Pinned Repositories
2Images_Relative
This code is based on the collinearity equations of Photogrammetry and it's a solution to the problem of relative orientation of two images. Each measured point in both images corresponds to 4 equations, (x,y) in the left image and (x,y)' in the right image. Besides the 5 parameters of the relative orientation, each point introduces 3 more unknown variables (X,Y,Z).
3dhop-threejs-demo
3D viewers with basic GUI for 3DHOP and Three.js using the multi-resolution nxs format of Nexus.js library
Image-filtering-without-predefined-filters
Different types of filters (smoothing, edge-preserving etc.) applied to sample images in Matlab and implemented without any inbuild function.
Web3DMultiresolution
Three.js 3D viewer that integrated the batched multiresolution structures of Nexus.js library
IroMp's Repositories
IroMp/3dhop-threejs-demo
3D viewers with basic GUI for 3DHOP and Three.js using the multi-resolution nxs format of Nexus.js library
IroMp/2Images_Relative
This code is based on the collinearity equations of Photogrammetry and it's a solution to the problem of relative orientation of two images. Each measured point in both images corresponds to 4 equations, (x,y) in the left image and (x,y)' in the right image. Besides the 5 parameters of the relative orientation, each point introduces 3 more unknown variables (X,Y,Z).
IroMp/Image-filtering-without-predefined-filters
Different types of filters (smoothing, edge-preserving etc.) applied to sample images in Matlab and implemented without any inbuild function.
IroMp/Web3DMultiresolution
Three.js 3D viewer that integrated the batched multiresolution structures of Nexus.js library