.'' Annual Review of Public Health, 34, 22–1. | ||
+ | #Liu, P., Biljecki, F., 2022. A review of spatially-explicit GeoAI applications in urban geography. ''International Journal of Applied Earth Observation and Geoinformation'', 112, 102936. | ||
+ | #Livi, A.D., Clifton, K.J., 2004. Issues and methods in capturing pedestrian behaviours, attitudes and perceptions: Experiences with a community based walkability survey, in: ''Transportation Research Board Annual Meeting 2004''. | ||
+ | #McGrew Jr, J. C., Monroe, C. B., 2009. ''An Introduction to Statistical Problem Solving in Geography''. Waveland Press. | ||
+ | #Merlin, L. A., Jehle, U., 2023. Global interest in walking accessibility: a scoping review. ''Transport Reviews'', 43(5), 1021-1054. | ||
+ | #NACTO - Global Designing Cities Initiative & National Association of City Transportation Officials, 2016. ''Global Street Design Guide''. Island Press. | ||
+ | #Nag, D., Goswami, A. K., Gupta, A., Sen, J., 2020. Assessing urban sidewalk networks based on three constructs: a synthesis of pedestrian level of service literature. ''Transport Reviews'', 40(2), 204-240. | ||
+ | #Pajares, E., Büttner, B., Jehle, U., Nichols, A., Wulfhorst, G., 2021. Accessibility by proximity: Addressing the lack of interactive accessibility instruments for active mobility. ''Journal of Transport Geography'', 93, 103080. | ||
+ | #Pedregosa, F., Varoquaux, G., Gramfort, A., Michel, V., Thirion, B., Grisel, O., ..., Duchesnay, É., 2011. Scikit-learn: Machine learning in Python. ''The Journal of Machine Learning Research'', 12, 2825-2830. | ||
+ | #Pucher, J., Buehler, R., 2010. Walking and cycling for healthy cities. Built Environment, 36, 391–414. | ||
+ | #Ravensbergen, L., Van Liefferinge, M., Isabella, J., Merrina, Z., El-Geneidy, A., 2022. Accessibility by public transport for older adults: a systematic review. ''Journal of Transport Geography'', 103, 103408. | ||
+ | #Rdriguez-Valencia, A., Ortiz-Ramirez, H. A., Simancas, W., & Vallejo-Borda, J. A., 2022. Level of pedestrian stress in urban streetscapes. ''Transportation Research Record'', 03611981211072804 | ||
+ | #Saelens, B.E., Sallis, J.F., Frank, L.D., 2003. Environmental correlates of walking and cycling: Findings from the transportation, urban design, and planning literatures. ''Annals of Behavioural Medicine'', 25, 80–91. | ||
+ | #Sagaris, L., Tiznado-Aitken, I., Steiniger, S., 2017. Exploring the social and spatial potential of an intermodal approach to transport planning. ''International Journal of Sustainable Transportation'', 11, 721–736. | ||
+ | #Sagaris, L. and Tiznado-Aitken, I., 2023. New horizons for sustainable transport planning: An analysis of seven years of gender-related research in Chile. ''Journal of Transport & Health'', 28, p.101544. | ||
+ | #Sallis et al. 1998 Sallis, J., Bauman, A., Pratt, M., 1998. Environmental and policy interventions to promote physical activityaaThis work was prepared for the CIAR Conference on Physical Activity Promotion: An ACSM Specialty Conference. ''American Journal of Preventive Medicine'', 15, 379–397. | ||
+ | #Schwanen, T., Lucas, K., Akyelken, N., Solsona, D. C., Carrasco, J. A., Neutens, T., 2015. Rethinking the links between social exclusion and transport disadvantage through the lens of social capital. ''Transportation Research Part A: Policy and Practice'', 74, 123-135. | ||
+ | #Southworth, M., 2005. Designing the walkable city. ''Journal of Urban Planning and Development'', 131(4), pp.246-257. | ||
+ | #Steiniger, S., Fuentes, C., Flores, D., Castillo, B., Vecchio, G., Walker, J. and Carrasco, J.A., 2022. STRIDE-una aplicación Android para recolectar experiencias de peatones para apoyar a las intervenciones con un foco en la caminabilidad. ''Estudios de Transporte'', 23(2), pp.1-20. | ||
+ | #Taczanowska, K., Tansil, D., Wilfer, J. and Jiricka-Pürrer, A., 2024. The impact of age on people's use and perception of urban green spaces and their effect on personal health and wellbeing during the COVID-19 pandemic—A case study of the metropolitan area of Vienna, Austria. ''Cities'', 147, p.104798. | ||
+ | #Talen, E., Koschinsky, J., 2013. The walkable neighborhood: a literature review. ''International Journal of Sustainable Land Use Urban Planning'', 1, 42–63. | ||
