Urban Planning
Marziyeh Esmaeelpour; manijeh lalehpour; Samaneh Mamaghani
Abstract
IntroductionNatural hazards, with various types and extent, as recurring and destructive phenomena, have always existed throughout the life of the planet and have always been a serious threat to humans since the creation of mankind (Rajabi et al., 2018: 184). Among the natural hazards, earthquake ...
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IntroductionNatural hazards, with various types and extent, as recurring and destructive phenomena, have always existed throughout the life of the planet and have always been a serious threat to humans since the creation of mankind (Rajabi et al., 2018: 184). Among the natural hazards, earthquake is one of the most horrible ones in the history of mankind, which belongs in the category of immediate dangers. This natural phenomenon can be characterized by their high destructive potential and the brutal killing in a short time (Taghipour, 2016: 195).There are many definitions of vulnerability in the literature. Vulnerability is defined as “a state combining physical, economic and environmental factors, which increases system sensibility to danger” by the United Nations/International Strategy for Disaster Reduction (Peng, 2012: 95). One of the most effective strategies to reduce social and economic losses resulted from earthquakes is to mitigate the vulnerability of society to seismic hazards based on an accurate and scientific risk assessment (Wei et al., 2017: 1289). It is not possible to accurately predict the earthquake, but the earthquake can be studied from the following two aspects, so the casualties caused by the earthquake decrease as much as possible. First, seismic vulnerability should be assessed before the earthquake, and the construction of disaster prevention and reduction system should be strengthened in the regions with relative high vulnerability of population. Second, according to the estimated casualties, the reasonable rescue measures would be deployed to carry out the effective rescue (Zhang et al., 2018: 2).Data and MethodIn the present study, the seismic vulnerability of district 10 of Tabriz due to its proximity to Tabriz fault has been assessed. District 10 is one of the northern areas of the city and its texture is mainly marginal, which increases the vulnerability to earthquake. Various factors affect the vulnerability of an urban area to earthquake including height and age of the buildings, the quality of materials, population density and distance to active faults (Khamespanah et al., 2016: 58). In the present study, 12 factor were applied to investigate the seismic vulnerability of district 10 of Tabriz metropolis: slope, distance to fault, to hazardous installations, to the hospitals and fire stations, population density, residential density, access to open urban public spaces, number of building floors, building quality, materials and urban grain.In order to present the vulnerability map of district 10, thematic layers of the studied criteria were prepared and transformed into fuzzy. Decreasing and increasing linear functions were used to fuzzification the thematic layers. The five fuzzy operators i.e. and, or, product, sum and gamma can be used for combining thematic maps. The operator used in this study to integrate a fuzzy subject layer is the gamma operator. Also, the vulnerability coefficient of district 10 to the average earthquake intensity was calculated. The range of numbers obtained from the vulnerability coefficient is between 0 and 1, indicating lack of damage and a building collapse, respectively. (Ahadnezhad Reveshti et al., 2010: 182).Results and DiscussionIn order to assess the seismic vulnerability, it is necessary to generate a seismic micro zonation map for the study area. To this end, 3 steps were performed as follows:Thematic layers affecting seismic vulnerability were prepared in the GIS environment and their spatial distribution in the district 10 of Tabriz was evaluated.In this step, thematic layers were transformed into fuzzy using fuzzy functions.Fuzzy thematic layers were combined using a fuzzy operator and a seismic vulnerability map was prepared for district 10 of Tabriz.The results of seismic zoning of region 10 of Tabriz using fuzzy logic can be summarized as follows: - About 4.5% of the study area is in a very high vulnerability and 12.6% of its area is in a high vulnerability class. Also, the total area of low and very low vulnerability zones is about 64.9%. Very low vulnerable areas correspond to the barren lands, green spaces and all open spaces of the district. In addition, in Eram neighborhoods in the north of the study area, residential and population density are much lower than others. Some of the southern neighborhoods of this region, such as Sheshgalan and Daveh Chi, are less vulnerable to earthquakes due to the lower population and residential density, proximity to the hospital, to green spaces and less distance to the fire station. . - Neighborhoods such as Khalilabad and Ghorbani in the central parts of district 10, are among the most vulnerable ones to earthquakes. Factors such as high population and residential density, lack of access to urban open spaces are the most important reasons for the high vulnerability of these areas. The central neighborhoods of district 10 are the most vulnerable to earthquake hazard. Due to the high population density in these areas, a large earthquake can lead to severe damage and loss of life in these areas. The results of damage analysis in district 10 of Tabriz, considering a possible earthquake with a magnitude of 10, show that the northern and southern parts of region 10 are in class D0 against a possible earthquake and will be without damage. About 6.4% of urban spaces in the study area are in Class D3, which will suffer significant to severe damage. Finally, about 0.6% of urban spaces in the study area are in class D5. This class includes part of the central neighborhoods and indicates the very high vulnerability of these areas to an earthquake.ConclusionFindings show that vulnerability is higher in the central neighborhoods of district 10. Factors such as high residential and population density, old tissue, distance to hospitals and lack of access to public open spaces are the most important factors that cause very high seismic vulnerability in this part of the city. District 10 of Tabriz is located near the large north fault of Tabriz and in this regard, the whole area is vulnerable to earthquake. However, proximity to the fault alone cannot be a measure of the vulnerability of urban buildings and structures, but planning and physical factors in the city can aggravate or, conversely, reduce seismic vulnerability. The results of the seismic vulnerability coefficient of the study area to a possible earthquake with a magnitude of 10 show that the buildings located in the central neighborhoods of district 10 have the highest seismic vulnerability. Due to the high population and residential density in these areas, during an earthquake there will undoubtedly be very high and catastrophic casualties and financial losses.
