TY - GEN
T1 - Autonomous Grasping On Quadruped Robot With Task Level Interaction
AU - Muhtadin,
AU - Rusydiansyah, Mochammad Hilmi
AU - Purnomo, Mauridhi Hery
AU - Purnama, I. Ketut Eddy
AU - Fatichah, Chastine
N1 - Publisher Copyright:
©2025 IEEE.
PY - 2025
Y1 - 2025
N2 - —Quadruped robots are increasingly used in various applications due to their high mobility and ability to operate in diverse terrains. However, most available quadruped robots are primarily focused on mobility without object manipulation capabilities. Equipping a quadruped robot with a robotic arm and gripper introduces a challenge in manual control, especially in remote scenarios that require complex commands. This research aims to develop an autonomous grasping system on a quadruped robot using a task-level interaction approach. The system includes hardware integration of a robotic arm and gripper onto the quadruped robot’s body, a layered control system designed using ROS, and a web-based interface for human-robot interaction. The robot is capable of autonomously performing tasks such as navigation, object detection, and grasping using GraspNet. Testing was conducted through real-world scenarios to evaluate navigation, object selection and grasping, and user experience. The results show that the robot can perform tasks accurately and consistently, achieving a grasping success rate of 75% from 12 trials. Therefore, the system demonstrates significant potential in enhancing the capabilities of quadruped robots as service robots in real-world environments.
AB - —Quadruped robots are increasingly used in various applications due to their high mobility and ability to operate in diverse terrains. However, most available quadruped robots are primarily focused on mobility without object manipulation capabilities. Equipping a quadruped robot with a robotic arm and gripper introduces a challenge in manual control, especially in remote scenarios that require complex commands. This research aims to develop an autonomous grasping system on a quadruped robot using a task-level interaction approach. The system includes hardware integration of a robotic arm and gripper onto the quadruped robot’s body, a layered control system designed using ROS, and a web-based interface for human-robot interaction. The robot is capable of autonomously performing tasks such as navigation, object detection, and grasping using GraspNet. Testing was conducted through real-world scenarios to evaluate navigation, object selection and grasping, and user experience. The results show that the robot can perform tasks accurately and consistently, achieving a grasping success rate of 75% from 12 trials. Therefore, the system demonstrates significant potential in enhancing the capabilities of quadruped robots as service robots in real-world environments.
KW - Autonomous Grasping
KW - Quadruped Robot
KW - Task-Level Interaction
UR - https://www.scopus.com/pages/publications/105033153137
U2 - 10.1109/CENIM67940.2025.11326444
DO - 10.1109/CENIM67940.2025.11326444
M3 - Conference contribution
AN - SCOPUS:105033153137
T3 - Proceeding of the International Conference on Computer Engineering, Network and Intelligent Multimedia 2025, CENIM 2025
SP - 478
EP - 483
BT - Proceeding of the International Conference on Computer Engineering, Network and Intelligent Multimedia 2025, CENIM 2025
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 6th International Conference on Computer Engineering, Network and Intelligent Multimedia, CENIM 2025
Y2 - 25 November 2025 through 26 November 2025
ER -