Pinned Repositories
convert_q10
Gaz
Homework1
kvasir-seg
Polyp Segmentation
landing-quadcopter
landing-quadcopter-assembly
ogldev
OpenGL tutorials
open-pose-pytorch
OPT_Infrared_separation_background_signal
Infrared search and track systems are used because the objects that we want to track are very bright in this spectral range. However, due to the size of target's signal the problem of detection and localization target objects in complex background became a challenging task. This paper proposed the algorithm based on the hypothesis that the data may be made up from multi-subspace. Moreover the overlapping edge information is used for improving quality. So the problem can be considered as optimization problem. By applying the alternating direction method of multipliers (ADMM) I built the solution algorithm.
project_tree_Cmake
GerasimovIV's Repositories
GerasimovIV/convert_q10
GerasimovIV/Gaz
GerasimovIV/Homework1
GerasimovIV/kvasir-seg
Polyp Segmentation
GerasimovIV/landing-quadcopter
GerasimovIV/landing-quadcopter-assembly
GerasimovIV/ogldev
OpenGL tutorials
GerasimovIV/open-pose-pytorch
GerasimovIV/OPT_Infrared_separation_background_signal
Infrared search and track systems are used because the objects that we want to track are very bright in this spectral range. However, due to the size of target's signal the problem of detection and localization target objects in complex background became a challenging task. This paper proposed the algorithm based on the hypothesis that the data may be made up from multi-subspace. Moreover the overlapping edge information is used for improving quality. So the problem can be considered as optimization problem. By applying the alternating direction method of multipliers (ADMM) I built the solution algorithm.
GerasimovIV/project_tree_Cmake
GerasimovIV/python-pcl
Python bindings to the pointcloud library (pcl)
GerasimovIV/snake-ai-docker
GerasimovIV/template_tree
GerasimovIV/tree
GerasimovIV/tree_po_fenshuy
GerasimovIV/Vector2_and_Matrix2
GerasimovIV/wave-propagation
A machine learning-based solution that will take these inputs and conduct wave propagation quicker than conventional finite-difference codes, or augment the finite-difference code with artificial intelligence-based components for increased computation speed.
GerasimovIV/work_with_memory
GerasimovIV/Yandex_techical_interview
GerasimovIV/Yolo_small_signal
Using Yolov3 for small object detection