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For readers from both academia and industry wishing to pursue their studies and /or careers in planetary robotics, this book represents a one-stop tour of the history, evolution, key systems, and technologies of this emerging field. The book provides a comprehensive introduction to the key techniques and technologies that help to achieve autonomous space systems for cost-effective, high performing planetary robotic missions. Main topics covered include robotic vision, surface navigation, manipulation, mission operations and autonomy, being explained in both theoretical principles and practical use cases. The book recognizes the importance of system design hence discusses practices and tools that help take mission concepts to baseline design solutions, making it a practical piece of scientific reference suited to a variety of practitioners in planetary robotics.
For readers from both academia and industry wishing to pursue their studies and /or careers in planetary robotics, this book represents a one-stop tour of the history, evolution, key systems, and technologies of this emerging field. The book provides a comprehensive introduction to the key techniques and technologies that help to achieve autonomous space systems for cost-effective, high performing planetary robotic missions. Main topics covered include robotic vision, surface navigation, manipulation, mission operations and autonomy, being explained in both theoretical principles and practical use cases. The book recognizes the importance of system design hence discusses practices and tools that help take mission concepts to baseline design solutions, making it a practical piece of scientific reference suited to a variety of practitioners in planetary robotics.
This book presents a selection of conference contributions from CARO’13 (Conference on Aerospace Robotics), which was held in Warsaw from July 1 to 3, 2013. It presents the most important and crucial problems of space automation in context of future exploration programs. These programs could involve such issues as space situational awareness program, planetary protection, exploitation of minerals, assembly, manufacturing, and search for new habitable location for next human generations. The future exploration of Space and related activities will involve robots. In particular, new autonomous robots need to be developed with high degree of intelligence. Such robots would make space exploration possible but also they would make space automation an important factor in variety of activities related to Space.
This book follows up the debate on the future of science and technology at the Curious2022 – Future Insight Conference, the second event in this conference series initiated on the occasion of Merck’s 350th anniversary. In the chapters, some of the world’s top scientists, managers and entrepreneurs explore breakthrough technologies and how they can be applied to make a better world for humanity. The book begins with an introduction to the vision of the conference “United by science for a better tomorrow” and the impacts caused by the pandemic, highlighting the importance of gathering like-minded people to discuss and support the advancement of science and technology for the benefit of humanity. In the first part of the book, readers will also find a chapter written by the Executive Board of Merck KGaA discussing the importance of curiosity for innovation and an overview of the company’s contribution in the areas of life sciences, healthcare and electronics forward-moving the scientific discovery. The second part of the book offers insights of some of the scientific topics discussed at the conference, and particular attention is given to new therapies and sustainability. In the final part of the book, readers will find some thoughts on ethical principles guiding our application of science and technology to create a bright future for humanity, and diverse perspectives on topics such as health, life sciences, nutrition, material sciences, digitalization, AI, energy, mobility, space flight, robotics, the secrets of the human mind and new ways of working together. Given its interdisciplinary appeal, the book will inspire curiosity in a wide readership, from scholars and researchers to professionals with an interest in exploring the future of science and technology, solving the problems of today, and paving the way for a better tomorrow. Chapters 1 and 2 are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com
An introduction to the techniques and algorithms of the newest field in robotics. Probabilistic robotics is a new and growing area in robotics, concerned with perception and control in the face of uncertainty. Building on the field of mathematical statistics, probabilistic robotics endows robots with a new level of robustness in real-world situations. This book introduces the reader to a wealth of techniques and algorithms in the field. All algorithms are based on a single overarching mathematical foundation. Each chapter provides example implementations in pseudo code, detailed mathematical derivations, discussions from a practitioner's perspective, and extensive lists of exercises and class projects. The book's Web site, www.probabilistic-robotics.org, has additional material. The book is relevant for anyone involved in robotic software development and scientific research. It will also be of interest to applied statisticians and engineers dealing with real-world sensor data.