+ | #Yang, S. I., Park, S., 2024. Measuring neighborhood walkability: Scope review of recent 20 audit instruments. ''Journal of Korea Planning Association'', 59(2), 5-18. | ||
+ | #Vallejo-Borda et al. 2020 Vallejo-Borda, J. A., Cantillo, V., Rodriguez-Valencia, A., 2020. A perception-based cognitive map of the pedestrian perceived quality of service on urban sidewalks. ''Transportation Research Part F: Traffic Psychology and Behaviour'', 73, 107-118. | ||
+ | #Vecchio, G., Martens, K., 2021. Accessibility and the capabilities approach: a review of the literature and proposal for conceptual advancements. ''Transport Reviews'', 41(6), 833-854. | ||
+ | #Vecchio, G., Tiznado-Aitken, I., Hurtubia, R., 2020a. Transport and equity in Latin America: a critical review of socially oriented accessibility assessments. ''Transport Reviews'', 40(3), 354-381. | ||
+ | #Vecchio, G., Castillo, B., Steiniger, S., 2020b. Movilidad urbana y personas mayores en Santiago de Chile: el valor de integrar métodos de análisis, un estudio en el barrio San Eugenio. ''Revista de Urbanismo'', (43), 26-45. | ||
+ | #Vecchio, G., Medina, D., Steiniger, S., 2022. Proximidad en la metrópolis que envejece: hacia una clasificación de los barrios de Santiago de Chile basada en la accesibilidad. ''XLII Congreso Nacional y XXVII Internacional de Geografia'', Universidad Alberto Hurtado, Santiago de Chile, Chile. (28. November 2022). | ||
+ | #Walk21, 2017. The Global Sidewalk Challenge [WWW Document]. URL https://www.walk21.com/sidewalks | ||
+ | #Walker, J., Steiniger, S., Canas, C., D'Arcy, L., 2023. Women's perceived walkability at the Luas Tram catchment area in Dublin A data evaluation report using the Walkability.App. Walk21, Cheltenham, UK. |
Latest revision as of 09:53, 13 September 2024
Marie Curie PDF Proposal Walkability.Data
List of References
- Abadi, M., Agarwal, A., Barham, P., Brevdo, E., Chen, Z., Citro, C., ... , Zheng, X., 2016. Tensorflow: Large-scale machine learning on heterogeneous distributed systems. arXiv preprint arXiv:1603.04467.
- Adkins, A., Dill, J., Luhr, G., Neal, M., 2012. Unpacking walkability: testing the influence of urban design features on perceptions of walking environment attractiveness. Journal of Urban Design, 17, 499–510.
- Anselin, L. (2019/2024) Global Spatial Autocorrelation, in: An Introduction to Spatial Data Science with GeoDa. CRC/Chapman & Hall, Boca Raton. URL https://lanselin.github.io/introbook_vol1/
- Arellana, J., Saltarín, M., Larrañaga, A. M., Alvarez, V., Henao, C. A., 2020. Urban walkability considering pedestrians’ perceptions of the built environment: a 10-year review and a case study in a medium-sized city in Latin America. Transport Reviews, 40(2), 183-203.
- Bayside City Council, 2015. Bayside Walking Strategy. Victoria, AUS.
- Bellizzi, M. G., Forciniti, C., Mazzulla, G., 2021. A stated preference survey for evaluating young pedestrians’ preferences on walkways. Sustainability, 13(22), 12434.
- Brownson, R. C., Hoehner, C. M., Day, K., Forsyth, A., Sallis, J. F., 2009. Measuring the built environment for physical activity: state of the science. American Journal of Preventive Medicine, 36(4), S99-S123.
- Bull and Hardman 2018 Bull, F.C., Hardman, A.E., 2018. Walking: a best buy for public and planetary health. British Journal of Sports Medicine, 52, 755–756.
- Campisi, T., Tesoriere, G., Skoufas, A., Zeglis, D., Andronis, C., Basbas, S., 2022. Perceived pedestrian level of service: the case of Thessaloniki, Greece. Transportation Research Procedia, 60, 124-131.
- Clifton, K. J., Smith, A. D. L., Rodriguez, D., 2007. The development and testing of an audit for the pedestrian environment. Landscape and Urban Planning, 80(1-2), 95-110.
- Day, K., Boarnet, M., Alfonzo, M. and Forsyth, A., 2006. The Irvine–Minnesota inventory to measure built environments: development. American Journal of Preventive Medicine, 30(2), pp.144-152.
- De Vos, J., Lättman, K., Van der Vlugt, A. L., Welsch, J., Otsuka, N., 2023. Determinants and effects of perceived walkability: a literature review, conceptual model and research agenda. Transport Reviews, 43(2), 303-324.
