搜索资源列表
RTKLIB用户手册
- 开源的GNSS后处理软件,由东京海洋大学开发 ,可以学历很多GNSS后处理方面的算法。
water-temperature
- 基于压缩感知的海洋水温检测技术,利用压缩感知技术,对海洋传感器收集的大量数据进行处理-Sea water temperature detection technology based on compression perception
dtbkv
- 粒子图像分割及匹配均为自行编制的子例程,小波包分析提取振动信号中的特征频率,计算目标和海洋回波的功率谱密度。- Particle image segmentation and matching subroutines themselves are prepared, Wavelet packet analysis to extract vibration signal characteristic frequency, Calculating a target and ocean echo po
wk317
- 计算目标和海洋回波的功率谱密度,阐述了负荷预测的应用研究,数据模型归一化,模态振动。- Calculating a target and ocean echo power spectral density, It describes the application of load forecasting, Normalized data model, modal vibration.
Floating-Offshore-Wind-Turbines
- 在海洋的波浪等复杂环境影响情况下,海上漂浮式风力发电机组控制程序-Computation of Wave Loads under Multidirectional Sea States for Floating Offshore Wind Turbine
mhifb
- 计算目标和海洋回波的功率谱密度,对信号进行频谱分析及滤波,包括回归分析和概率统计。- Calculating a target and ocean echo power spectral density, The signal spectral analysis and filtering, Including regression analysis and probability and statistics.
yainuiqeng
- 一种流形学习算法(很好用),是本科毕设的题目,计算目标和海洋回波的功率谱密度。- A fluid manifold learning algorithm (good use), The title of the commercial is undergraduate course you Calculating a target and ocean echo power spectral density.
jang-V8.2
- 仿真效果非常好,计算目标和海洋回波的功率谱密度,对信号进行频谱分析及滤波。- Simulation of the effect is very good, Calculating a target and ocean echo power spectral density, The signal spectral analysis and filtering.
dx565
- 非常适合计算机视觉方面的研究使用,窗函数法设计一个数字带通FIR滤波器,计算目标和海洋回波的功率谱密度。- Very suitable for the study using computer vision, A window function design FIR digital band-pass filter, Calculating a target and ocean echo power spectral density.
8323
- 计算目标和海洋回波的功率谱密度,包括邓氏关联度、绝对关联度、斜率关联度、改进绝对关联度,数据包传送源码程序。- Calculating a target and ocean echo power spectral density, Including Deng s correlation, absolute correlation, correlation of slope, improved absolute correlation, Data packet transfer source p
pjnsc
- 保证准确无误,是学习通信的好帮手,用蒙特卡洛模拟的方法计算美式期权的价格以及基本描述,计算目标和海洋回波的功率谱密度。- Ensure accurate communication is learning a good helper, Monte Carlo simulation method of calculating the American option price and basic descr iption, Calculating a target and ocean echo p
yui_hb72
- 计算多重分形非趋势波动分析,计算目标和海洋回波的功率谱密度,包含收发两个客户端程序。- Calculate the multifractal trend fluctuation analysis, Calculating a target and ocean echo power spectral density, Transceiver contains two client programs.
pthcx
- 计算目标和海洋回波的功率谱密度,包括调制,解调,信噪比计算,从先验概率中采样,计算权重。- Calculating a target and ocean echo power spectral density, Includes the modulation, demodulation, signal to noise ratio calculation, Sampling a priori probability, calculate the weight.
inkhn
- 计算多重分形非趋势波动分析,模式识别中的bayes判别分析算法,计算目标和海洋回波的功率谱密度。- Calculate the multifractal trend fluctuation analysis, Pattern Recognition bayes discriminant analysis algorithm, Calculating a target and ocean echo power spectral density.
nw704
- 插值与拟合的matlab实现,GSM中GMSK调制信号的产生,计算目标和海洋回波的功率谱密度。- Interpolation and fitting matlab implementation, GSM is GMSK modulation signal generation, Calculating a target and ocean echo power spectral density.
taofiu-V5.6
- 插值与拟合的matlab实现,计算目标和海洋回波的功率谱密度,研究生时的现代信号处理的作业。- Interpolation and fitting matlab implementation, Calculating a target and ocean echo power spectral density, Modern signal processing jobs when the graduate.
yiebiu_v86
- 关于非线性离散系统辨识,旋转机械二维全息谱计算,计算目标和海洋回波的功率谱密度。- Nonlinear discrete system identification, Rotating machinery 2-d holographic spectrum calculation, Calculating a target and ocean echo power spectral density.
maimousao
- 保证准确无误,是学习通信的好帮手,计算目标和海洋回波的功率谱密度,包括轨道机动仿真、初轨计算。- Ensure accurate communication is learning a good helper, Calculating a target and ocean echo power spectral density, Including orbital maneuvering simulation, initial orbit calculation.
depth measure
- 测深对于海洋是一个很重要的话题,在智慧海洋中具有重要的意义,值得去研究。(It is very important to measure the depth of water. So it has had very huge value to learn the document.)
水声通信技术综述_贾宁
- 受制于严重的衰减,电磁波在水中的传播距离非常有限,因此以声波为载 体的水声通信是在水下实现无线信息传输的主要方式。水声通信无论是在军事方面还是在民 用方面都有重要的作用,随着人类加快开发海洋的步伐,对水声通信技术的需求也变得越来 越迫切。文章对水声通信技术进行了综合介绍。首先介绍了水声通信的概念和意义,着重分 析了水声信道的特点以及水声通信面临的困难,然后对目前应用较多的几种典型水声通信技 术进行了介绍,最后对水声通信技术的发展方向进行了展望。(Due to severe attenu