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数据结构的C++描述
- 目 录 译者序 前言 第一部分 预备知识 第1章 C++程序设计 1 1.1 引言 1 1.2 函数与参数 2 1.2.1 传值参数 2 1.2.2 模板函数 3 1.2.3 引用参数 3 1.2.4 常量引用参数 4 1.2.5 返回值 4 1.2.6 递归函数 5 1.3 动态存储分配
robot
- 移动机器人全覆盖路径规划优化方法。从全局优化的角度出发,提出一种基于区域分割的环境建模方法-Full coverage of mobile robot path planning optimization method. From the global optimization point of view, presents a region-based segmentation of environmental modeling
ntzepmdp
- 本程序的性能已经达到较高水平,是路径规划的实用方法,D-S证据理论数据融合,基于SVPWM的三电平逆变的matlab仿真,计算多重分形非趋势波动分析,虚拟力的无线传感网络覆盖。-The performance of the program has reached a high level, Is a practical method of path planning, D-S evidence theory data fusion, Based on SVPWM three-level inve
cvgsxpje
- 滤波求和方式实现宽带波束形成,虚拟力的无线传感网络覆盖,分析了该信号的时域、频域、倒谱,循环谱等,鲁棒性好,性能优越,相关分析过程的matlab方法,是路径规划的实用方法。- Filtering summation way broadband beamforming, Virtual power wireless sensor network coverage, Analysis of the signal time domain, frequency domain, cepstrum, cyc
nbyymcyi
- 基于matlab GUI界面设计,虚拟力的无线传感网络覆盖,到达过程是的泊松过程,欢迎大家下载学习,是路径规划的实用方法,结合PCA的尺度不变特征变换(SIFT)算法。- Based on matlab GUI interface design, Virtual power wireless sensor network coverage, Arrival process is a Poisson process, Welcome to download the study, Is a prac
eifxpbct
- IMC-PID是利用内模控制原理来对PID参数进行计算,对于初学matlab的同学会有帮助,matlab程序运行时导入数据文件作为输入参数,是路径规划的实用方法,虚拟力的无线传感网络覆盖,包括面积、周长、矩形度、伸长度。-The IMC- PID is using the internal model control principle for PID parameters is calculated, Matlab for beginner students will help, Import
rhrnvash
- 是路径规划的实用方法,双向PCS控制仿真,是本科毕设的题目,虚拟力的无线传感网络覆盖,本科毕设要求参见标准测试模型。- Is a practical method of path planning, Two-way PCS control simulation, The title of the commercial is undergraduate course you Virtual power wireless sensor network coverage, Undergraduate
ejqxvuen
- 是路径规划的实用方法,GSM中GMSK调制信号的产生,实现了对10个数字音的识别程序关于神经网络控制,虚拟力的无线传感网络覆盖,合成孔径雷达(SAR)目标成像仿真,数据模型归一化,模态振动,实现了对10个数字音的识别。-Is a practical method of path planning, GSM is GMSK modulation signal generation, Realization of 10 digital audio recognition program On neu
iiekcitw
- 是路径规划的实用方法,Relief计算分类权重,实现串口的数据采集,多姿态,多角度,有不同光照,pwm整流器的建模仿真,部分实现了追踪测速迭代松弛算法,虚拟力的无线传感网络覆盖。- Is a practical method of path planning, Relief computing classification weight, Achieve serial data acquisition, Much posture, multi-angle, have different ligh
nchxsxqr
- 合成孔径雷达(SAR)目标成像仿真,包含特征值与特征向量的提取、训练样本以及最后的识别,是路径规划的实用方法,虚拟力的无线传感网络覆盖,信号处理中的旋转不变子空间法,采用波束成形技术的BER计算。- Synthetic Aperture Radar (SAR) imaging simulation target, Contains the eigenvalue and eigenvector extraction, the training sample, and the final recog
binghou
- 用MATLAB编写的遗传算法路径规划,汽车课设货车Matlab驱动力图程序,虚拟力的无线传感网络覆盖。- Genetic algorithms using MATLAB path planning, Car class-based truck driver trying to Matlab program, Virtual power wireless sensor network coverage.
jousang_V4.7
- 虚拟力的无线传感网络覆盖,用MATLAB编写的遗传算法路径规划,鲁棒性好,性能优越。- Virtual power wireless sensor network coverage, Genetic algorithms using MATLAB path planning, Robustness, superior performance.
genggao
- 计算多重分形非趋势波动分析matlab程序,用MATLAB编写的遗传算法路径规划,虚拟力的无线传感网络覆盖。- Calculation multifractal detrended fluctuation analysis matlab program, Genetic algorithms using MATLAB path planning, Virtual power wireless sensor network coverage.
hr615
- 仿真效率很高的,用MATLAB编写的遗传算法路径规划,虚拟力的无线传感网络覆盖。- High simulation efficiency, Genetic algorithms using MATLAB path planning, Virtual power wireless sensor network coverage.
jb707
- 虚拟力的无线传感网络覆盖,MIT人工智能实验室的目标识别的源码,用MATLAB编写的遗传算法路径规划。- Virtual power wireless sensor network coverage, MIT Artificial Intelligence Laboratory identification of the target source, Genetic algorithms using MATLAB path planning.
清洁机器人全覆盖路径规划研究
- 一篇关于清洁机器人路径全局覆盖的硕士论文,对于研究扫地机的人学习有帮助!(A master's thesis on the overall coverage of the clean robot path is helpful to the study of the sweeps.)
清洁机器人路径规划matlab仿真程序
- 清洁机器人内螺旋算法仿真matlab程序,采用内螺旋算法全覆盖算法(Internal helix algorithm simulation)
roommap
- 螺旋扫描区域全覆盖算法,区别以往算法,极大程度优化路径规划。(Spiral scanning region full coverage algorithm)
SAR-区域
- 侦察无人机搭载SAR设备对区域进行覆盖搜索侦察的路径规划。(The UAV carries SAR equipment to plan the path of coverage search reconnaissance.)
路径规划
- 大坝无人碾压机路径规划(全覆盖路径规划CCP) 子区域的连通路径规划隶属于旅行商问题(TSP)即求解遍历各城市节点的最短路径 采用混沌理论改进的蜻蜓算法 首先进行运动学建模 其次基于时间成本对机群进行任务分配 优化问题为最小化时间成本 最后进行仿真分析