As threats of landslide hazards have become gradually more severe in recent decades,studies on landslide prevention and mitigation have attracted widespread attention in relevant domains.A hot research topic has been ...As threats of landslide hazards have become gradually more severe in recent decades,studies on landslide prevention and mitigation have attracted widespread attention in relevant domains.A hot research topic has been the ability to predict landslide susceptibility,which can be used to design schemes of land exploitation and urban development in mountainous areas.In this study,the teaching-learning-based optimization(TLBO)and satin bowerbird optimizer(SBO)algorithms were applied to optimize the adaptive neuro-fuzzy inference system(ANFIS)model for landslide susceptibility mapping.In the study area,152 landslides were identified and randomly divided into two groups as training(70%)and validation(30%)dataset.Additionally,a total of fifteen landslide influencing factors were selected.The relative importance and weights of various influencing factors were determined using the step-wise weight assessment ratio analysis(SWARA)method.Finally,the comprehensive performance of the two models was validated and compared using various indexes,such as the root mean square error(RMSE),processing time,convergence,and area under receiver operating characteristic curves(AUROC).The results demonstrated that the AUROC values of the ANFIS,ANFIS-TLBO and ANFIS-SBO models with the training data were 0.808,0.785 and 0.755,respectively.In terms of the validation dataset,the ANFISSBO model exhibited a higher AUROC value of 0.781,while the AUROC value of the ANFIS-TLBO and ANFIS models were 0.749 and 0.681,respectively.Moreover,the ANFIS-SBO model showed lower RMSE values for the validation dataset,indicating that the SBO algorithm had a better optimization capability.Meanwhile,the processing time and convergence of the ANFIS-SBO model were far superior to those of the ANFIS-TLBO model.Therefore,both the ensemble models proposed in this paper can generate adequate results,and the ANFIS-SBO model is recommended as the more suitable model for landslide susceptibility assessment in the study area considered due to its excellent accuracy and efficiency.展开更多
Due to latest advancements in the field of remote sensing,it becomes easier to acquire high quality images by the use of various satellites along with the sensing components.But the massive quantity of data poses a ch...Due to latest advancements in the field of remote sensing,it becomes easier to acquire high quality images by the use of various satellites along with the sensing components.But the massive quantity of data poses a challenging issue to store and effectively transmit the remote sensing images.Therefore,image compression techniques can be utilized to process remote sensing images.In this aspect,vector quantization(VQ)can be employed for image compression and the widely applied VQ approach is Linde–Buzo–Gray(LBG)which creates a local optimum codebook for image construction.The process of constructing the codebook can be treated as the optimization issue and the metaheuristic algorithms can be utilized for resolving it.With this motivation,this article presents an intelligent satin bowerbird optimizer based compression technique(ISBO-CT)for remote sensing images.The goal of the ISBO-CT technique is to proficiently compress the remote sensing images by the effective design of codebook.Besides,the ISBO-CT technique makes use of satin bowerbird optimizer(SBO)with LBG approach is employed.The design of SBO algorithm for remote sensing image compression depicts the novelty of the work.To showcase the enhanced efficiency of ISBO-CT approach,an extensive range of simulations were applied and the outcomes reported the optimum performance of ISBO-CT technique related to the recent state of art image compression approaches.展开更多
为解决传统全连接结构毫米波大规模MIMO系统高硬件成本和实现难度大的问题,本文提出了一种基于智能搜索的部分连接结构混合预编码算法。该算法在基站端采用经典的迫零数字预编码,在模拟预编码部分单独设计模拟预编码矩阵,避免了数字、...为解决传统全连接结构毫米波大规模MIMO系统高硬件成本和实现难度大的问题,本文提出了一种基于智能搜索的部分连接结构混合预编码算法。该算法在基站端采用经典的迫零数字预编码,在模拟预编码部分单独设计模拟预编码矩阵,避免了数字、模拟预编码矩阵联合设计的高复杂度,并利用模拟预编码矩阵的块对角化特性,将其设计问题转化为最优化问题,采用SBO(satin bowerbird optimization)优化算法解决此问题。针对原始SBO算法易陷入局部最优的缺点,提出了一种基于动态突变概率的DSBO(satin bowerbird optimization based on dynamic mutation probability)算法。针对移相器分辨率有限的情况,改进了DSBO算法,使之能解决此离散优化问题。仿真结果表明,与其他现有算法相比,提出的算法具有更高的系统容量和更低的误码率,且能处理移相器分辨率有限的情况。展开更多
