搜索资源列表
ImageFusion_PCA
- 在GDAL库下,采用主成分变换实现多光谱影像与全色高分辨影像的融合。(Under the GDAL library, the principal component transformation is used to fuse multispectral images with panchromatic high resolution images.)
BROWN
- Calculation of switching power supply transformers, switching power supply transformer calculation
CTMR融合示例
- 医学图像 CT/MR 图像的融合算法 使用梯度频率对两图像进行增强并融合,代码运行良好,适合初学者学习(注意无配准功能)(Medical image CT/MR image fusion algorithm uses gradient frequency to enhance and fuse two images, the code runs well, suitable for beginners to learn (pay attention to no registration fun
shenjingwangl
- 利用神经网络对多传感器数据进行融合,最后求得仿真数据,并与真实数据对比,给定了权值等。(The neural network is used to fuse the multi-sensor data. Finally, the wind direction of the simulated wind speed is obtained, and the wind direction is compared with the true wind direction, and the weight
Matrix
- this is the way to fuse multi modal images in spatial domain
simple maximum without fuzzy
- to fuse the two images using maximum method
simple average without fuzzy
- to fuse 2 images using averaging method
图像融合技术研究
- 利用拉普拉斯金字塔的方法融合图像,彩色部分采用了主成分分析的办法(PCA)(you can use this code to fuse two pictures.it's a good matlab code.hope every body can use this code every day)
CKFinNavigation
- 运用基于球径容积准则的CKF对惯性器件输出数据和GPS数据尽心融合处理,达到组合导航定位的目的(CKF based on spherical diameter volume criterion is used to fuse the output data of inertial devices and GPS data to achieve the goal of integrated navigation and positioning.)
filter
- 单片机采用卡尔曼滤波对陀螺仪的数据进行融合滤波(Kalman filter is used to fuse and filter gyroscope data in MCU)
OFDM信号频谱感10
- 前已提出的频谱感知方法主要包括匹配滤波器检测、 能量检测、 循环平稳特征检测以及多分辨率频谱感知. 这些方法均为单节点感知方法.然而,在阴影和深度衰落情况下, 单个节点的感知结果并不可靠, 因此, 需要对多个节点的感知结果进行融合,以提高检测可靠性, 即协作感知技术. 文献采用“或” 准则对各个 CR 感知结果进行融合. 文献则提出了基于 D-S 证据理论的协作频谱感知算法,虽然该算法的性能比“或” 准则或“与”准则要好, 但需要存储大量历史信息, 算法的计算复杂度也很高. 文献中分析了采用似然