Abstract

We present the design and implementation of a miniature tactile sensing array for ground reaction force measurements in small legged robots. Dynamic ground pressure data from the sensors were collected using a small two-legged runner and used to train a support vector machine (SVM) terrain classifier. Results show that tactile sensing data, in combination with information about the motor torque and robot gait, are sufficient to distinguish among hard, slippery, grassy and granular terrain types with>90% accuracy in a single stride. The most useful classifier features include stride frequency, peak motor torque, and peak and average tactile sensor readings.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
A Smart Terrain Identification Technique Based on Electromyography, Ground Reaction Force, and Machine Learning for Lower Limb Rehabilitation
Shuo Gao ... Lijun Xu
Applied sciences | VOL. 10
Shuo Gao, et. al.Shuo Gao ... Lijun Xu
11 Apr 2020
The application of multiclass SVM to the detection of knee pathologies using kinetic data: a preliminary study
Pazit Levinger ... Kate Webster
-
Pazit Levinger, et. al.Pazit Levinger ... Kate Webster
01 Jan 2007
ANN and SVM Classifiers in Identifying Autism Spectrum Disorder Gait Based on Three-Dimensional Ground Reaction Forces
Che Zawiyah Che Hasan ... Nooritawati Md Tahir
-
Che Zawiyah Che Hasan, et. al.Che Zawiyah Che Hasan ... Nooritawati Md Tahir
01 Oct 2018
A large-area tactile force sensor for measuring ground reaction forces from small legged robots
Shivam S Desai ... Aaron M Hoover
-
Shivam S Desai, et. al.Shivam S Desai ... Aaron M Hoover
01 Nov 2013
View more papers

More From: IEEE Robotics and Automation Letters

Paper Title
Journal
Date
Author
NavFormer: A Transformer Architecture for Robot Target-Driven Navigation in Unknown and Dynamic Environments
Haitong Wang ... Goldie Nejat
IEEE Robotics and Automation Letters | VOL. 9
Haitong Wang, et. al.Haitong Wang ... Goldie Nejat
01 Aug 2024
Soft Robotic Proprioception Enhancement via 3D-Printed Differential Optical Waveguide Design
Shaowu Tang ... Shijian Wu
IEEE Robotics and Automation Letters | VOL. 9
Shaowu Tang, et. al.Shaowu Tang ... Shijian Wu
01 Aug 2024
Smaller and Faster Robotic Grasp Detection Model via Knowledge Distillation and Unequal Feature Encoding
Hong Nie ... Jing Yang
IEEE Robotics and Automation Letters | VOL. 9
Hong Nie, et. al.Hong Nie ... Jing Yang
01 Aug 2024
Fine-Grained Task Planning for Service Robots Based on Object Ontology Knowledge via Large Language Models
Xiaodong Li ... Yongcheng Cui
IEEE Robotics and Automation Letters | VOL. 9
Xiaodong Li, et. al.Xiaodong Li ... Yongcheng Cui
01 Aug 2024
View more papers