Add to ORKGThis paper outlines the details of the development of a mobile robot than can navigate uneven terrain. The robot incorporates a combination of wheels and legs. The legs are based on a parallel-drive 2-R linkage that allows the motors to be located on the robot frame. The legs are driven through servo motors while the wheels are powered through DC motors. A PIC microcontroller is used to control the system, while a novel IR-based communication module allows the user to remotely control the device. In the proof-of-concept prototype, a human operator can control the approximately 6x9x4 inches (15.24x22.86x10.16 cm) and approximately 8 lb. (3.63 kgs) robot (with onboard electronics and control systems) to climb and descend steps. Future version...
This thesis presents investigations into the development of a versatile scansorial mobile robot and ...
Typical mobile robots have limited mobility in structured places thereby decreasing the robot\u27s e...
This paper presents an innovative off-road wheeled mobile robot, named Octopus, able to deal autonom...
Mobile robot for uneven terrain This paper outlines the details of the development of a mobile robot...
This paper outlines the details of the development of a mobile robot than can navigate uneven terrai...
Mobile robots have two major methods of mobility: wheels and legs. Wheeled vehicles provide a stable...
Through the years, research on mobile robots has proven that legged robots are more promising as com...
Through the years, research on mobile robots has proven that legged robots are more promising as com...
Wheeled vehicles or robots can achieve high speed locomotion with a relatively lower control complex...
This paper deals with the engineering design of a solution of a mobile robot that uses a special tra...
This thesis presents a novel design paradigm of mobile robots: the Hybrid Mobile Robot system. It co...
The paper discusses the experimental campaign on the prototype of the small scale ground mobile robo...
Although wheeled robots are commonly used, it has limited ability to move to any terrains at ease. T...
Locomotion in uneven terrain is important for a wide range of robotic applications, including Search...
This paper deals with the engineering design of a solution of a mobile robot that uses a special tra...
This thesis presents investigations into the development of a versatile scansorial mobile robot and ...
Typical mobile robots have limited mobility in structured places thereby decreasing the robot\u27s e...
This paper presents an innovative off-road wheeled mobile robot, named Octopus, able to deal autonom...
Mobile robot for uneven terrain This paper outlines the details of the development of a mobile robot...
This paper outlines the details of the development of a mobile robot than can navigate uneven terrai...
Mobile robots have two major methods of mobility: wheels and legs. Wheeled vehicles provide a stable...
Through the years, research on mobile robots has proven that legged robots are more promising as com...
Through the years, research on mobile robots has proven that legged robots are more promising as com...
Wheeled vehicles or robots can achieve high speed locomotion with a relatively lower control complex...
This paper deals with the engineering design of a solution of a mobile robot that uses a special tra...
This thesis presents a novel design paradigm of mobile robots: the Hybrid Mobile Robot system. It co...
The paper discusses the experimental campaign on the prototype of the small scale ground mobile robo...
Although wheeled robots are commonly used, it has limited ability to move to any terrains at ease. T...
Locomotion in uneven terrain is important for a wide range of robotic applications, including Search...
This paper deals with the engineering design of a solution of a mobile robot that uses a special tra...
This thesis presents investigations into the development of a versatile scansorial mobile robot and ...
Typical mobile robots have limited mobility in structured places thereby decreasing the robot\u27s e...
This paper presents an innovative off-road wheeled mobile robot, named Octopus, able to deal autonom...