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Showing 2 results for Taher Tolou Del
Volume 10, Issue 2 (Summer 2020)
Abstract
Background: Human comfort involves their physical, psychological and mental comfort. There are several factors that may affect human physical comfort; among them luminous, acoustic and thermal comfort can be mentioned. Usually in researches done in the field of human physical comfort, researchers tried to predetermine human perceived comfort by measuring some physical factors, whilst there are also other ones that can affect human comfort and are necessary to be considered.
Aims: The aim of this paper is to determine the non-physical factors that affect human physical comfort. Another aim is to achieve the model of human physical comfort affected by non-physical factors.
Methods: In this paper by conducting a library research, researches done in the field of non-physical factors that affect human physical comfort were investigated and analyzed; in this way that physical comfort evaluation methods for users of a space, factors affecting it, places in which those researches were done and those researches results were classified and analyzed. In this paper, among factors that can affect human physical comfort, luminous comfort, acoustic comfort and thermal comfort were studied. Analysis method was statistical and by modeling charts and defining oriented trend process in previous researches.
Findings and Conclusion: Findings of this paper indicated that human physical comfort in a space can not be predicted only by relying on physical factors that were usually used in comfort-related indicators.
Volume 14, Issue 4 (Winter 2025)
Abstract
Aims: Since earthquakes have high destructive effects on buildings, a structure can be stable and durable against the horizontal destructive forces as wind and earthquake those are the goals of high-rise architects and designer engineers. In this research, we seek to show the model of living nature that will lead us towards providing structural strength against the lateral force of earthquakes and reducing its seismically destructive effects.
Methods: The current research has been carried out by using a descriptive survey method. Statistical population, quality analysis by Delphi (Q) method of professional engineers notes and data measurement was done on the of 46 experts opinions in the field of architecture and structure by targeted non-random sampling method. The results of the survey have been analyzed by manual methods and statistical software (SPSS) in the analytical explanation of the main factors.
Finding: The results of the research show that the realization of high-rise building seismic stability would be achieved by the main four factors as: "naturalistic seismic architecture", "sustainable green architecture", "environmentally stable architecture" and "stable seismically geometry". It is possible as feasible by the main characteristics in the architectural design of the seismic bionic tower.
Conclusion: In the end, based on the resulting four exploratory strategies, the explanation of solutions that are appropriate to the research results, that is; High-rise seismically stable architecture with the pattern of living organisms, as an achievement in accordance with the demands and criteria obtained in the present research, are presented