- Ewing and Handy 2009 Ewing, R., Handy, S., 2009. Measuring the unmeasurable: urban design qualities related to walkability. Journal of Urban Design, 14, 65–84.
- Ewing, R., Cervero, R., 2010. Travel and the built environment. Journal of the American Planning Association, 76, 265–294.
- Ferrari, G., Werneck, A. O., Da Silva, D. R., Kovalskys, I., Gómez, G., Rigotti, A., ... , ELANS Study Group, 2020. Is the perceived neighborhood built environment associated with domain-specific physical activity in Latin American adults? An eight-country observational study. International Journal of Behavioral Nutrition and Physical Activity, 17, 1-14.
- Forsyth, A., Schmitz, K.H., Oakes, M., Zimmerman, J., Koepp, J., 2006. Standards for environmental measurement using GIS: toward a protocol for protocols. Journal of Physical Activity and Health, 3, S241–S257.
- Frank, L.D., Schmid, T.L., Sallis, J.F., Chapman, J., Saelens, B.E., 2005. Linking objectively measured physical activity with objectively measured urban form: Findings from SMARTRAQ. American Journal of Preventive Medicine, 28, 117–125.
- Gebel, K., Bauman, A., Owen, N., 2009. Correlates of non-concordance between perceived and objective measures of walkability. Annals of Behavioural Medicine, 37, 228–238.
- Geurs, K.T., van Wee, B., 2004. Accessibility evaluation of land-use and transport strategies: review and research directions. Journal of Transportation Geography, 12, 127–140.
- Geurs, K.T., Montis, A., Reggiani, A., 2015. Recent advances and applications in accessibility modelling. Computers, Environment and Urban Systems, 49, 82–85.
- Giles-Corti, B., Foster, S., Shilton, T., Falconer, R., 2010. The co-benefits for health of investing in active transportation. New South Wales Public Health Bulletin, 21, 122–127.
- Grekousis, G. (2019) Artificial neural networks and deep learning in urban geography: A T systematic review and meta-analysis. Computers, Environment and Urban Systems, 74, 244-256.
- Hall, C.M., Ram, Y., 2018. Walk score® and its potential contribution to the study of active transport and walkability: A critical and systematic review. Transportation Research - Part D: Transp. Environ., 61, 310–324.
- Herrmann-Lunecke, M. G., Figueroa-Martínez, C., Parra Huerta, F., Mora, R., 2022. The disabling city: older persons walking in central neighbourhoods of Santiago de Chile. Sustainability, 14(17), 11085.
- iRAP, 2024. Star Rating for Schools. Available from: https://starratingforschools.org/
- Ito, K., Biljecki, F., 2021. Assessing bikeability with street view imagery and computer vision. Transportation Research - Part C: Emerging Technologies, 132, 103371.
- Jiron, P., Carrasco, J. A., 2019. Understanding daily mobility strategies through ethnographic, time use, and social network lenses. Sustainability, 12(1), 312.
- Lee, E., Dean, J., 2018. Perceptions of walkability and determinants of walking behaviour among urban seniors in Toronto, Canada. Journal of Transport and Health, 9, 309–320.
- Lee, S., Talen, E., 2014. Measuring walkability: A note on auditing methods. Journal of Urban Design, 19, 368–388.
- Litman, T.A., 2009. Economic Value of Walkability. Victoria Transport Policy Institute, Victoria, BC.
- Litman, T.A., 2013. Transportation and public health. Annual Review of Public Health, 34, 22–1.
- Liu, P., Biljecki, F., 2022. A review of spatially-explicit GeoAI applications in urban geography. International Journal of Applied Earth Observation and Geoinformation, 112, 102936.
- Livi, A.D., Clifton, K.J., 2004. Issues and methods in capturing pedestrian behaviours, attitudes and perceptions: Experiences with a community based walkability survey, in: Transportation Research Board Annual Meeting 2004.
- McGrew Jr, J. C., Monroe, C. B., 2009. An Introduction to Statistical Problem Solving in Geography. Waveland Press.
- Merlin, L. A., Jehle, U., 2023. Global interest in walking accessibility: a scoping review. Transport Reviews, 43(5), 1021-1054.
- NACTO - Global Designing Cities Initiative & National Association of City Transportation Officials, 2016. Global Street Design Guide. Island Press.
- Nag, D., Goswami, A. K., Gupta, A., Sen, J., 2020. Assessing urban sidewalk networks based on three constructs: a synthesis of pedestrian level of service literature. Transport Reviews, 40(2), 204-240.
- Pajares, E., Büttner, B., Jehle, U., Nichols, A., Wulfhorst, G., 2021. Accessibility by proximity: Addressing the lack of interactive accessibility instruments for active mobility. Journal of Transport Geography, 93, 103080.
