In this paper, we develop the switching controller presented by Lee et al. for the pose control of a car-like vehicle, to allow the use of an omnidirectional vision sensor. To this end we incorporate an extension to a hypothesis on the navigation behaviour of the desert ant, cataglyphis bicolor, which leads to a correspondence free landmark based vision technique. The method we present allows positioning to a learnt location based on feature bearing angle and range discrepancies between the robot's current view of the environment, and that at a learnt location. We present simulations and experimental results, the latter obtained using our outdoor mobile platform
The ability to return to a base location is crucial for moving animals; so it is for mobile robots. ...
The visual systems of all animals are used to provide information that can guide behaviour. In some ...
Visually guided navigation represents a long standing goal in robotics. Insights may be drawn from ...
Giving robots the ability to move around autonomously in various real-world environments has long be...
Giving robots the ability to autonomously move around in various real-world environments has been a ...
Animals are often able to solve complex navigational tasks in very challenging terrain, despite usi...
Many animals, including insects, successfully engage in visual homing. We describe a system that all...
The ability to navigate in a complex environment is crucial for both animals and robots. Many animal...
International audienceNavigating insects like desert ants are known to robustly estimate their posit...
In this paper, we outline the sensing system used for the visual pose control of our experimental ca...
Visually guided navigation represents a long standing goal in robotics. Insights may be drawn from v...
Animals navigate through various uncontrolled environments with seemingly little effort. Flying inse...
This paper discusses the implementation of insect-inspired visual navigation strategies in flying ro...
Studies of insect navigation have demonstrated that insects possess an interesting and sophisticated...
One of the main obstacles that still hinder penetration of mobile robots into wide consumer markets ...
The ability to return to a base location is crucial for moving animals; so it is for mobile robots. ...
The visual systems of all animals are used to provide information that can guide behaviour. In some ...
Visually guided navigation represents a long standing goal in robotics. Insights may be drawn from ...
Giving robots the ability to move around autonomously in various real-world environments has long be...
Giving robots the ability to autonomously move around in various real-world environments has been a ...
Animals are often able to solve complex navigational tasks in very challenging terrain, despite usi...
Many animals, including insects, successfully engage in visual homing. We describe a system that all...
The ability to navigate in a complex environment is crucial for both animals and robots. Many animal...
International audienceNavigating insects like desert ants are known to robustly estimate their posit...
In this paper, we outline the sensing system used for the visual pose control of our experimental ca...
Visually guided navigation represents a long standing goal in robotics. Insights may be drawn from v...
Animals navigate through various uncontrolled environments with seemingly little effort. Flying inse...
This paper discusses the implementation of insect-inspired visual navigation strategies in flying ro...
Studies of insect navigation have demonstrated that insects possess an interesting and sophisticated...
One of the main obstacles that still hinder penetration of mobile robots into wide consumer markets ...
The ability to return to a base location is crucial for moving animals; so it is for mobile robots. ...
The visual systems of all animals are used to provide information that can guide behaviour. In some ...
Visually guided navigation represents a long standing goal in robotics. Insights may be drawn from ...