Abstract — For certain applications, field robotic systems require small size for cost, weight, access, stealth or other reasons. Small size results in constraints on critical resources such as power, space (for sensors and actuators), and computing cycles, but these robots still must perform many of the challenging tasks of their larger brethren. The need for advanced capabilities such as machine vision, application-specific sensing, path planning, self localization, etc. is not reduced by small-scale applications, but needs may vary with the task. As a result, when resources are constrained, it is prudent to configure the robot for the task at hand; both hardware and software. We are developing a reconfigurable computing subsystem for res...
Modular self-reconfigurable robots present wide and unique solutions for growing demands in the doma...
The paper proposes an implementation for a highly customiz-able FPGA-based vision processing module ...
Chinapirom T, Witkowski U, Rückert U. Dynamic Reconfiguration of Universal FPGA-Microcontroller Modu...
University of Minnesota Ph.D. dissertation. January 2010. Major: Electrical Engineering. Advisors: T...
Robotic platforms are becoming more complex due to the wide range of modern applications, including ...
Nava F, Sciuto D, Santambrogio MD, et al. Applying dynamic reconfiguration in the mobile robotics do...
Paiz C, Chinapirom T, Witkowski U, Porrmann M. Dynamically Reconfigurable Hardware for Autonomous Mi...
Abstract:- Field Programmable Gate Arrays (FPGAs) have emerged as the platform of choice for the rap...
Abstract—The growing field of mobile robotics produces various types of robot systems for different ...
The design and construction of complex and reconfigurable embedded systems such as small autonomous ...
The design and construction of complex and reconfigurable embedded systems such as small autonomous ...
We utilized the robot operating system (ROS) and the embedded system-on-a-chip (SoC) field-programma...
International audienceToday robotic computing systems are usually implemented usinggeneral purpose p...
This paper presents a hardware and software architecture for vision-based human-robot interaction de...
Ubiquitous computing (UC) has been an important stream in distributed computing, which is nowadays r...
Modular self-reconfigurable robots present wide and unique solutions for growing demands in the doma...
The paper proposes an implementation for a highly customiz-able FPGA-based vision processing module ...
Chinapirom T, Witkowski U, Rückert U. Dynamic Reconfiguration of Universal FPGA-Microcontroller Modu...
University of Minnesota Ph.D. dissertation. January 2010. Major: Electrical Engineering. Advisors: T...
Robotic platforms are becoming more complex due to the wide range of modern applications, including ...
Nava F, Sciuto D, Santambrogio MD, et al. Applying dynamic reconfiguration in the mobile robotics do...
Paiz C, Chinapirom T, Witkowski U, Porrmann M. Dynamically Reconfigurable Hardware for Autonomous Mi...
Abstract:- Field Programmable Gate Arrays (FPGAs) have emerged as the platform of choice for the rap...
Abstract—The growing field of mobile robotics produces various types of robot systems for different ...
The design and construction of complex and reconfigurable embedded systems such as small autonomous ...
The design and construction of complex and reconfigurable embedded systems such as small autonomous ...
We utilized the robot operating system (ROS) and the embedded system-on-a-chip (SoC) field-programma...
International audienceToday robotic computing systems are usually implemented usinggeneral purpose p...
This paper presents a hardware and software architecture for vision-based human-robot interaction de...
Ubiquitous computing (UC) has been an important stream in distributed computing, which is nowadays r...
Modular self-reconfigurable robots present wide and unique solutions for growing demands in the doma...
The paper proposes an implementation for a highly customiz-able FPGA-based vision processing module ...
Chinapirom T, Witkowski U, Rückert U. Dynamic Reconfiguration of Universal FPGA-Microcontroller Modu...