Zeynab Aliabadi; Mahid Nastaran; Farzane Pirani; Farzane Sheikhzade
Abstract
Extended Abstract Introduction The deployment of every urban element in the position of the body - a particular area of the city - is subjected to certain principles, rules and procedures that, if followed, will ensure the success and effectiveness of thatelement in the same place, otherwise there will ...
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Extended Abstract Introduction The deployment of every urban element in the position of the body - a particular area of the city - is subjected to certain principles, rules and procedures that, if followed, will ensure the success and effectiveness of thatelement in the same place, otherwise there will be many problems with the occurrence it does.Therefore, achieving equilibrium in the spatial distribution of resources and services is the main goal of the planners. Considering the importance of locating and its position in various projects, the importance of the location of the fire stations and the direct impact on its model and performance will be determined. Provision of fire station services requires their proper location in order to distribute them appropriately to minimize their financial losses.Locating fire stations and determining the number and location of stations guarantee the safety of citizens in the event of any incident. Due to the high importance of the 3rd district of Isfahan among other areas of the city, attentionto safety issues in this context is urgently needed. The 3rd district of Isfahan is the heart of the city which has an ancient heritage. One of the important issues facing urban management is the timely delivery of firefighting during a fire.There was no responsive station in this area. Thus, the need to address the problem of locating and distributing fire stations is of great importance in urban planning. Therefore, the choice of optimal location and appropriate distribution of fire stations will bethe overall goal of this study to increase the safety level. Materials & Methods The present research is a descriptive-analytic research in terms of purpose, and an applied research in terms of the nature and method of the study. Part of the theoretical information was collected through library studies, the use of documents, records and reports. To understand the scope, the studies conducted by the consultant as well as field observations and observations have been used. In the analysis section, using Analytic Hierarchy Process (AHP) and geospatial mappingmodel. In this study, at first, the criteria and the sub criteria for determining the location of the fire station were weighed by the Analytic Hierarchy Process (AHP) using Expert Choice software, and then, by digitizing the layers in the GIS, eachmap layer was produced for each of the criteria, and then the layers were overlapped by applying the weights of each layer, and the fire station's optimal locations are proposed. Results & Discussion Among the urban facilities, the construction of fire centers in the area due to the deployment of the old, historical and living Qaiseriyah market, and the lack of emergency exit routes and relief during the fire, as well as the existence of workshops and warehouses connected to the market, it is also important that it should be added to the consequences of other incidents. Therefore, this study was aimed at increasing the level of safety by locating fire stations in Isfahan's region 3using AHP and location model in GIS environment. After normalizing the maps with the Reclassifying tool, and according to the categories at this stage with the Raster Calculator tool, the sum of all generated layers multiplies the values for each layer obtained from AHP andmaps of the proposed locations for Fire station was created. Based on the final map (Figure 19), the most suitable optimal points for the fire station were selected based on the criteria analysis. These points of choice have the proper features, including proximity to access level 2, abandoned land, an area of 1500 square meters up, construction density and high population density in the periphery. According to (Fig. 19), three-point distances were investigated using the Euclidean Distance tool. On the other hand, according to the existing standard, for every 50,000 people we need to build a fire station; therefore, in addition to a fire station in the area, it is necessary to deploy another station. Finally, according to the aforementioned maps, by examining the intervals between the existing and proposed fire stations, the final map (Fig. 20) is based on the noninterference of the functional radii of 1200 meters of stations relative to each other; the third point was deployed as the optimal and the most common location of the firestation. Conclusion By studying the present situation and field observations of the fire stations in Isfahan's region 3, it has only one center, and according to the volume of utilizations and activities of importance in the region as well as theheight of the region with historic monuments at national and international levels, the issue of safety in the context of this region is very important. Therefore, based on the population and region level, the existing fire station does not cover the possibility of service within a 3-5 minute interval throughout the entire area. Considering that the area has organic and intact texture. Based on field observations and existing standards, residents need urban equipment, including fire stations. Therefore, the purpose of this study was to locate another fire station based on the region's requirements, standards and indicators. Therefore, effective measures in area 3 including demographic density, availability, consistent use, functional radius, building quality, size of parts, construction density, and user-friendliness were considered. Eventually, considering the 1200 meter radius, the location of the optimal fire station was proposed on Neshat Street.
Marzieh Khanahmadi; Mahdi Arabi; Alireza Vafaienejad; Hani Rezaiean
Volume 23, Issue 89 , May 2014, , Pages 88-98
Abstract
Constructing new urban facilities needs a precise investigation on the right method of establishing such facilities in different areas of the city. Selecting an optimal place based on different and sometimes controversial characteristics is the first fundamental issue in correct allocation of urban facilities. ...
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Constructing new urban facilities needs a precise investigation on the right method of establishing such facilities in different areas of the city. Selecting an optimal place based on different and sometimes controversial characteristics is the first fundamental issue in correct allocation of urban facilities. This is especially important if crucial issues like human life are also considered. Thus due to the importance of endangered human lives, optimal selection of fire stations is considered to be crucial. Considering the uncertainty about information sufficiency and comprehensiveness of inferences drawn by tools like spatial information system, fuzzy model is used in combination with analytic hierarchy process. In the beginning step of the study, influential factors in locating fire stations were determined and standard maps were produced and prepared. During the study, a survey performed on the experts opinions indicated that these criteria do not have the same influence in locating stations. Thus, these criteria should be assigned different weights based on their importance and influence. Analytic hierarchy process (AHP) and Export choice software were used to weight these criteria. After collecting expert opinions and in order to avoid possible non-expert opinions, adaptability of the judgments were calculated. After verifying CR values, these weights were used in subsequent steps. In the next step, fuzzy logic was used to rate these layers. Prepared layers were transformed into fuzzy logics using different membership functions which were selected according to experts’ opinion. Finally, AHP and weighted linear combination (WLC) were used to integrate fuzzy criteria with fuzzy membership functions and calculated weights, and in this way appropriate zones for building fire stations were identified and determined. Simply relying on the map results cannot have the necessary efficiency in locating an optimal place for the fire stations. Therefore, standard functional radius of available stations were determined using network analysis in GIS environment. Then, places with a high score for building stations and those covering whole area in a standard time were selected. This research seeks to display the efficiency of applying integrative logic for ranking layers using AHP in GIS environment. The integrated model benefits from high capabilities and it can be applied for different goals (selecting the optimal place for a site) and in different spatial situations.