Explaining the Process of Physical Balance Monitoring in the Model of Balanced Renovation of Worn-Out Urban Textures Using the Dynamic System Method (A Case Study of the Central Worn-Out Texture of Zanjan)
Subject Areas :ali osanlu 1 , alireza andalib 2 , shirin toghyani 3
1 - Department of Urban planning, Najafabad Branch, Islamic Azad University, Najafabad, Iran
Alireza Andalib, Department of Urban planning, Najafabad Branch, Islamic Azad University, Najafabad, Iran
2 - Department of Urban planning, Najafabad Branch, Islamic Azad University, Najafabad, Iran
3 - Department of Urban planning, Najafabad Branch, Islamic Azad University, Najafabad, Iran
Keywords: Worn Texture, Dynamic system, Systems thinking, balanced renovation,
Abstract :
Today, it is critical to apply the teachings and experiences of the past by using the models, especially a conceptual model making use of a local theory being compatible with the context of our country in order to improve the urban environment, such as renovating urban decay. Therefore, this research based its framework on a new process to achieve positive changes in rejuvenating decay areas. In this article, the "Balanced Renovation of Urban Decay" Theory was first explained and it was used in a case study (central urban decayed tissue of Zanjan). The results of the first step were used for "dynamic modeling of decayed networks". The research variables used for modeling included a large number of indicators, components and social elements of the urban decay, resulting from valid theoretical sources and field studies, questionnaires, as well as using the experts’ opinions through Delphi method. This is while they are finally reduced to important and effective indicators using factor analysis method. The present study was applied in terms of objective and a survey in terms of methodology. The statistical population of this study consisted of the residents and users of the decay central part of Zanjan, i.e., 375 citizens selected as the sample population by random sampling. The findings of this study in the "Balanced Renovation Model" suggested that the urban decay of central Zanjan was out of balance from a social dimension and the priorities for action to balance the area were determined. The output of the "Dynamic Software System Model" also indicated that system will be moving in an unbalanced direction in the future. Dynamic system models also confirm the accuracy of Balanced Theory results. Today, it is critical to apply the teachings and experiences of the past by using the models, especially a conceptual model making use of a local theory being compatible with the context of our country in order to improve the urban environment, such as renovating urban decay. Therefore, this research based its framework on a new process to achieve positive changes in rejuvenating decay areas. In this article, the "Balanced Renovation of Urban Decay" Theory was first explained and it was used in a case study (central urban decayed tissue of Zanjan). The results of the first step were used for "dynamic modeling of decayed networks". The research variables used for modeling included a large number of indicators, components and social elements of the urban decay, resulting from valid theoretical sources and field studies, questionnaires, as well as using the experts’ opinions through Delphi method. This is while they are finally reduced to important and effective indicators using factor analysis method. The present study was applied in terms of objective and a survey in terms of methodology. The statistical population of this study consisted of the residents and users of the decay central part of Zanjan, i.e., 375 citizens selected as the sample population by random sampling. The findings of this study in the "Balanced Renovation Model" suggested that the urban decay of central Zanjan was out of balance from a social dimension and the priorities for action to balance the area were determined. The output of the "Dynamic Software System Model" also indicated that system will be moving in an unbalanced direction in the future. Dynamic system models also confirm the accuracy of Balanced Theory results.
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