Smart quadruped robotics: a systematic review of design, control, sensing and perception
Legged robots in general, and quadrupedal structures in particular, have demonstrated high
potential as a means of locomotion, possessing the ability to carry out tasks that traditional …
potential as a means of locomotion, possessing the ability to carry out tasks that traditional …
Design of intelligent controller for ship motion with input saturation based on optimized radial basis function neural network
R Wang, Q Li, S Miao, K Miao… - Recent Patents on …, 2021 - ingentaconnect.com
Purpose: The purpose of this paper was to design an intelligent controller of ship motion
based on sliding mode control with a Radial Basis Function (RBF) neural network optimized …
based on sliding mode control with a Radial Basis Function (RBF) neural network optimized …
Incorporating Symbolic Discrete Controller Synthesis into a Virtual Robot Experimental Platform: An Implementation with Collaborative Unmanned Aerial Vehicle …
M Özbaltan, S Çaşka - Drones, 2024 - mdpi.com
We introduce a modeling framework aimed at incorporating symbolic discrete controller
synthesis (DCS) into a virtual robot experimental platform. This framework involves …
synthesis (DCS) into a virtual robot experimental platform. This framework involves …
[PDF][PDF] Optimal Design and Performance Comparison of a Combined ANFIS-PID with Back Stepping Technique, Using Various Meta-Heuristic Algorithms to Solve …
R Euldji, N Batel, R Rebhi, G Lorenzini… - Journal Européen …, 2022 - researchgate.net
Accepted: 24 May 2022 The present investigation suggests a novel control technique that
merge the advantage of the adaptive Neuro-Fuzzy inference system (ANFIS) with the …
merge the advantage of the adaptive Neuro-Fuzzy inference system (ANFIS) with the …
Design and Development of Light Weight and Low-Cost Quadruped Robot for Spying and Surveillance
A Swaminathan, V Jaswant - 2022 International Conference …, 2022 - ieeexplore.ieee.org
Legged robots are much more effective and useful in uneven terrains than wheeled robots
because they can easily climb rocks and rough surfaces. Because their mechanized legs …
because they can easily climb rocks and rough surfaces. Because their mechanized legs …
Control system design for azimuth position of earth station antennas
Smart earth station antennas have been used for several decades in many applications,
from satellite communications to space object detection and tracking. The accuracy of the …
from satellite communications to space object detection and tracking. The accuracy of the …
Design and experimental analysis of steerable Chebyshev bionic walking mechanism
F Lou, J Guan - International Journal on Interactive Design and …, 2024 - Springer
To realize bionic walking through simple control and improve the application value of the
Chebyshev mechanism, a bionic walking mechanism based on RHRSR space 5 bars was …
Chebyshev mechanism, a bionic walking mechanism based on RHRSR space 5 bars was …
Research on Quadruped Crawling Robot Control with Finite-Time Observer in Continuous Convex Terrain
P Zhang, FH Nan, LY Liu, P Wang - Recent Patents on …, 2024 - benthamdirect.com
Background In recent years, observers have been crucial for controlling quadruped crawling
robots, especially for feed-forward compensation in complex terrains. However, their …
robots, especially for feed-forward compensation in complex terrains. However, their …
Stabilizing Quadruped Robot Movement Using Fuzzy Logic Control for Yaw Angle Adjustment in Walking and Troting Gait
SN Izzah, A Dharmawan, M Auzan… - … Journal of Electrical …, 2024 - section.iaesonline.com
Study on Intelligent Facial Expressions of Humanoid Robot
A Swaminathan, R Surendran… - 2022 4th International …, 2022 - ieeexplore.ieee.org
This study describes the development of a motion control scheme for an artificial robot head
that consists of four angles of freedom that lean against the neck and rotate freely laterally …
that consists of four angles of freedom that lean against the neck and rotate freely laterally …