136 DAFTAR PUSTAKA Ahvenniemi, H., Huovila, A., Pinto-Seppä, I., & Airaksinen, M. (2017). What are the differences between sustainable and smart cities. Cities, 60, 234–245. Allam, Z., Bibri, S. E., Chabaud, D., & Moreno, C. (2022). The theoretical, practical, and technological foundations of the 15-minute city model: Proximity and its environmental, social and economic benefits for sustainability. Energies, 15(16). https://doi.org/10.3390/en15166042 Andrés, L., & Padilla, E. (2018). Driving factors of GHG emissions in the EU transport activity. Transport Policy, 61, 60–74. Ariza-Álvarez, A., Arranz-López, A., & Soria-Lara, J. A. (2021). Comparing walking accessibility variations between groceries and other retail activities for seniors. Research in Transportation Economics, 87, Article 100745. Ariza-Álvarez, A., Soria-Lara, J. A., Arce-Ruiz, R. M., López-Lambas, M. E., & Jimenez-Espada, M. (2021). Experimenting with scenario-building narratives to integrate land use and transport. Transport Policy, 101, 57-70. Balletto, G., Ladu, M., Milesi, A., & Borruso, G. (2021). A methodological approach on disused public properties in the 15-minute city perspective. Sustainability, 13(593). https://doi.org/10.3390/SU13020593 Benedict, M. A., & McMahon, E. T. (2006). Green Infrastructure: Linking Landscapes and Communities. Island Press. Cascetta, E., Cartenì, A., & Montanino, M. (2013). A new measure of accessibility based on perceived opportunities. Procedia - Social and Behavioral Sciences, 87, 117 –132. https://doi.org/10.1016/J.SBSPRO.2013.10.598 Caselli, B. (2021). From urban planning techniques to 15-minute neighbourhoods: A theoretical framework and GIS-based analysis of pedestrian accessibility to public services. European Transport/Trasporti Europei. https://doi.org/10.48295/et.2021.85.10 Chanan, G., & Miller, C. (2013). Rethinking community practice: Developing transformative neighbourhoods. Bristol: Policy Press. Cheng, L., Caset, F., De Vos, J., Derudder, B., & Witlox, F. (2019). Investigating walking accessibility to recreational amenities for elderly people in Nanjing, China. Transportation Research Part D: Transport and Environment, 76, 85–99. Cheng, L., Chen, X., De Vos, J., Lai, X., & Witlox, F. (2019). Applying a random forest method approach to model travel mode choice behavior. Travel Behaviour and Society, 14, 1-10. Christaller, W., & Baskin, C. W. (1966). Central places in Southern Germany. Prentice Hall. Cohen, B. (2006). Urbanization in developing countries: Current trends, future projections, and key challenges for sustainability. Technology in Society, 28(1-2), 63-80. https://doi.org/10.1016/j.techsoc.2005.10.005 Creutzfeldt, B. (2018). Urban mobility and the struggle for street space in Jakarta. Journal of Urban Planning, 33(4), 273-289. 137 Delbosc, A. (2012). The role of well-being in transport policy. Transport Policy, 23, 25-33. https://doi.org/10.1016/J.TRANPOL.2012.06.005 Duany, A., Plater-Zyberk, E., & Speck, J. (2000). Suburban Nation: The Rise of Sprawl and the Decline of the American Dream. North Point Press. Durand-Lasserve, O., LeGates, R., & Al., E. (2020). The 15-minute city: For a new chrono-urbanism. Le Monde. Retrieved from https://www.lemonde.fr/blog/moreurban/2020/07/15/the-15-minute-city- for-a-new-chrono-urbanism/ Eggimann, S. (2022). The potential of implementing superblocks for multifunctional street use in cities. Nature Sustainability, 5(5), 406–414. Eggimann, S., Lischer, P., & Bolliger, J. (2021). Evaluating superblock design to enhance urban greening. Journal of Physics: Conference Series, 2042, IOP Publishing. Ehrenhalt, A. (2012). The Great Inversion and the Future of the American City. Knopf. El-Geneidy, A., van Lierop, D., Grisé, E., Boisjoly, G., Swallow, D., Fordham, L., & Herrmann, T. (2017). Get on board: Assessing an all-door boarding pilot project in Montreal, Canada. Transportation Research Part A: Policy and Practice, 99, 114-124. Eppli, M. J., & Benjamin, J. D. (1994).