Mobile Cloud Computing(MCC)becomes an emerging computing paradigm,where Mobile Devices(MDs)are in the place for offloading task to the nearest resource-rich cloud servers.To promote the system’s performance,the MCC i...Mobile Cloud Computing(MCC)becomes an emerging computing paradigm,where Mobile Devices(MDs)are in the place for offloading task to the nearest resource-rich cloud servers.To promote the system’s performance,the MCC is performed.However,it holds with more overhead complexity in storage and energy,which degrades the network efficiency.Hence the scholar concentrates on decreasing the overhead issue by applying the task offloading process.The major issue in this mechanism is having most cost-effective communication among the devices.This research paper suggests a new optimization strategy for performing the offloading task in MCC.The developed hybrid approach offloads the task to the nearby server to enhance the performance of the MCC by finishing the task within the deadline.A new cost function is derived with the adoption of the average delay of tasks,the energy consumption level,battery lifetime,processing capabilities,storage capacity,response time,communication cost,etc for optimizing the task offloading.Thus,a new task offloading is optimized via a newly recommended hybrid optimizer with the adoption of Probability Condition of Satin Bowerbird Forensic Optimization(PCSBFO),which is developed with the combination of Satin Bowerbird Optimization(SBO)and Forensic-Based Investigation(FBI)to achieve optimal solutions.Additionally,the developed PCSBFO considers the multi-objective constraints such as average delay,energy consumption,and offloading expenditure for ensuring the quality of service,and satisfactory level of the end user in the MCC.This suggested lightweight paradigm addresses the difficulties and minimizes the efforts while developing,deploying,and managing to offload using optimization algorithms to help better available frameworks.Further,the creation of APAs is done to enable the mobile applications to extract maximum utility out of the volumes of available resources.The experiment results show that the suggested hybrid optimization-based task…展开更多
基金supported by the National Natural Science Foundation of China(Grant Nos.41807192,41790441)Innovation Capability Support Program of Shaanxi(Grant No.2020KJXX-005)Natural Science Basic Research Program of Shaanxi(Grant Nos.2019JLM-7,2019JQ-094)。
文摘As threats of landslide hazards have become gradually more severe in recent decades,studies on landslide prevention and mitigation have attracted widespread attention in relevant domains.A hot research topic has been the ability to predict landslide susceptibility,which can be used to design schemes of land exploitation and urban development in mountainous areas.In this study,the teaching-learning-based optimization(TLBO)and satin bowerbird optimizer(SBO)algorithms were applied to optimize the adaptive neuro-fuzzy inference system(ANFIS)model for landslide susceptibility mapping.In the study area,152 landslides were identified and randomly divided into two groups as training(70%)and validation(30%)dataset.Additionally,a total of fifteen landslide influencing factors were selected.The relative importance and weights of various influencing factors were determined using the step-wise weight assessment ratio analysis(SWARA)method.Finally,the comprehensive performance of the two models was validated and compared using various indexes,such as the root mean square error(RMSE),processing time,convergence,and area under receiver operating characteristic curves(AUROC).The results demonstrated that the AUROC values of the ANFIS,ANFIS-TLBO and ANFIS-SBO models with the training data were 0.808,0.785 and 0.755,respectively.In terms of the validation dataset,the ANFISSBO model exhibited a higher AUROC value of 0.781,while the AUROC value of the ANFIS-TLBO and ANFIS models were 0.749 and 0.681,respectively.Moreover,the ANFIS-SBO model showed lower RMSE values for the validation dataset,indicating that the SBO algorithm had a better optimization capability.Meanwhile,the processing time and convergence of the ANFIS-SBO model were far superior to those of the ANFIS-TLBO model.Therefore,both the ensemble models proposed in this paper can generate adequate results,and the ANFIS-SBO model is recommended as the more suitable model for landslide susceptibility assessment in the study area considered due to its excellent accuracy and efficiency.
