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Flocking and Rendezvous in Distributed Robotics

Francis Bruce A. Maggiore Manfredi
Heftet / 2015 / Engelsk

Produktdetaljer

ISBN
9783319247274
Publisert
2015-11-04
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Forfatter
Francis Bruce A.
Maggiore Manfredi

Biographical note

Manfredi Maggiore was born in Genoa, Italy. He received the “Laurea" degree in Electrical Engineering in 1996 from the University of Genoa and the PhD degree in Electrical Engineering from the Ohio State University, USA, in 2000. Since 2000 he has been with the Edward S. Rogers Sr. Department of Electrical and Computer Engineering, University of Toronto, Canada, where he is currently Professor. He has been a Visiting Professor at the University of Roma Tor Vergata (2001) and the University of Bologna (2007-2008). His research focuses on mathematical nonlinear control, and relies on methods from dynamical systems theory and differential geometry.

Bruce Francis was born in Toronto, Canada. He received all three degrees (BASc, MEng, PhD) from the University of Toronto. He has held teaching and research positions at Berkeley, Cambridge (UK), McGill, Concordia, Yale, and Waterloo, and finally the University of Toronto from 1984 to 2011. He retired in 2011 and since then has been an Emeritus Professor at the University of Toronto. He is the author and co-author of seven books (counting An Introduction to Distributed Robotics). In 2015 he received the IEEE Control Systems Award.

Flocking and Rendezvous in Distributed Robotics

Francis Bruce A. Maggiore Manfredi
Heftet / 2015 / Engelsk
Francis Bruce A. Maggiore Manfredi
Heftet / 2015 / Engelsk
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This brief describes the coordinated control of groups of robots using only sensory input – and no direct external commands. Furthermore, each robot employs the same local strategy, i.e., there are no leaders, and the text also deals with decentralized control, allowing for cases in which no single robot can sense all the others.One can get intuition for the problem from the natural world, for example, flocking birds.How do they achieve and maintain their flying formation?Recognizing their importance as the most basic coordination tasks for mobile robot networks, the brief details flocking and rendezvous. They are shown to be physical illustrations of emergent behaviors with global consensus arising from local interactions. The authors extend the consideration of these fundamental ideas to describe their operation in flying robots and prompt readers to pursue further research in the field.  Flocking and Rendezvous in Distributed Robotics will provide graduate students a firm grounding in the subject, while also offering an authoritative reference work for more experienced workers seeking a brief but thorough treatment of an area that has rapidly gained in interest.
Les mer
Introduction.- Models of Mobile Robots in the Plane.- Admissible Controls and the Robot Flocking Problem.- The Robot Rendezvous Problem: Limited Camera Range.- A Convoy Problem.- A Look into the Future: Flying Robots.
Les mer
Authoritative yet accessible coverage of the fundamentals of distributed robotic systems Provides readers with a framework and launch pad for further research Familiarizes students with concrete robotic models by combining high-level concepts with illustrative figures and examples Includes supplementary material: sn.pub/extras
Les mer
GPSR Compliance The European Union's (EU) General Product Safety Regulation (GPSR) is a set of rules that requires consumer products to be safe and our obligations to ensure this. If you have any concerns about our products you can contact us on ProductSafety@springernature.com. In case Publisher is established outside the EU, the EU authorized representative is: Springer Nature Customer Service Center GmbH Europaplatz 3 69115 Heidelberg, Germany ProductSafety@springernature.com
Les mer

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This brief describes the coordinated control of groups of robots using only sensory input – and no direct external commands. Furthermore, each robot employs the same local strategy, i.e., there are no leaders, and the text also deals with decentralized control, allowing for cases in which no single robot can sense all the others.One can get intuition for the problem from the natural world, for example, flocking birds.How do they achieve and maintain their flying formation?Recognizing their importance as the most basic coordination tasks for mobile robot networks, the brief details flocking and rendezvous. They are shown to be physical illustrations of emergent behaviors with global consensus arising from local interactions. The authors extend the consideration of these fundamental ideas to describe their operation in flying robots and prompt readers to pursue further research in the field.  Flocking and Rendezvous in Distributed Robotics will provide graduate students a firm grounding in the subject, while also offering an authoritative reference work for more experienced workers seeking a brief but thorough treatment of an area that has rapidly gained in interest.
Les mer
Introduction.- Models of Mobile Robots in the Plane.- Admissible Controls and the Robot Flocking Problem.- The Robot Rendezvous Problem: Limited Camera Range.- A Convoy Problem.- A Look into the Future: Flying Robots.
Les mer
Authoritative yet accessible coverage of the fundamentals of distributed robotic systems Provides readers with a framework and launch pad for further research Familiarizes students with concrete robotic models by combining high-level concepts with illustrative figures and examples Includes supplementary material: sn.pub/extras
Les mer
GPSR Compliance The European Union's (EU) General Product Safety Regulation (GPSR) is a set of rules that requires consumer products to be safe and our obligations to ensure this. If you have any concerns about our products you can contact us on ProductSafety@springernature.com. In case Publisher is established outside the EU, the EU authorized representative is: Springer Nature Customer Service Center GmbH Europaplatz 3 69115 Heidelberg, Germany ProductSafety@springernature.com
Les mer

Produktdetaljer

ISBN
9783319247274
Publisert
2015-11-04
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Forfatter
Francis Bruce A.
Maggiore Manfredi

Biographical note

Manfredi Maggiore was born in Genoa, Italy. He received the “Laurea" degree in Electrical Engineering in 1996 from the University of Genoa and the PhD degree in Electrical Engineering from the Ohio State University, USA, in 2000. Since 2000 he has been with the Edward S. Rogers Sr. Department of Electrical and Computer Engineering, University of Toronto, Canada, where he is currently Professor. He has been a Visiting Professor at the University of Roma Tor Vergata (2001) and the University of Bologna (2007-2008). His research focuses on mathematical nonlinear control, and relies on methods from dynamical systems theory and differential geometry.

Bruce Francis was born in Toronto, Canada. He received all three degrees (BASc, MEng, PhD) from the University of Toronto. He has held teaching and research positions at Berkeley, Cambridge (UK), McGill, Concordia, Yale, and Waterloo, and finally the University of Toronto from 1984 to 2011. He retired in 2011 and since then has been an Emeritus Professor at the University of Toronto. He is the author and co-author of seven books (counting An Introduction to Distributed Robotics). In 2015 he received the IEEE Control Systems Award.

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