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Multilevel model and its application in evaluation of medicine policy interventionMultilevel model and its application in evaluation of medicine policy interventionMultilevel model and its application in evaluation of medicine policy interventionMultilevel model and its application in evaluation of medicine policy intervention

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Abstract : One of the pillars of architecture is modern environmental techniques, in which modern architectural theories seek to achieve environmental compatibility between building materials and the environment. This is done through the use of modern environmental technologies and treatments in buildings in general and in façades in particular. The façades of buildings that use modern environmental architectural technologies and treatments allow for an increase or decrease in lighting, ventilation, and temperature. These are the conditions of internal spaces that require consideration by the architectural designer when using modern environmental architectural techniques and treatments. This achieves compatibility with climatic variables throughout the year. Therefore, the research aimed to identify the applications of modern environmental technologies in building façades, how to achieve thermal comfort for users, and the extent to which they rationalise the energy consumed in achieving thermal comfort. To achieve the research goal, the study analysed the covers of eight buildings in terms of modern environmental technologies (mobile façades). An analytical comparison was also conducted between the study cases to determine how these technologies achieve thermal comfort, hence the extent of the impact of applications of modern environmental technologies (mobile interfaces) became clear. About case studies in obtaining a built environment characterised by appropriate thermal comfort for users, as well as the extent of rationalisation of energy consumed in achieving thermal comfort in the interior spaces of buildings..
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Abstract : Heritage areas are exposed to many changes and factors causing their urban deterioration. Many of them suffer from urban deterioration that negatively affects their many aspects; therefore, many countries sought urban conservation projects and used many different policies. However, they used a general policy to deal with the deteriorating heritage area as a whole and lacked linking every manifestation of urban deterioration to the most appropriate policy. Therefore, the main goal of the research is to determine the methods and conservation interventions that are most appropriate for manifestations of urban deterioration in an attempt to achieve the continuity of conserving these areas. The research used the descriptive analytical method and reviewed the most important literature related to the development of urban preservation charters, moving to the policies and methods used for urban conservation, and then presenting the appearances of urban deterioration in heritage areas, conducting open interviews and a questionnaire with (30) professional experts and executives in the field of heritage, and analyzing data using (SPSS), to reach the most important manifestations of urban deterioration that have the most negative impact on heritage areas and link them to the most appropriate policies for dealing with, from the point of view of experts, the conservation and sustainability of heritage areas. The most important results reached are identifying the methods and conservation interventions most appropriate for each manifestation of deterioration in heritage areas..
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Abstract : Memristors indeed represent a growing area with a range of intriguing properties, rendering them valuable for both storage and computing high level applications. To leverage memristor logic in complex Neuromorphic Computing Systems, particularly in models like Memristor-based Neural Networks for optimizations, the integration of high-speed and low-latency sub-systems such as adders and multipliers becomes crucial. The inherent properties of memristors, coupled with their ability to perform various logic operations, make them well-suited for the demands of neuromorphic computing, where parallelism, efficiency, and adaptability are paramount. By harnessing memristors in adders and multipliers, these systems can achieve enhanced computational capabilities, supporting the development of efficient and powerful neural network models. As first cut of this work, The design of a memristor was evaluated in terms of current, voltage, and resistance using the MATLAB tool, with its performance thoroughly analyzed. Subsequently, a high-speed, low-latency multiplier with enhanced throughput was implemented, accompanied by a detailed examination of its benefits and its integration with Content Addressable Memory (CAM). High-speed memory CAM and fundamental arithmetic operations are integrated to enhance the Artificial Neural Network (ANN) model. In order to gain a deeper understanding of mathematical models, their features, and strategy aspects, comprehensive comparative analyses are conducted and essential metrics, such as Figures of Merit, are used to validate the suggested system. The design initially synthesized in Cadence Genus tool and using MATLAB validated the fundamental properties of the memristor and synthesized it in the Vivado Design Suite 2018.1 platform, the efficacy of the suggested design is demonstrated and contrasted with theoretical computations based on the hardware utilization, speed, throughput, and latency results..
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