Visual simultaneous localization and mapping (VSLAM) plays a vital role in the field of positioning and navigation. At the heart of VSLAM is visual odometry (VO), which uses continuous images to estimate the camera’s ego-motion. However, due to many assumptions of the classical VO system, robots can hardly operate in challenging environments. To solve this challenge, we combine the multiview geometry constraints of the classical stereo VO system with the robustness of deep learning to present an unsupervised pose correction network for the classical stereo VO system. The pose correction network regresses a pose correction that results in positioning error due to violation of modeling assumptions to make the classical stereo VO positioning m...
Deep learning technique-based visual odometry systems have recently shown promising results compared...
Visual odometry has become an important tool given the new popularity of mobile robotics. Camera pos...
Precise pose information is a fundamental prerequisite for numerous applications in robotics, AI and...
Accurate camera ego-motion estimation, widely known as Visual Odometry (VO), remains a key prerequis...
In the fields of VR, AR, and autonomous driving, it is critical to track the accurate location of an...
Visual odometry (VO) is the process of estimating the egomotion of an agent (e.g., a vehicle, human,...
Vision is the primary means by which we know where we are, what is nearby, and how we are moving. Th...
In the last decade, supervised deep learning approaches have been extensively employed in visual odo...
Visual odometry is a challenging approach to simultaneous localization and mapping algorithms. Based...
Visual odometry is the process of estimating incremental localization of the camera in 3-dimensional...
Deep learning-based visual odometry systems have shown promising performance compared with geometric...
This paper introduces a fully deep learning approach to monocular SLAM, which can perform simultaneo...
Autonomous vehicles require knowing their state in the environment to make a decision and achieve th...
Despite learning based methods showing promising results in single view depth estimation and visual ...
Visual odometry is the task of estimating the trajectory of the moving agents from consecutive image...
Deep learning technique-based visual odometry systems have recently shown promising results compared...
Visual odometry has become an important tool given the new popularity of mobile robotics. Camera pos...
Precise pose information is a fundamental prerequisite for numerous applications in robotics, AI and...
Accurate camera ego-motion estimation, widely known as Visual Odometry (VO), remains a key prerequis...
In the fields of VR, AR, and autonomous driving, it is critical to track the accurate location of an...
Visual odometry (VO) is the process of estimating the egomotion of an agent (e.g., a vehicle, human,...
Vision is the primary means by which we know where we are, what is nearby, and how we are moving. Th...
In the last decade, supervised deep learning approaches have been extensively employed in visual odo...
Visual odometry is a challenging approach to simultaneous localization and mapping algorithms. Based...
Visual odometry is the process of estimating incremental localization of the camera in 3-dimensional...
Deep learning-based visual odometry systems have shown promising performance compared with geometric...
This paper introduces a fully deep learning approach to monocular SLAM, which can perform simultaneo...
Autonomous vehicles require knowing their state in the environment to make a decision and achieve th...
Despite learning based methods showing promising results in single view depth estimation and visual ...
Visual odometry is the task of estimating the trajectory of the moving agents from consecutive image...
Deep learning technique-based visual odometry systems have recently shown promising results compared...
Visual odometry has become an important tool given the new popularity of mobile robotics. Camera pos...
Precise pose information is a fundamental prerequisite for numerous applications in robotics, AI and...