This book provides state-of-the-art scientific and engineering research findings and developments in the area of mobile robotics and associated support technologies. The book contains peer reviewed articles presented at the CLAWAR 2012 conference. Robots are no longer confined to industrial and manufacturing environments. A great deal of interest is invested in the use of robots outside the factory environment. The CLAWAR conference series, established as a high profile international event, acts as a platform for dissemination of research and development findings and supports such a trend to address the current interest in mobile robotics to meet the needs of mankind in various sectors of the society. These include personal care, public health, services in the domestic, public and industrial environments. The editors of the book have extensive research experience and publications in the area of robotics in general and in mobile robotics specifically, and their experience is reflected in editing the contents of the book.
This book analyzes the philosophical foundations of sensorimotor theory and discusses the most recent applications of sensorimotor theory to human computer interaction, child’s play, virtual reality, robotics, and linguistics. Why does a circle look curved and not angular? Why does red not sound like a bell? Why, as I interact with the world, is there something it is like to be me? An analytic philosopher might suggest: ``if we ponder the concept of circle we find that it is the essence of a circle to be round’’. However, where does this definition come from? Was it set in stone by the Gods, in other words by divine arbiters of circleness, redness and consciousness? Particularly, with regard to visual consciousness, a first attempt to explain why our conscious experience of the world appears as it does has been attributed to Kevin O’Regan and Alva Noe, who published their sensorimotor account of vision and visual consciousness in 2001. Starting with a chapter by Kevin O’Regan, Contemporary Sensorimotor Theory continues by presenting fifteen additional essays on as many developments achieved in recent years in this field. It provides readers with a critical review of the sensorimotor theory and in so doing introduces them to a radically new enactive approach in cognitive science.
This conference which was originally planned as workshop took place on October 19 to 22, 1998 in St-Hubert, Montréal. The idea of a conference devoted to Space Robotics matured when two IFAC Technical Committees, Aerospace Control and Robotics decided to co-sponsor such an event. The final decision converged with technological maturity of Space Robotics itself. It became obvious that robotics is a unique but viable technology that can be used in Space exploration. Robotics is the intelligent connection of perception to action. This broad definition of robotics encompasses both science and technology. In the early days, the changing technology in manufacturing was driving the development in robotics. New manufacturing technology required new, economical and efficient methods of production. Development was geared towards robots in the form of manipulators. In later years, the development was driven by demand in service industry, military and special applications. One of those special applications is related to Space and its exploration. The rapid development in Space related technologies brought forward questions about the need for automation technologies that would allow for operations in Space in an efficient and safe way. Some Space operations could not have possibly been done without extensive use of automation and especially robotics. There are numerous robotics meetings and conferences across the world but it became obvious that the meetings addressing particular problems in space robotics would be useful and helpful. The Program Committee tried to include in conference presentations all specific fields of robotics that are important in Space applications. On manipulators' side, kinematics, manipulation, dexterity, sensors and control systems have been covered. On mobile robots' side new control techniques, telerobotics, nonholonomic systems, and trajectory planning have been considered. Also, applications and Space operations have been reviewed. Altogether 30 papers were selected and accepted by the International Organizing Committee. Papers were presented in 8 sessions in three days. There were also three keynote speeches presented by invited speakers and three distinguished speakers to present keynote lectures on three separate occasions. Speakers were chosen in order to give a broad overview of space robotics activities in all involved countries. Participants came from Belgium, Canada, France, Germany, Italy, Japan, Netherlands, Poland, United Kingdom and the USA. In day 1, eight papers were presented in two sessions. Session 1 was related to Dextrous Robots and Session 2 to Mobile Robots (Part 1 and 2). Day 2 included a keynote speech on the topic of "Robotics and On-Board Autonomy: For What and How Far Can We Go?", followed by Session 3: Robot Controllers and Session 4: Vision Systems and Control. Day 3 consisted of 5 sessions, Session 5: Manipulation Control, Session 6: Kinematics, Session 7: Nonholonomic Systems, Session 8: Space Operation (Part 1 and Part 2).