搜索资源列表
Plane_amplitude_phase_TX_SM
- 这个遗传算法用于优化天线的幅度和相位两个目标,并且适用于多个优化参数的优化,能达到很好的效果,可以用于其它各种天线的优化。-The genetic algorithm is used to optimize the antenna amplitude and phase of the two target, optimization and is applicable to multiple parameter optimization, can achieve very good result
feixiangganjilei
- 针对宽带高分辨雷达体制下的未知速度运动目标检测问题, 基于高分辨一维距离像提出一种新的非相干积累算法. 首先利用改进的双向维特比算法估计目标速度及强散射点位置, 提高了低信噪比下 的估计精度, 然后在强散射点周围选取待检测单元进行非相干积累, 进一步提升了检测性能. 两类飞机实测数据的多个实验结果表明, 当目标发生距离走动的情况下, 该算法性能相对传统的非相干积累算法有明显的提高.-For unknown broadband speed moving target detection pro
ganraohuanjing
- 雷达目标检测 多干扰环境CA和GO的发现概率随SNR变化曲线 成功-Radar target detection probability of finding multiple interference environment with CA and GO SNR curve of success
opencv_cvcamshift_cvmeanshift
- CAMSHIFT进行多目标的跟踪,而且根据多个场景进行改进的算法。-CAMSHIFT multi-target tracking, and improved algorithm based on multiple scenarios.
duomubiaogenzong
- 五篇利用opencv不同方法的多运动目标检测跟踪的论文-Five different methods using opencv target detection and tracking of multiple moving papers
K-shortest-Path-tracking
- 参考《Multiple Object Tracker Using K-Shortest Paths》实现的代码,使用K最短路径实现多目标追踪功能。-Reference " Multiple Object Tracker Using K-Shortest Paths" to achieve code, use the shortest path K multi-target tracking capabilities.
communicate-by-socket
- C++ vs下用socket实现的多组一对一通信,也就是某个客户端(可以同时开启多个)向服务器发送消息,服务器再把这个消息发送给目标IP-Under C++ vs-one communication with a plurality of sets of socket, which is a client (you can open multiple) sends a message to the server, which then sends the message to the targe
CKF-IMM
- 基于CKF的多模型滤波的英文文献及其代码,能够正确运行。是学习滤波及目标跟踪的好资料。-CKF based on Multiple Model Filtering in English literature and code, to run correctly. Learning and target tracking filter good information.
sar_echo_simu1
- 合成孔径雷达点目标回波仿真,多个点目标在不同场景下产生的回波,进行脉冲压缩。-Synthetic aperture radar point target echo simulation, multiple point targets in different scenarios to produce the echo, pulse compression.
SAR_echo_simu
- 合成孔径雷达点目标回波仿真,回波信号进行匹配滤波。多种脉冲压缩方式实现。-Synthetic aperture radar point target echo simulation, echo signal matching filter. Realization of multiple pulse compression.
GraspMht
- 多目标跟踪的 MHT 算法的一种实现。可以在 Linux 版的 MATLAB 中运行。代码仅供参考。相关论文: 1. Multiple object video tracking using GRASP-MHT 2. An Efficient MHT Implementation Using GRASP-An implementation of MHT for multi-target tracking. For research purpose only. Related pap
optimal_new
- 运动目标卫星双脉冲多圈兰伯特问题求解方法-Moving target satellite two-pulse method to solve multiple Lambert problem
IMM
- 基于matlab的交互多模型算法,用于目标跟踪,能够很好的跟踪高机动目标,- interactive multiple model algorithm Based on matlab using for target tracking, it can be a good method for high maneuvering target tracking,
SRIMRangeDist
- SRIM is a software that does Monte Carlo simulation of ion implantations. It can estimate the distribution of ions and target damages after an implantation. SRIMRangeDist helps SRIM users to plot the ion distribution data a SRIM output with relative
OMP
- OMP算法应用在DOA估计,可以分辨多个目标,估计出目标方位,且有很高的分辨性能。-OMP algorithm used in DOA estimation, can distinguish multiple targets, to estimate the target orientation, and have a high resolution performance.
CSDOA
- 凸优化算法实现DOA估计,可以分辨多个目标,估计出目标方位,且有很高的分辨性能。-Convex optimization algorithm to achieve DOA estimation, can distinguish multiple targets, to estimate the direction of the target, and has a high resolution performance.
ReliefF-2
- 由于Relief算法比较简单,运行效率高,并且结果也比较令人满意,因此得到广泛应用,但是其局限性在于只能处理两类别数据,因此1994年Kononeill对其进行了扩展,得到了ReliefF作算法,可以处理多类别问题。该算法用于处理目标属性为连续值的回归问题。-Because Relief algorithm is relatively simple, high efficiency, and the results are more satisfactory, so widely used, b
copyFolder_basic
- 这个代码主要是在根目录或根目录下子文件夹中检索目标文件,可以根据前缀或后缀进行检索,并支持输入多个前缀(前缀间使用分号则表示每个关键词检索一次,使用逗号则表示目标文件前缀需符合所有关键词)。再拷贝到新路径上是支持改名和新建文件夹!(This code is mainly to retrieve the target file in the root directory or folder at the root directory, can be retrieved according to t
27796728PHD
- 目的是将原来只能用在单目标上的粒子群算法(PSO)应用于多目标上(The aim is to apply the particle swarm optimization (PSO), which was originally used only on a single target, to multiple targets)
pom_1.1.tar
- 多摄像头前景目标提取,检测在室内的运动人物的编号,多个摄像头提供的同步图像确定同一个人。(Foreground target extraction from multiple cameras)