Allam S.Z.Department of ArchitectureFaculty of EngineeringModern Sciences and Arts UniversityGizaEgypt; S-LabSHM StudioCairoEgypt2020-01-092020-01-0920199.78E+12https://doi.org/10.1109/ICSGSC.2019.000-2PubMed ID :https://ieeexplore.ieee.org/document/8906648ScopusSmart Cities Initiative compels smart buildings that respond to surrounding conditions meeting sustainable doctrine. Climate-Responsive buildings require different strategies that fulfill smart pattern needs. Passive design strategies are the road map towards high-performance building design. Thus, it complements bioclimatic discourse. Furthermore, it is a preliminary milestone to international rating systems certification; for example, LEED that adds value to buildings while guarantee Environmentally-conscious Architecture. A Profound study interprets a framework for passive design strategies techniques as a guide for architects, designers and engineers towards indoor thermal comfort that mitigates purchased energy throughout building's Life-Cycle. A prospect of natural, and designed environmental parameters that shapes, controls and influences thermal comfort means and environmental influences measures shall be linked to strategies' techniques in the proposed framework. Enhancing synchronized techniques to inter-perform optimize design results. Validating daylighting and lighting design using dual skin and Voronoi pattern as synchronized techniques, shall promote referring to this Analogous Framework by architects and designers. Nevertheless, a guide to respond to multiple measures is a pragmatic initiative to smart solutions, hence smart communities. � 2019 IEEE.EnglishNatural and designed environmental parametersPassive Design StrategiesSustainable Design OptimizationThermal Comfort MeansThermal Comfort ModelsThermal Comfort ParametersVoronoi Pattern, Climate responsive design, Synchronized TechniquesArchitectural designClimate modelsElectric power transmission networksLife cycleSmart citySmart power gridsSustainable developmentSynchronizationThermal comfortComfort parameterDesign optimizationEnvironmental parameterPassive design strategiesResponsive designsThermal comfort modelsStructural designAnalogous Framework for Passive Design Strategies Using Synchronized Techniques; Validation: Dual-Skin Voronoi Pattern FacadeConference Paperhttps://doi.org/10.1109/ICSGSC.2019.000-2PubMed ID :