We present an improved algorithm for noise removal and signal detection, called Multiple-Peak Spatial Coincidence Processing (MPSCP). Field data, collected ...

We present an improved algorithm for noise removal and signal detection, called Multiple-Peak Spatial Coincidence Processing. (MPSCP). Field data, collected ...

An improved algorithm for noise removal and signal detection, called Multiple-Peak Spatial Coincidence Processing (MPSCP) is presented, which is shown to ...

Get details about the chapter of Advanced Coincidence Processing of 3D Laser Radar Data from book Advances in Visual Computing: 8th International Symposium, ...

Vasile, A. N. (2012). Advanced Coincidence Processing of 3D Laser Radar Data. Advances in Visual Computing Lecture Notes in Computer Science, 382-393.

We describe a computer model that was developed to simulate the performance of three-dimensional (3D) laser radars (ladars) that use arrays of Geiger-.

Aug 17, 2024 · Advanced Coincidence Processing of 3D Laser Radar Data, ISVC12(I: 382-393). Springer DOI 1209 · BibRef · Hullo, J.F., Thibault, G., Grussenmeyer ...

Scene registration of a pair of three-dimensional (3D) range images is a 6D optimization problem usually required in mobile robotics.

Advanced Coincidence Processing of 3D Laser Radar Data · A. VasileL. Skelly +5 authors. R. Heinrichs. Engineering, Environmental Science. International ...

Advanced Coincidence Processing of 3D Laser Radar Data. ISVC (1) 2012: 382-393. [+][–]. Coauthor network. maximize. Note that this feature is a work in progress ...