Design of a Robotic Mobility System with a Modular Haptic Feedback Approach to Promote Socialization in Children

Author

Xi Chen ; Ragonesi, Christina ; Galloway, James C. ; Agrawal, Sunil K.

Author_Institution

Dept. of Mech. Eng., Univ. of Delaware, Newark, DE, USA

Volume

7

Issue

2

fYear

2014

fDate

April-June 2014

Firstpage

131

Lastpage

139

Abstract

Self-initiated mobility is a causal factor in children´s development. Previous studies have demonstrated the effectiveness of our training methods in learning directional driving and navigation. The ultimate goal of mobility training is to enable children to be social, that is, to interact with their peers. A powered mobility device was developed that can localize itself, map the environment, plan an obstacle-free path to a goal, and ensure safety of a human driver. Combined with a positioning system, this system is able to apply a force field using a modular haptic feedback approach to train subjects to drive towards an object, a caregiver, a peer, or a group of peers. System feasibility was tested by designing a `ball chasing´ game. Results show that the system is promising in promoting socialization in children.

Keywords

force feedback; haptic interfaces; mobile robots; path planning; position control; social sciences; ball chasing game; children socialization; force field; mobility training; modular haptic feedback; obstacle-free path planning; positioning system; powered mobility device; robotic mobility system design; self-initiated mobility; Force; Haptic interfaces; Mobile robots; Path planning; Robot kinematics; Training; Force-feedback joystick; human tracking; mobile robot path planning and control; socialization in children;

fLanguage

English

Journal_Title

Haptics, IEEE Transactions on

Publisher

ieee

ISSN

1939-1412

Type

jour

DOI

10.1109/TOH.2013.38

Filename

6577375