- Pedregosa, F., Varoquaux, G., Gramfort, A., Michel, V., Thirion, B., Grisel, O., ..., Duchesnay, É., 2011. Scikit-learn: Machine learning in Python. The Journal of Machine Learning Research, 12, 2825-2830.
- Pucher, J., Buehler, R., 2010. Walking and cycling for healthy cities. Built Environment, 36, 391–414.
- Ravensbergen, L., Van Liefferinge, M., Isabella, J., Merrina, Z., El-Geneidy, A., 2022. Accessibility by public transport for older adults: a systematic review. Journal of Transport Geography, 103, 103408.
- Rdriguez-Valencia, A., Ortiz-Ramirez, H. A., Simancas, W., & Vallejo-Borda, J. A., 2022. Level of pedestrian stress in urban streetscapes. Transportation Research Record, 03611981211072804
- Saelens, B.E., Sallis, J.F., Frank, L.D., 2003. Environmental correlates of walking and cycling: Findings from the transportation, urban design, and planning literatures. Annals of Behavioural Medicine, 25, 80–91.
- Sagaris, L., Tiznado-Aitken, I., Steiniger, S., 2017. Exploring the social and spatial potential of an intermodal approach to transport planning. International Journal of Sustainable Transportation, 11, 721–736.
- Sagaris, L. and Tiznado-Aitken, I., 2023. New horizons for sustainable transport planning: An analysis of seven years of gender-related research in Chile. Journal of Transport & Health, 28, p.101544.
- Sallis et al. 1998 Sallis, J., Bauman, A., Pratt, M., 1998. Environmental and policy interventions to promote physical activityaaThis work was prepared for the CIAR Conference on Physical Activity Promotion: An ACSM Specialty Conference. American Journal of Preventive Medicine, 15, 379–397.
- Schwanen, T., Lucas, K., Akyelken, N., Solsona, D. C., Carrasco, J. A., Neutens, T., 2015. Rethinking the links between social exclusion and transport disadvantage through the lens of social capital. Transportation Research Part A: Policy and Practice, 74, 123-135.
- Southworth, M., 2005. Designing the walkable city. Journal of Urban Planning and Development, 131(4), pp.246-257.
- Steiniger, S., Fuentes, C., Flores, D., Castillo, B., Vecchio, G., Walker, J. and Carrasco, J.A., 2022. STRIDE-una aplicación Android para recolectar experiencias de peatones para apoyar a las intervenciones con un foco en la caminabilidad. Estudios de Transporte, 23(2), pp.1-20.
- Taczanowska, K., Tansil, D., Wilfer, J. and Jiricka-Pürrer, A., 2024. The impact of age on people's use and perception of urban green spaces and their effect on personal health and wellbeing during the COVID-19 pandemic—A case study of the metropolitan area of Vienna, Austria. Cities, 147, p.104798.
- Talen, E., Koschinsky, J., 2013. The walkable neighborhood: a literature review. International Journal of Sustainable Land Use Urban Planning, 1, 42–63.
- Yang, S. I., Park, S., 2024. Measuring neighborhood walkability: Scope review of recent 20 audit instruments. Journal of Korea Planning Association, 59(2), 5-18.
- Vallejo-Borda et al. 2020 Vallejo-Borda, J. A., Cantillo, V., Rodriguez-Valencia, A., 2020. A perception-based cognitive map of the pedestrian perceived quality of service on urban sidewalks. Transportation Research Part F: Traffic Psychology and Behaviour, 73, 107-118.
- Vecchio, G., Martens, K., 2021. Accessibility and the capabilities approach: a review of the literature and proposal for conceptual advancements. Transport Reviews, 41(6), 833-854.
- Vecchio, G., Tiznado-Aitken, I., Hurtubia, R., 2020a. Transport and equity in Latin America: a critical review of socially oriented accessibility assessments. Transport Reviews, 40(3), 354-381.
- Vecchio, G., Castillo, B., Steiniger, S., 2020b. Movilidad urbana y personas mayores en Santiago de Chile: el valor de integrar métodos de análisis, un estudio en el barrio San Eugenio. Revista de Urbanismo, (43), 26-45.
- Vecchio, G., Medina, D., Steiniger, S., 2022. Proximidad en la metrópolis que envejece: hacia una clasificación de los barrios de Santiago de Chile basada en la accesibilidad. XLII Congreso Nacional y XXVII Internacional de Geografia, Universidad Alberto Hurtado, Santiago de Chile, Chile. (28. November 2022).
- Walk21, 2017. The Global Sidewalk Challenge [WWW Document]. URL https://www.walk21.com/sidewalks
- Walker, J., Steiniger, S., Canas, C., D'Arcy, L., 2023. Women's perceived walkability at the Luas Tram catchment area in Dublin A data evaluation report using the Walkability.App. Walk21, Cheltenham, UK.