Autonomous Land Vehicles e-bog
238,03 DKK
(inkl. moms 297,54 DKK)
This textbook results from a series of lectures concerning autonomous mobile robots which have been held at the University of Kaiserslautern - tween 1999 and 2009. Methods and algorithms are introduced which can be used for developing complex autonomous land vehicles. Starting from hist- ical remarks and application areas of service robots, the vehicle kinematics modeling is introduced and exam...
E-bog
238,03 DKK
Forlag
Vieweg+Teubner Verlag
Udgivet
23 februar 2010
Genrer
Automatic control engineering
Sprog
English
Format
pdf
Beskyttelse
LCP
ISBN
9783834893345
This textbook results from a series of lectures concerning autonomous mobile robots which have been held at the University of Kaiserslautern - tween 1999 and 2009. Methods and algorithms are introduced which can be used for developing complex autonomous land vehicles. Starting from hist- ical remarks and application areas of service robots, the vehicle kinematics modeling is introduced and examples of the drive kinematics of di?erent vehicles are given. Thereafter, typical sensors and sensor systems are - scribed which are used to determine the internal state of the machine and its operational environment. Localization, i. e the determination where the robot is, is still a di?cult problem. In the textbook, several methods are discussed which can be used under speci?c preconditions. Map building as well as navigation strategies complement the set of basic methods. The last two chapters deal with the questions of how to compile the above mentioned methods using powerful control architecture and what frameworks to use to support the development process. This textbook is written for beginners and advanced students from the ?elds of computer science, mechanical engineering, and electrical engine- ing, specializing in autonomous mobile systems. The book is also suited for engineers with a special interest in the development of wheel driven service robots. The writing of the manuscript was only possible with the assistance of several researchers of our Robotics Research Lab. Special thanks to Seb- tian Blank, Tim Braun, and Martin Proetzsch for proof-reading and editing.