Visual control of wheeled mobile robots: [electronic resource] :: unifying vision and control in generic approaches /: Héctor M. Becerra, Carlos Sagüés.

Becerra, Héctor M.,; Sagüés, Carlos,

doi:10.1007/978-3-319-05783-5

Visual control of wheeled mobile robots [electronic resource] : unifying vision and control in generic approaches / Héctor M. Becerra, Carlos Sagüés.

Becerra, Héctor M., author.; Sagüés, Carlos, author.

2014

TJ211.35

Available Online

Formats

Format
BibTeX
MARCXML
TextMARC
MARC
DublinCore
EndNote
NLM
RefWorks
RIS

Add to Basket

Cite

Linked e-resources

Linked Resource

Online Access

Details

Title

Visual control of wheeled mobile robots [electronic resource] : unifying vision and control in generic approaches / Héctor M. Becerra, Carlos Sagüés.

Author

Becerra, Héctor M., author.

ISBN

9783319057835 electronic book
3319057839 electronic book
9783319057828

DOI

https://doi.org/10.1007/978-3-319-05783-5

Published

Cham : Springer, 2014.

Language

English

Description

1 online resource (xii, 118 pages) : illustrations (some color).

Item Number

10.1007/978-3-319-05783-5 doi

Call Number

TJ211.35

Dewey Decimal Classification

629.8/92

Summary

Vision-based control of wheeled mobile robots is an interesting field of research from a scientific and even social point of view due to its potential applicability. This book presents a formal treatment of some aspects of control theory applied to the problem of vision-based pose regulation of wheeled mobile robots. In this problem, the robot has to reach a desired position and orientation, which are specified by a target image. It is faced in such a way that vision and control are unified to achieve stability of the closed loop, a large region of convergence, without local minima, and good robustness against parametric uncertainty. Three different control schemes that rely on monocular vision as unique sensor are presented and evaluated experimentally. A common benefit of these approaches is that they are valid for imaging systems obeying approximately a central projection model, e.g., conventional cameras, catadioptric systems and some fisheye cameras. Thus, the presented control schemes are generic approaches. A minimum set of visual measurements, integrated in adequate task functions, are taken from a geometric constraint imposed between corresponding image features. Particularly, the epipolar geometry and the trifocal tensor are exploited since they can be used for generic scenes. A detailed experimental evaluation is presented for each control scheme.

Access Note

Access limited to authorized users.

Source of Description

Description based on online resource; title from PDF title page (SpringerLink, viewed March 31, 2014).

Added Author

Sagüés, Carlos, author.

Series

Springer tracts in advanced robotics ; 103. 1610-7438

Linked Resources

Online Access

Record Appears in

Online Resources > Ebooks
All Resources