The production line engineer's task of designing the external path for cables feeding electricity, air, and other resources to robot arms is a labor-intensive one. As the motions of robot arms are complex, the manual task of designing their cable path is a time-consuming and continuous trial-and-error process. Herein, we propose an automatic optimization method for planning the cable paths for industrial robot arms. The proposed method applies current physics simulation techniques for reducing the person–hours involved in cable path design. Our method yields an optimal parameter vector (PV) that specifies the cable length and cable-guide configuration via filtering the candidate PV set through a cable-geometry simulation based on the mass–s...
Abstract: This paper addresses the cable tension distributions of a cable-driven parallel robot with...
Inspired by the structure of human arms, a modular cable-driven human-like robotic arm (CHRA) is dev...
Abstract—In this paper we present a motion planning algo-rithm for a mobile robot, suspended by seve...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Extensively studied since the early nineties, cable-driven robots have attracted the growing interes...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
International audienceReconfigurable cable-driven parallel robots have proved to be very effective i...
We present two path planning algorithms for mobile robots that are connected by cable to a fixed ba...
International audienceThis paper deals with an optimization approach to design a cable driven parall...
This paper investigates the minimum cable tension distributions in the workspace for cable-based par...
Planning robot trajectory is a complex task that plays a significant role in design and application ...
Planning robot trajectory is a complex task that plays a significant role in design and application ...
International audienceThis paper presents the preliminary studies dedicated to the design of cable-d...
Abstract: This paper addresses the cable tension distributions of a cable-driven parallel robot with...
Inspired by the structure of human arms, a modular cable-driven human-like robotic arm (CHRA) is dev...
Abstract—In this paper we present a motion planning algo-rithm for a mobile robot, suspended by seve...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Extensively studied since the early nineties, cable-driven robots have attracted the growing interes...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
International audienceReconfigurable cable-driven parallel robots have proved to be very effective i...
We present two path planning algorithms for mobile robots that are connected by cable to a fixed ba...
International audienceThis paper deals with an optimization approach to design a cable driven parall...
This paper investigates the minimum cable tension distributions in the workspace for cable-based par...
Planning robot trajectory is a complex task that plays a significant role in design and application ...
Planning robot trajectory is a complex task that plays a significant role in design and application ...
International audienceThis paper presents the preliminary studies dedicated to the design of cable-d...
Abstract: This paper addresses the cable tension distributions of a cable-driven parallel robot with...
Inspired by the structure of human arms, a modular cable-driven human-like robotic arm (CHRA) is dev...
Abstract—In this paper we present a motion planning algo-rithm for a mobile robot, suspended by seve...