Robust Trajectory Following for Underactuated Robot Fingers: UKACC International Conference on Control 2010

Jamaludin Jalani; G Herrmann; CR Melhuish

doi:10.1049/ic.2010.0332

Robust Trajectory Following for Underactuated Robot Fingers: UKACC International Conference on Control 2010

Jamaludin Jalani, G Herrmann, CR Melhuish

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

Abstract

Underactuated fingers of the Bristol Elumotion Robot Hand (BERUL) have many problems which need to be resolved for the implementation of a trajectory following and position control scheme. The hand has significant friction and stiction and unknown parameters; it is light in weight and fragile. Moreover, the hand has 5 fingers with 16 degrees of freedom and most of the fingers are underactuated. All of these problems create a very nonlinear dynamic system. This paper investigates 4 different trajectory tracking and positioning techniques namely PID, adaptive, Conventional Sliding Mode and Integral Sliding Mode Controllers to alleviate the aforementioned problems. Comparative performance characteristics have shown that the ISMC is the most suitable candidate to provide good experimental trajectory following and positioning control for underactuated BERUL fingers.

Original language	English
Title of host publication	UKACC International Conference on Control 2010
DOIs	https://doi.org/10.1049/ic.2010.0332
Publication status	Published - Sept 2010

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@inproceedings{c39b497ea7d34479aa9fa9cd5f017c90,

title = "Robust Trajectory Following for Underactuated Robot Fingers: UKACC International Conference on Control 2010",

abstract = "Underactuated fingers of the Bristol Elumotion Robot Hand (BERUL) have many problems which need to be resolved for the implementation of a trajectory following and position control scheme. The hand has significant friction and stiction and unknown parameters; it is light in weight and fragile. Moreover, the hand has 5 fingers with 16 degrees of freedom and most of the fingers are underactuated. All of these problems create a very nonlinear dynamic system. This paper investigates 4 different trajectory tracking and positioning techniques namely PID, adaptive, Conventional Sliding Mode and Integral Sliding Mode Controllers to alleviate the aforementioned problems. Comparative performance characteristics have shown that the ISMC is the most suitable candidate to provide good experimental trajectory following and positioning control for underactuated BERUL fingers.",

author = "Jamaludin Jalani and G Herrmann and CR Melhuish",

note = "Name and Venue of Event: Conventry, UK Conference Organiser: UK Automatic Control Council",

year = "2010",

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doi = "10.1049/ic.2010.0332",

language = "English",

booktitle = "UKACC International Conference on Control 2010",

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T1 - Robust Trajectory Following for Underactuated Robot Fingers

T2 - UKACC International Conference on Control 2010

AU - Jalani, Jamaludin

AU - Herrmann, G

AU - Melhuish, CR

N1 - Name and Venue of Event: Conventry, UK Conference Organiser: UK Automatic Control Council

PY - 2010/9

Y1 - 2010/9

N2 - Underactuated fingers of the Bristol Elumotion Robot Hand (BERUL) have many problems which need to be resolved for the implementation of a trajectory following and position control scheme. The hand has significant friction and stiction and unknown parameters; it is light in weight and fragile. Moreover, the hand has 5 fingers with 16 degrees of freedom and most of the fingers are underactuated. All of these problems create a very nonlinear dynamic system. This paper investigates 4 different trajectory tracking and positioning techniques namely PID, adaptive, Conventional Sliding Mode and Integral Sliding Mode Controllers to alleviate the aforementioned problems. Comparative performance characteristics have shown that the ISMC is the most suitable candidate to provide good experimental trajectory following and positioning control for underactuated BERUL fingers.

AB - Underactuated fingers of the Bristol Elumotion Robot Hand (BERUL) have many problems which need to be resolved for the implementation of a trajectory following and position control scheme. The hand has significant friction and stiction and unknown parameters; it is light in weight and fragile. Moreover, the hand has 5 fingers with 16 degrees of freedom and most of the fingers are underactuated. All of these problems create a very nonlinear dynamic system. This paper investigates 4 different trajectory tracking and positioning techniques namely PID, adaptive, Conventional Sliding Mode and Integral Sliding Mode Controllers to alleviate the aforementioned problems. Comparative performance characteristics have shown that the ISMC is the most suitable candidate to provide good experimental trajectory following and positioning control for underactuated BERUL fingers.

U2 - 10.1049/ic.2010.0332

DO - 10.1049/ic.2010.0332

M3 - Conference contribution

BT - UKACC International Conference on Control 2010

ER -

Robust Trajectory Following for Underactuated Robot Fingers: UKACC International Conference on Control 2010

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