Add to ORKGAnimals inspire our intuition that legs may be necessary for satisfactory exploration of highly broken and unstable landscapes. Gaiting style is the next crucial element in determining mobility of the legged robot as special gaits improve the mobility of the robot drastically and permit the robot to climb over small obstacles or cross broken terrain more efficiently. The aim for this research is to design and develop an automatic gaiting selection system which decides the gaits of the robot according to the environments using embedded vision system. The proposed method has been tested on the Hexapedal Running Robot and result is discussed in this paper
Over the last two decades the research and development of legged locomotion robots has grown steadil...
For decades humans have been trying to create machines that can mimic the capabilities of legged ani...
For decades humans have been trying to create machines that can mimic the capabilities of legged ani...
Animals inspire our intuition that legs may be necessary for satisfactory exploration of highly brok...
Autonomous robots are useful in a wide range of applications. However, finding a balance between spe...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
Legged robots allow the locomotion on terrains inaccessible to other type of vehicles because they d...
The legged locomotion system of biological quadrupeds has proven to be the most efficient in natural...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...
Robots based on simplified or abstracted biomechanical concepts can be a useful tool for investigati...
This research is focusing on the implementation, testing, and analysis of quadrupedal, bio-inspired ...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
Over the last two decades the research and development of legged locomotion robots has grown steadil...
For decades humans have been trying to create machines that can mimic the capabilities of legged ani...
For decades humans have been trying to create machines that can mimic the capabilities of legged ani...
Animals inspire our intuition that legs may be necessary for satisfactory exploration of highly brok...
Autonomous robots are useful in a wide range of applications. However, finding a balance between spe...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
Legged robots allow the locomotion on terrains inaccessible to other type of vehicles because they d...
The legged locomotion system of biological quadrupeds has proven to be the most efficient in natural...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...
Robots based on simplified or abstracted biomechanical concepts can be a useful tool for investigati...
This research is focusing on the implementation, testing, and analysis of quadrupedal, bio-inspired ...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
Over the last two decades the research and development of legged locomotion robots has grown steadil...
For decades humans have been trying to create machines that can mimic the capabilities of legged ani...
For decades humans have been trying to create machines that can mimic the capabilities of legged ani...