Introduction: Effective urban planning relies on comprehensive knowledge of both physical and non-physical urban elements, which is vital for developing GIS models that support sustainable urban development by providing realistic representations of urban contexts. Accurate 3D models are critical for analyzing urban systems and processes. Aim: This study aimed to evaluate the impact of 3D GIS urban digitizing techniques and visualization methods on the feasibility of urban codes in preserving urban identity and character, with a focus on Rosetta City, Egypt. Methods: The research employed descriptive, analytical, and empirical approaches. Field visits, surveys, GIS simulations, and digital tools like ESRI CityEngine were used to create 3D GIS models. These models help digitize and analyze urban code parameters by using the form-based code approach. Results: The study demonstrates that 3D GIS models can enhance urban planning by improving the understanding of urban codes and their implications for preserving urban identity. The models provide insights into maintaining historical character while supporting development. Discussion: The findings highlight the potential of 3D urban models to improve decision-making in urban planning and underscore the value of such models in preserving the unique identity of historic districts like Rosetta City, offering a framework for similar regions.

Batty, M. (2013). The new science of cities. Cambridge, MA: The MIT Press, 520 p.

Billen, R., Cutting-Decelle, A.-F., Marina, O., de Almeida, J.-P., Caglioni, M., Falquet, G., Leduc, T., Métral, C., Moreau, G., Perret, J., Rabino, G., San Jose, R., Yatskiv, I., and Zlatanova, S. (2014). 3D city models and urban information: current issues and perspectives. European COST Action TU0801. Les Ulis: EDP Sciences, 115 p.

MHUC, Egyptian Ministry of Housing, Utilities, and Urban Communities (2008). Unified Building Law No. 119/2008 and its executive appendix Ministerial Decree no. 144/2009. Cairo: Egyptian Ministry of Housing, Utilities, and Urban Communities. Published in The Egyptian Al-Waqa'i' newspaper, Issue No. 82 (Supplement 1), 8 April 2009.

FBCI (2023). Form-based codes. [online] Available at: https://formbasedcodes.org/ [Date accessed October 05, 2023].

Kipper, R. and Fischer, M. (eds.) (2009). Cairo’s informal areas: between urban challenges and hidden potentials. Cairo: German Technical Cooperation, 224 p.

Kitchin, R. (2014). The data revolution: big data, open data, data infrastructures and their consequences. Thousand Oaks, CA: Sage Publications, 240 p.

Souza, L. and Bueno, C. (2022). City Information Modelling as a support decision tool for planning and management of cities: A systematic literature review and bibliometric analysis. Building and Environment, Vol. 207, Part A, 108403. DOI: 10.1016/j.buildenv.2021.108403.

Lynch, K. (1960). The image of the city. Cambridge, MA, and London: The M.I.T. Press, 194 p.

MAP, Michigan Association of Planning (2007). Form-based codes; Smart growth tactics. Issue 28., USA. [online] Available at: https://www.mml.org/pdf/map_article_issue28.pdf [Date accessed April 10 2023].

NOUH, The National Organization for Urban Harmony, 2008. Urban Harmony Periodicals. [Online]

Available at: http://urbanharmony.org/Periodicals/1, [Date accessed: March 12 2023].

NOUH, National Organization for Urban Harmony (2022). Urban Harmony guide for Rosetta city. [Online] Available at: http://www.urbanharmony.org/nouh/Upload/Instructions/AttachmentFile/35/rashid2022.pdf, [Date accessed: March 12 2023].

Parolek, D. G., Parolek, K. and Crawford, P. C. (2008). Form-based codes: a guide for planners, urban designers, municipalities, and developers. Hoboken: John Wiley & Sons, 368 p.

Sims, D. (2015). Egypt’s desert dreams: development or disaster? Cairo: American University in Cairo Press, 401 p.

Sitkowski, R. J. and Ohm, B. W. (2006). Form-based land development regulations. Urban Lawyer, Vol. 38, No. 1, pp. 163–172.

Talen, E. (2012). City rules: how regulations affect urban form. Washington, DC: Island Press, 200 p.

Tiesdell, S., Oc, T., and Heath, T. (1996). Revitalizing historic urban quarters. Oxford: Architectural Press, 234 p.

Townsend, A. M. (2013). Smart cities: big data, civic hackers, and the quest for a new utopia. New York: W. W. Norton & Company, 400 p.

McGeough, U., Newman, D., and Wrobel, J. (2014). Model for sustainable urban design. [online] Available at: https://www.energy.gov/sites/prod/files/2013/11/f4/model_for_sustainable_urban_design.pdf [Date accessed March 21 2023].

UNESCO (2003). World Heritage Convention. Tentative Lists. Historic quarters and monuments of Rosetta/Rachid. [online] Available at: https://whc.unesco.org/en/tentativelists/1831/ [Date accessed December 20, 2023].

UN-HABITAT (2006). Rosetta. Kenya: United Nations Human Settlements Programme, 8 p.

Voghera, A. and La Riccia, L. (2019). Spatial planning in the big data revolution. Hershey PA, USA: IGI Global, 359 p.

Zhang, Y., Azzali, S., Janssen, P., and Stouffs, R. (2018). Design for walkable neighborhoods in Singapore using form-based codes. In: 11th International Forum on Urbanism (IFoU) Congress 2018, December 10–12, 2018, Barcelona, Spain.

Zhang, Y. and Schnabel, M. A. (2017). Parametric modeling in form-based urban design code for high-dense cities. in Turrin, M., Peters, B., O'Brien, W., Stouffs, R., and Dogan, T. (eds.) Proceedings of the Symposium on Simulation for Architecture and Urban Design 2017: SimAUD 2017, May 22-24 Toronto, Canada, pp. 265 - 272.

Yu, Z. (2013). Regulation of urban character: style, colour and historic character in a modern Chinese city - the case of Harbin. PhD Thesis in Humanities.