GIS&RS
Leila Dehghani Firoozabadi; Alireza Ildoromi; Mir Mehrdad Mirsanjari; sahar abedian
Abstract
IntroductionToday, tourism is considered as one of the most important activities in the world, and it has high potential in generating foreign currency incomes and creating jobs. According to the definition, ecotourism is a responsibly journey to natural areas that protect the environment and improve ...
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IntroductionToday, tourism is considered as one of the most important activities in the world, and it has high potential in generating foreign currency incomes and creating jobs. According to the definition, ecotourism is a responsibly journey to natural areas that protect the environment and improve the lives of local people. Despite having the necessary potential in tourism in Iran, it has not succeeded in attracting tourists. The first step towards achieving tourism development in the country is identifying, assessing, and introducing the existent potentials and capabilities to provide development opportunities with comprehensive knowledge and planning. Dorud is one of the unparalleled regions in Lorestan province due to the availability of sufficient water resources that can be a good place for water resource recreation. Unfortunately, despite these tourist attractions, there has not yet been an organized approach to land use planning that takes into account these natural talents of the region for water tourism. According to the mentioned issues, the present study intends to use a multi-criteria evaluation to identify and zonate suitable areas of water tourism, and its purpose is to properly plan the tourism with environmental considerations and prioritize these areas in the Dorud city.Materials and methodsDorud is situated in Lorestan Province. It is located between latitudes 33°16'-33°44'N and longitudes 48°47'-49°19'. In this study, by investigating the factors influencing the zoning of tourism-prone areas, Dorud region has been zoned based on multi-criteria evaluation model. Multi-criteria evaluation is a structured process for defining goals, formulating criteria, evaluating, and solving decision problems. In this study, the criteria was detemined based on the criteria of the ecotourism national document, the criteria of the ecological potential assessment, and the ecotourism criteria in the protected areas. After the preparation of the criteria maps, it is necessary to standardize the maps that have different ranges and scales. In this research, Fuzzy and Boolean methods were used to standard the scales. In order to fuzzy the criteria maps, the pixels are ranked based on the membership degree in the fuzzy range from 0 to 255, and high degree of membership indicate more desirability of pixels for tourism. In the Boolean method, zero values are inappropriate areas, and values of one indicate suitable areas for development. In order to weigh the criteria, the pairwise comparison method was used in the form of analytical hierarchy process (AHP), and then the maps were combined using the weighted linear combination method. Then, in order to prepare the final suitable map, it is necessary to extract the zones, which have 70% suitability and have more than 5 hectares. Finally, suitable zones for recreation prioritized by TOPSIS model.Result and discussionIn this research, the effective environmental criteria were considered as informational layers in water recreation zoning. Criteria were taken with two views: one for water recreation in lotic water resources, and the other on flowing water resources. The effective environmental criteria in water recreation zoning classified in 5 criterion groups involved physical, ecological, fundamental, safety, and social-economic and 27 sub criterion for water recreation in Lotic water resources, and 26 sub criterion for water recreation in lentic water resources. At this step, due to the difference in the type of tourism recreation in lotic and flowing water resources, two types of utility maps for the flowing water resources (waterfall and rivers) and the latic water recources (mineral fountain, dam, water reservoirs, sarab, lakes and wetlands) were prepared. Then, in order to zoning the area, the final raster layer was classified into four categories based on the suitability of the land. Thus, the first categort with high potential (the suitability of more than 150), the second category with the average potential (the suitability of 110 to 150), the third category with the weak potential (the suitability of 50 to 110), and the forth category without suitability (0 to 50) were considered. In the next step, the first category was considered as the best class for the water recreation, and extracted from the suitable map. Based on the performed classification, 8.47% of the area has high potential for recreation in flowing water resources, and 10.28% of the area has high potential for recreation in latic water resources. Finally, six suitable zones in each of the recreations were selected, and tourism zones were prioritized according to the TOPSIS method.ConclusionThe results of criteria weighting for latic water resources showed that distance from lake, wetland, sarab, dam and water reservoirs are the most important criteria in suitable recreation areas. In addition, the results of the combination of AHP and TOPSIS in water resources showed that the slope and depth with a weight of 0.182 and, 0.173, respectively are the most important indicators in this model, respectively. Consequently, results showed that Merok dam, Mahi hamyane Sarab and pond, Heshamatabad 2 pond zones respectively have highest preferences for water recreation in lotic water resources. In relation to the tourism recreation in flowing water resources, weighting criteria shows that distance from the river, slope and height are the most important. In addition, the results of the AHP and TOPSIS combination in flowing water resources show that the slope, water speed, and water volume with a weight of 0.191, 0.171, and 0.140 are three important indicators in this model, respectively. As a result, Sezar River, Gaharrood 1 and Gaharrood 2 have highest preferences for water recreation flowing water resources. The proposed zones in this research were determined based on ecological and socio-economic criteria that indicate the high capability of the zones for this type of recreation. Of course, in order to implement tourism goals, further studies are needed in areas such as determining the ecological capacity of the region, soil erodibility and so on.
