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Foundations of Robotics: A Multidisciplinary Approach with Python and ROS 2022 ed. [Kõva köide]

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  • Formaat: Hardback, 543 pages, kõrgus x laius: 235x155 mm, kaal: 1113 g, 174 Illustrations, color; 52 Illustrations, black and white; XXI, 543 p. 226 illus., 174 illus. in color., 1 Hardback
  • Ilmumisaeg: 27-Sep-2022
  • Kirjastus: Springer Verlag, Singapore
  • ISBN-10: 9811919828
  • ISBN-13: 9789811919824
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Foundations of Robotics: A Multidisciplinary Approach with Python and ROS 2022 ed.Suurem pilt
  • Formaat: Hardback, 543 pages, kõrgus x laius: 235x155 mm, kaal: 1113 g, 174 Illustrations, color; 52 Illustrations, black and white; XXI, 543 p. 226 illus., 174 illus. in color., 1 Hardback
  • Ilmumisaeg: 27-Sep-2022
  • Kirjastus: Springer Verlag, Singapore
  • ISBN-10: 9811919828
  • ISBN-13: 9789811919824
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9789811919824.html
This open access book introduces key concepts in robotics in an easy to understand language using an engaging project-based approach. It covers contemporary topics in robotics, providing an accessible entry point to fundamentals in all the major domains. A section is dedicated to introducing programming concepts using Python, which has become a language of choice in robotics and AI. The book also introduces the reader to the Robot Operating System (ROS), the ubiquitous software and algorithmic framework used by researchers and the industry. The book provides an inspired, up-to-date and multidisciplinary introduction to robotics in its many forms, including emerging topics related to robotics on Machine Learning, ethics, Human-Robot Interaction,  and Design Thinking. The book also includes interviews with industry experts, providing an additional layer of insight into the world of robotics. The book is made open access through the generous support from Kinova Robotics. The bookis suitable as an undergraduate textbook in a relevant engineering course. It is also suitable for students in art and design, high school students, and self-learners who would like to explore foundational concepts in robotics.





This book provides the foundation for understanding how robots work. It is the accessible introduction that artists and engineers have been waiting for.





- Ken Goldberg, William S. Floyd Jr. Distinguished Chair in Engineering, UC Berkeley.
Part I Contextual Design
1 Genealogy of Artificial Beings: From Ancient Automata to Modern Robotics
3(40)
Nicolas Reeves
David St-Onge
2 Teaching and Learning Robotics: A Pedagogical Perspective
43(20)
Eleni Petraki
Damith Herath
3 Design Thinking: From Empathy to Evaluation
63(20)
Fanke Peng
4 Software Building Blocks: From Python to Version Control
83(22)
Damith Herath
Adam Haskard
Niranjan Shukla
5 The Robot Operating System (ROS1&2): Programming Paradigms and Deployment
105(22)
David St-Onge
Damith Herath
6 Mathematical Building Blocks: From Geometry to Quaternions to Bayesian
127(50)
Rebecca Stower
Bruno Belzile
David St-Onge
Part II Embedded Design
7 What Makes Robots? Sensors, Actuators, and Algorithms
177(28)
Jiefei Wang
Damith Herath
8 How to Move? Control, Navigation and Path Planning for Mobile Robots
205(34)
Jiefei Wang
Damith Herath
9 Lost in Space! Localisation and Mapping
239(26)
Damith Herath
10 How to Manipulate? Kinematics, Dynamics and Architecture of Robot Arms
265(34)
Bruno Belzile
David St-Onge
11 Get Together! Multi-robot Systems: Bio-Inspired Concepts and Deployment Challenges
299(34)
Vivek Shankar Varadharajan
Giovanni Beltrame
12 The Embedded Design Process: CAD/CAM and Prototyping
333(44)
Eddi Pianca
Part III Interaction Design
13 Social Robots: Principles of Interaction Design and User Studies
377(38)
Janie Busby Grant
Damith Herath
14 Safety First: On the Safe Deployment of Robotic Systems
415(26)
Bruno Belzile
David St-Onge
15 Managing the World Complexity: From Linear Regression to Deep Learning
441(32)
Yann Bouteiller
16 Robot Ethics: Ethical Design Considerations
473(22)
Dylan Cawthorne
Part IV Projects
17 Robot Hexapod Build Labs
495(20)
David Hinwood
Damith Herath
18 Deployment of Advanced Robotic Solutions: The ROS Mobile Manipulator Laboratories
515(22)
David St-Onge
Corentin Boucher
Bruno Belzile
Index 537
Damith Herath (Ph.D., Robotics) is an Associate Professor in Robotics and Art at the University of Canberra. Damith is a multi-award winning entrepreneur and a roboticist with extensive experience leading multidisciplinary research teams on complex robotic integration, industrial and research projects for over two decades. He founded Australias first collaborative robotics startup in 2011 and was named one of the most innovative young tech companies in Australia in 2014. Teams he led in 2015 and 2016 consecutively became finalists and, in 2016, a top-ten category winner in the coveted Amazon Robotics Challenge - an industry-focussed competition amongst the robotics research elite. In addition, Damith has chaired several international workshops on Robots and Art and is the lead editor of the book "Robots and Art: Exploring an Unlikely Symbiosis" - the first significant work to feature leading roboticists and artists together in the field of Robotic Art.





David St-Onge (Ph.D., Mech. Eng.) is an Associate Professor in the Mechanical Engineering Department at the École de technologie supérieure and director of the INIT Robots Lab (initrobots.ca). Davids research focuses on human-swarm collaboration more specifically with respect to operators cognitive load and motion-based interactions. He has over 10 years experience in the field of interactive media (structure, automatization and sensing) as workshop production director and as R&D engineer. He is an active member of national clusters centered on human-robot interaction (REPARTI) and art-science collaborations (Hexagram). He participates in national training programs for highly qualified personnel for drone services (UTILI), as well as for the deployment of industrial cobots (CoRoM). He led the team effort to present the first large-scale symbiotic integration of robotic art at the IEEE International Conference on Robotics and Automation (ICRA 2019).