While software for robotics cannot avoid being tested for real, it is often difficult and time-consuming to do so. In multi-robot developments, one may be unable to fully experiment its software since putting an experiment into place for a few aerial and terrestrial vehicules can quickly become difficult to do. In these cases, being able to extensively test in simulation is a very important thing. We present here a simulation environment adapted to the LAAS Architecture. This architecture is designed for the control of autonomous robots. The simulation system has been designed to address the major issues in this kind of problems: • being able to use the same code in both simulated and real environments. • being able to reproduce the behavior ...
International audienceThe complexity of robotics comes from the tight interactions between hardware,...
Simulations have become one of the main methods in the development of autonomous robots. With the ap...
Autonomous robots are complex systems that require the interaction and cooperation between numerous ...
While software for robotics cannot avoid being tested for real, it is often difficult and time-consum...
While software for robotics cannot avoid being tested for real, it is often difficult and time-consu...
Many times the simulation environment is an ad hoc implementation done with the single purpose of te...
Robotic simulators have long been used to test code and designs before any actual hardware is tested...
Research in the area of robotic systems has greatly benefited from the use of simulation models. Rec...
As robotic technologies mature, we are moving from simple systems that roam our laboratories to hete...
Traditional off-line programming is not enough in order to use the full potential of virtual models ...
Part 1: Cyber-Physical SystemsInternational audienceThis work presents a technique for designing of ...
In the development of software for experimental autonomous robotic vehicles various problems have to...
Powered by the rapid advance of computer, network, and sensor/actuator technologies, distributed rea...
International audienceWhile the robotics community agrees that the benchmarking is of high importanc...
From a theoretical perspective, one may easily argue (as we will in this chapter) that simulation ac...
International audienceThe complexity of robotics comes from the tight interactions between hardware,...
Simulations have become one of the main methods in the development of autonomous robots. With the ap...
Autonomous robots are complex systems that require the interaction and cooperation between numerous ...
While software for robotics cannot avoid being tested for real, it is often difficult and time-consum...
While software for robotics cannot avoid being tested for real, it is often difficult and time-consu...
Many times the simulation environment is an ad hoc implementation done with the single purpose of te...
Robotic simulators have long been used to test code and designs before any actual hardware is tested...
Research in the area of robotic systems has greatly benefited from the use of simulation models. Rec...
As robotic technologies mature, we are moving from simple systems that roam our laboratories to hete...
Traditional off-line programming is not enough in order to use the full potential of virtual models ...
Part 1: Cyber-Physical SystemsInternational audienceThis work presents a technique for designing of ...
In the development of software for experimental autonomous robotic vehicles various problems have to...
Powered by the rapid advance of computer, network, and sensor/actuator technologies, distributed rea...
International audienceWhile the robotics community agrees that the benchmarking is of high importanc...
From a theoretical perspective, one may easily argue (as we will in this chapter) that simulation ac...
International audienceThe complexity of robotics comes from the tight interactions between hardware,...
Simulations have become one of the main methods in the development of autonomous robots. With the ap...
Autonomous robots are complex systems that require the interaction and cooperation between numerous ...