Geomorphology
negin aali; Masoumeh Rajabi; Mir asadolah Hejazi; Shahram Roustaie
Abstract
Introduction Natural parameters are the main and determining factors in the physical development of mountainous cities. One of the mountainous cities of Iran, which has physically developed due to these parameters, is the city of Marivan. Marivan is located in the west of Kurdistan province, near the ...
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Introduction Natural parameters are the main and determining factors in the physical development of mountainous cities. One of the mountainous cities of Iran, which has physically developed due to these parameters, is the city of Marivan. Marivan is located in the west of Kurdistan province, near the western borders of the country, at a distance of 16 km from Iraq, between 25 degrees and 21 minutes to 35 degrees and 48 minutes north latitude and 45 degrees and 58 minutes to 46 degrees and 45 minutes east longitude. According to the last population and housing census conducted in 2016, it has a population of 151188. The city is located at the starting point of the Marivan-Esfandeghe geological region and is located in the geological-morphological structure of the young Zagros. Therefore, identifying and evaluating the factors influencing the physical development of this city is really important. To do this, the characteristics of elevation, slope and direction of slope, fault, focal points of earthquake occurrence, main and secondary waterways have been used.With regard to its location in northwestern Iran after the eight-year Iran-Iraq war, the study city has experienced significant physical growth and development due to its unique and pristine vital and natural location, which led to the development of this city. Regardless of geological constraints. At present, the city has the potential to benefit from high potentials in the fields of natural and cultural tourism, including (Zarivar Natural Lake, Bashmakh Regional Area, and Border Market, Bilo Plain, Garan Dam, Oramanat and Bazaar for supplying foreign supplies and products. It has become one of the dynamic and active economic-tourism hubs in the west of the country and there is a growing growth and development in the city; therefore, it is inevitable to pay attention to geomorphological factors and determine optimal directions for the development of this city. Methodology According to the National Physical Plan of Region 5, the city is in a relatively high risk of earthquakes, and with respect to available and cited maps, there are 7 sub-faults in the northern part of Marivan and 2 main faults in the western part of the city. For this reason, the physical development of the city is subject to certain restrictions. Marivan is also in a relatively high risk of earthquakes in terms of location in relation to natural hazards.It is an applied research and the method of work is descriptive-analytical and also the fuzzy logic model has been used to evaluate and model suitable areas for development so that each layer is fuzzy according to fuzzy membership functions in GIS environment. And then multiplication and addition operations and different values of fuzzy gamma have been performed on these layers. After overlapping and multiplying the fuzzy layers, a zoning map of the appropriate development route of the city was prepared and divided into 5 classes including completely suitable, relatively appropriate, appropriate, inappropriate and completely inappropriate for the physical development of the city.In the study, library methods, documentary and field studies have been used to collect the desired information and data. To evaluate the optimal development of urban lands, slope indicators, slope direction, fault zoning, main and secondary waterways, erosion, earthquake-prone points in and around the area have been used. The fuzzy and hierarchical analysis process (AHP) was used. Results and discussion In order to evaluate and weigh the information layers and to determine and score the impact factor of geomorphological indicators affecting urban development while extracting and reviewing the criteria examined in various valid researches and articles, scientific opinions and views of ten experts and specialists were counted and monitored. In order to determine the importance of each of the studied indicators on the location and physical development of Marivan city, the opinions and views of the experts were given based on the superiority of one factor over another and based on expert judgment, scores between 1 and 9 were given. The equivalence of expert scores based on fuzzy method was done by the authors of the article with the help of AHP & FUZZY software.Since 1996, due to the increasing growth and development of the city and the formation of informal settlements, the development of the city has taken place without considering geomorphological considerations, and this has caused the spatial-physical development of Marivan in the northern parts near the existing faults. The development of the city has taken place at relatively high risk. Conclusion Summarizing the research, it has been determined that the southern lands of this city have less proportion to the development of the city due to its proximity to Zarivar Lake and its location along the main and secondary waterways and its proximity to the earthquake centers. And to some extent, the East enjoys a higher level of development.
