Add to ORKGChinapirom T, Witkowski U, Rückert U, eds. A Biologically-Inspired and Resource-Efficient Vision System using Mobile Mini-Robots for Obstacle Avoidance.; 2008.This paper describes a resource-efficient vision system for the mini-robot ”Khepera”. It is implemented to perform a fundamental approach of robotic navigation, which is obstacle detection by using an optical flow algorithm. This is inspired by visual perception of insects. The optical flow field is evaluated by implementing the sum of absolute differences (SAD) operation of block matching while the mobile mini-robot moves on texture plane. The SAD is realized in an additional processing module based on a Field Programmable Gate Array (FPGA) solution which can perform various tasks in...
Obstacle avoidance is a difficult task for autonomous robots. To overcome limitations of traditional...
This thesis documents a simulation-based investigation into the use of vision for the navigation of ...
This paper presents VITAR (VIsion based Tracked Au-tonomous Robot), a robotic test bed that consists...
Chinapirom T, Witkowski U, Rückert U. Vision Module for Mini-robots Providing Optical Flow Processin...
The use of on-board vision with small autonomous robots has been made possible by the advances in th...
This paper presents a vision-based obstacle avoidance algorithm for a small indoor mobile robot buil...
Abstract: This paper presents a vision-based obstacle avoidance algorithm for a small indoor mobile ...
This dissertation combines recent theoretical models from the neuroscience community with recent adv...
Designing hardware for miniaturized robotics which mimics the capabilities of flying insects is of i...
Abstract: In this paper we try to develop an algorithm for visual obstacle avoidance of autonomous m...
Autonomy is the most enabling and the least developed robot capability. A mobile robot is autonomou...
Reliable distance estimation of objects in a visual scene is essential for any artificial vision sys...
With the development of technologies, robots have played an important role in many fields of the so...
With the development of technologies, robots have played an important role in many fields of the so...
This work presents a vision-based obstacle avoidance algorithm for autonomous mobile robots. It prov...
Obstacle avoidance is a difficult task for autonomous robots. To overcome limitations of traditional...
This thesis documents a simulation-based investigation into the use of vision for the navigation of ...
This paper presents VITAR (VIsion based Tracked Au-tonomous Robot), a robotic test bed that consists...
Chinapirom T, Witkowski U, Rückert U. Vision Module for Mini-robots Providing Optical Flow Processin...
The use of on-board vision with small autonomous robots has been made possible by the advances in th...
This paper presents a vision-based obstacle avoidance algorithm for a small indoor mobile robot buil...
Abstract: This paper presents a vision-based obstacle avoidance algorithm for a small indoor mobile ...
This dissertation combines recent theoretical models from the neuroscience community with recent adv...
Designing hardware for miniaturized robotics which mimics the capabilities of flying insects is of i...
Abstract: In this paper we try to develop an algorithm for visual obstacle avoidance of autonomous m...
Autonomy is the most enabling and the least developed robot capability. A mobile robot is autonomou...
Reliable distance estimation of objects in a visual scene is essential for any artificial vision sys...
With the development of technologies, robots have played an important role in many fields of the so...
With the development of technologies, robots have played an important role in many fields of the so...
This work presents a vision-based obstacle avoidance algorithm for autonomous mobile robots. It prov...
Obstacle avoidance is a difficult task for autonomous robots. To overcome limitations of traditional...
This thesis documents a simulation-based investigation into the use of vision for the navigation of ...
This paper presents VITAR (VIsion based Tracked Au-tonomous Robot), a robotic test bed that consists...