基金This work was supported by Basic Science Research Program through the National Research Foundation of Korea(NRF)funded by the Ministry of Education(2020R1A6A1A03038540)National Research Foundation of Korea(NRF)grant funded by the Korea government,Ministry of Science and ICT(MSIT)(2021R1F1A1046339).
文摘Due to latest advancements in the field of remote sensing,it becomes easier to acquire high quality images by the use of various satellites along with the sensing components.But the massive quantity of data poses a challenging issue to store and effectively transmit the remote sensing images.Therefore,image compression techniques can be utilized to process remote sensing images.In this aspect,vector quantization(VQ)can be employed for image compression and the widely applied VQ approach is Linde–Buzo–Gray(LBG)which creates a local optimum codebook for image construction.The process of constructing the codebook can be treated as the optimization issue and the metaheuristic algorithms can be utilized for resolving it.With this motivation,this article presents an intelligent satin bowerbird optimizer based compression technique(ISBO-CT)for remote sensing images.The goal of the ISBO-CT technique is to proficiently compress the remote sensing images by the effective design of codebook.Besides,the ISBO-CT technique makes use of satin bowerbird optimizer(SBO)with LBG approach is employed.The design of SBO algorithm for remote sensing image compression depicts the novelty of the work.To showcase the enhanced efficiency of ISBO-CT approach,an extensive range of simulations were applied and the outcomes reported the optimum performance of ISBO-CT technique related to the recent state of art image compression approaches.
文摘为解决传统全连接结构毫米波大规模MIMO系统高硬件成本和实现难度大的问题,本文提出了一种基于智能搜索的部分连接结构混合预编码算法。该算法在基站端采用经典的迫零数字预编码,在模拟预编码部分单独设计模拟预编码矩阵,避免了数字、模拟预编码矩阵联合设计的高复杂度,并利用模拟预编码矩阵的块对角化特性,将其设计问题转化为最优化问题,采用SBO(satin bowerbird optimization)优化算法解决此问题。针对原始SBO算法易陷入局部最优的缺点,提出了一种基于动态突变概率的DSBO(satin bowerbird optimization based on dynamic mutation probability)算法。针对移相器分辨率有限的情况,改进了DSBO算法,使之能解决此离散优化问题。仿真结果表明,与其他现有算法相比,提出的算法具有更高的系统容量和更低的误码率,且能处理移相器分辨率有限的情况。
文摘Mobile Cloud Computing(MCC)becomes an emerging computing paradigm,where Mobile Devices(MDs)are in the place for offloading task to the nearest resource-rich cloud servers.To promote the system’s performance,the MCC is performed.However,it holds with more overhead complexity in storage and energy,which degrades the network efficiency.Hence the scholar concentrates on decreasing the overhead issue by applying the task offloading process.The major issue in this mechanism is having most cost-effective communication among the devices.This research paper suggests a new optimization strategy for performing the offloading task in MCC.The developed hybrid approach offloads the task to the nearby server to enhance the performance of the MCC by finishing the task within the deadline.A new cost function is derived with the adoption of the average delay of tasks,the energy consumption level,battery lifetime,processing capabilities,storage capacity,response time,communication cost,etc for optimizing the task offloading.Thus,a new task offloading is optimized via a newly recommended hybrid optimizer with the adoption of Probability Condition of Satin Bowerbird Forensic Optimization(PCSBFO),which is developed with the combination of Satin Bowerbird Optimization(SBO)and Forensic-Based Investigation(FBI)to achieve optimal solutions.Additionally,the developed PCSBFO considers the multi-objective constraints such as average delay,energy consumption,and offloading expenditure for ensuring the quality of service,and satisfactory level of the end user in the MCC.This suggested lightweight paradigm addresses the difficulties and minimizes the efforts while developing,deploying,and managing to offload using optimization algorithms to help better available frameworks.Further,the creation of APAs is done to enable the mobile applications to extract maximum utility out of the volumes of available resources.The experiment results show that the suggested hybrid optimization-based task…