Urban Planning
Zahra Kamelifar; shahrivar rostaei
Abstract
What is happening today at the dawn of the 21st century as a crisis in our cities and changes the cities to an ugly and unhappy places and makes citizens tired and prosaic is the breakdown of human-nature transplantation which has unfortunately been neglected in recent years in urban development and ...
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What is happening today at the dawn of the 21st century as a crisis in our cities and changes the cities to an ugly and unhappy places and makes citizens tired and prosaic is the breakdown of human-nature transplantation which has unfortunately been neglected in recent years in urban development and the urbanization system of the country. The importance of social health in today's densely populated and polluted cities is one of the main factors in attention to urban green spaces. Today, in many cities in the world, the development of health and social welfare policies in cities has emphasized on the availability of urban green spaces in the closest accessible areas for residential areas and workplaces. In the present study the optimal deployment of urban green spaces in the zone 8 of Tabriz has been assessed. Zone 8 as the central texture of Tabriz which has mainly a commercial-residential role (given the prevailing commercial role) receives a massive population from different parts of the city and even the province during certain times of the day. However only a few pieces of green space have been built in this zone. Regarding this issue, it is necessary to pay attention to the construction and optimal location of urban green space in accordance with demographic needs of the region.
Urban Planning
Mohammad Taleai; Meysam Aghamohammadi; Mohammad Karimi; Ghasem Javadi
Abstract
Rapid, irregular and unbalanced growth of the world population during past years, particularly in developing countries, have been caused many problems in the areas of environmental, economic, social and cultural for urban planners. These situations request new methods and tools to model and predict urban ...
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Rapid, irregular and unbalanced growth of the world population during past years, particularly in developing countries, have been caused many problems in the areas of environmental, economic, social and cultural for urban planners. These situations request new methods and tools to model and predict urban future changes. Due to simple and dynamic structure and utilizing spatial characteristics, Cellular Automation (CA) model widely uses in spatial-temporal modeling problems such as urban extension. This paper develops a Fuzzy-CA method to model urban extension. In conventional CA method, state and position of pixels and transition rules are defined certainly. The definitive expression of components of the complex processes needs a large amount of data. However in most cases accurate data are not available. As a result, integration of CA method and fuzzy theory would be useful to model urban extension. In this paper a Fuzzy-CA method is developed and tested in Shiraz city between the years 2004 to 2009. The results of the proposed method show 80% accuracy in comparison to real data have been captured from satellite images. However, an accuracy of 75% has been reported for this case study with utilizing conventional cellular automation.
Iesa Jokar Sarhanghi; Hosein Jabbari
Volume 19, Issue 51 , April 2015, , Pages 81-105
Abstract
It is impractical to exactly uncover the degree of potential of the areas for the land use purposes. However, the application of fuzzy logic, as a mathematical modeling logic of imprecise and vague processes, can pave the way so as to do processing modeling and to determine the ecological potential. ...
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It is impractical to exactly uncover the degree of potential of the areas for the land use purposes. However, the application of fuzzy logic, as a mathematical modeling logic of imprecise and vague processes, can pave the way so as to do processing modeling and to determine the ecological potential. In the present research the ecological urban development model of West Azerbaijan was considered as the basis and performed using fuzzy logic. The fuzzification of ecological resources maps and indeed fuzzy inference system in geographic information systems (GIS) is a way of determining the fuzzy membership degree and the overlapping of different layers for urban development. The results of the ecological evaluation of urban development and analysis of fuzzy logic strengths and weaknesses as compared to implementation of Makhdoom model illustrated that the fuzzy inference engine in the geographic information systems can yield much real output particularly in the sides of borders which form the ecological resources maps. Finally, this study invites further economic, social, and modeling studies in the issues of assigning lands for different usages