This study focuses on the improvement of path planning efficiency for underwater gravity-aided navigation.Firstly,a Depth Sorting Fast Search(DSFS)algorithm was proposed to improve the planning speed of the Quick Rapi...This study focuses on the improvement of path planning efficiency for underwater gravity-aided navigation.Firstly,a Depth Sorting Fast Search(DSFS)algorithm was proposed to improve the planning speed of the Quick Rapidly-exploring Random Trees*(Q-RRT*)algorithm.A cost inequality relationship between an ancestor and its descendants was derived,and the ancestors were filtered accordingly.Secondly,the underwater gravity-aided navigation path planning system was designed based on the DSFS algorithm,taking into account the fitness,safety,and asymptotic optimality of the routes,according to the gravity suitability distribution of the navigation space.Finally,experimental comparisons of the computing performance of the ChooseParent procedure,the Rewire procedure,and the combination of the two procedures for Q-RRT*and DSFS were conducted under the same planning environment and parameter conditions,respectively.The results showed that the computational efficiency of the DSFS algorithm was improved by about 1.2 times compared with the Q-RRT*algorithm while ensuring correct computational results.展开更多
In this paper,we propose a novel adjustable multiple cross-hexagonal search(AMCHS) algorithm for fast block motion estimation. It employs adjustable multiple cross search patterns(AMCSP) in the first step and then use...In this paper,we propose a novel adjustable multiple cross-hexagonal search(AMCHS) algorithm for fast block motion estimation. It employs adjustable multiple cross search patterns(AMCSP) in the first step and then uses half-way-skip and half-way-stop technique to determine whether to employ two hexagonal search patterns(HSPs) subsequently. The AMCSP can be used to find small motion vectors efficiently while the HSPs can be used to find large ones accurately to ensure prediction quality. Simulation results showed that our proposed AMCHS achieves faster search speed,and provides better distortion performance than other popular fast search algorithms,such as CDS and CDHS.展开更多
为进一步提升网络入侵检测效果,提出一种融合FAST特征选择与自适应二进制量子引力搜索支持向量机的(FAST-ABQGSA-SVM)网络入侵检测算法。利用FAST算法过滤掉原始特征集中冗余无关的特征形成候选特征子集,基于组合优化策略采用自适应二...为进一步提升网络入侵检测效果,提出一种融合FAST特征选择与自适应二进制量子引力搜索支持向量机的(FAST-ABQGSA-SVM)网络入侵检测算法。利用FAST算法过滤掉原始特征集中冗余无关的特征形成候选特征子集,基于组合优化策略采用自适应二进制量子引力搜索算法对候选特征子集与SVM分类器参数进行组合优化。在ABQGSA反复学习寻优过程中,采取动态自适应波动式调整策略更新量子旋转角以平衡算法全局搜索能力和局部搜索能力;同时为提升算法的自适应变异能力,设计与进化程度及个体适应度值相关的自适应变异概率,当种群进化出现停滞时及时引入量子位离散交叉操作帮助种群摆脱局部极值。通过KDD CUP 99仿真实验表明,所提出的FAST-ABQGSA-SVM算法较其他同类型检测算法具有更好的鲁棒性、学习精度以及检测效果。展开更多
针对变压器局部放电(partial discharge,PD)中传统的定位方法存在多种误差,降低了定位精度,无法满足工程需求的问题,采用了一种新的快速子空间算法(fast subspace direction of arrival,Fast DOA),并提出了一种基于遗传算法的多平台测...针对变压器局部放电(partial discharge,PD)中传统的定位方法存在多种误差,降低了定位精度,无法满足工程需求的问题,采用了一种新的快速子空间算法(fast subspace direction of arrival,Fast DOA),并提出了一种基于遗传算法的多平台测向定位算法,该算法将到测距线的总空间距离的最小值对应点作为PD源,然后利用遗传算法进行全局搜索以实现定位。在相同的测向精度下,新算法具有较低的计算复杂度和较快的运算速度。仿真结果表明了该方法的正确性和优越性。展开更多
基金the National Natural Science Foundation of China(Grant No.42274119)the Liaoning Revitalization Talents Program(Grant No.XLYC2002082)+1 种基金National Key Research and Development Plan Key Special Projects of Science and Technology Military Civil Integration(Grant No.2022YFF1400500)the Key Project of Science and Technology Commission of the Central Military Commission.
文摘This study focuses on the improvement of path planning efficiency for underwater gravity-aided navigation.Firstly,a Depth Sorting Fast Search(DSFS)algorithm was proposed to improve the planning speed of the Quick Rapidly-exploring Random Trees*(Q-RRT*)algorithm.A cost inequality relationship between an ancestor and its descendants was derived,and the ancestors were filtered accordingly.Secondly,the underwater gravity-aided navigation path planning system was designed based on the DSFS algorithm,taking into account the fitness,safety,and asymptotic optimality of the routes,according to the gravity suitability distribution of the navigation space.Finally,experimental comparisons of the computing performance of the ChooseParent procedure,the Rewire procedure,and the combination of the two procedures for Q-RRT*and DSFS were conducted under the same planning environment and parameter conditions,respectively.The results showed that the computational efficiency of the DSFS algorithm was improved by about 1.2 times compared with the Q-RRT*algorithm while ensuring correct computational results.
文摘In this paper,we propose a novel adjustable multiple cross-hexagonal search(AMCHS) algorithm for fast block motion estimation. It employs adjustable multiple cross search patterns(AMCSP) in the first step and then uses half-way-skip and half-way-stop technique to determine whether to employ two hexagonal search patterns(HSPs) subsequently. The AMCSP can be used to find small motion vectors efficiently while the HSPs can be used to find large ones accurately to ensure prediction quality. Simulation results showed that our proposed AMCHS achieves faster search speed,and provides better distortion performance than other popular fast search algorithms,such as CDS and CDHS.
文摘为进一步提升网络入侵检测效果,提出一种融合FAST特征选择与自适应二进制量子引力搜索支持向量机的(FAST-ABQGSA-SVM)网络入侵检测算法。利用FAST算法过滤掉原始特征集中冗余无关的特征形成候选特征子集,基于组合优化策略采用自适应二进制量子引力搜索算法对候选特征子集与SVM分类器参数进行组合优化。在ABQGSA反复学习寻优过程中,采取动态自适应波动式调整策略更新量子旋转角以平衡算法全局搜索能力和局部搜索能力;同时为提升算法的自适应变异能力,设计与进化程度及个体适应度值相关的自适应变异概率,当种群进化出现停滞时及时引入量子位离散交叉操作帮助种群摆脱局部极值。通过KDD CUP 99仿真实验表明,所提出的FAST-ABQGSA-SVM算法较其他同类型检测算法具有更好的鲁棒性、学习精度以及检测效果。
文摘针对变压器局部放电(partial discharge,PD)中传统的定位方法存在多种误差,降低了定位精度,无法满足工程需求的问题,采用了一种新的快速子空间算法(fast subspace direction of arrival,Fast DOA),并提出了一种基于遗传算法的多平台测向定位算法,该算法将到测距线的总空间距离的最小值对应点作为PD源,然后利用遗传算法进行全局搜索以实现定位。在相同的测向精度下,新算法具有较低的计算复杂度和较快的运算速度。仿真结果表明了该方法的正确性和优越性。