It is at least two decades since the conventional robotic
manipulators have become a common manufacturing tool for different
industries, from automotive to pharmaceutical. The proven benefits
of utilizing robotic manipulators for manufacturing in different
industries motivated scientists and researchers to try to extend
the applications of robots to many other areas by inventing several
new types of robots other than conventional manipulators. The new
types of robots can be categorized in two groups; redundant (and
hyper-redundant) manipulators, and mobile (ground, marine, and
aerial) robots. These groups of robots, known as advanced robots,
have more freedom for their mobility, which allows them to do tasks
that the conventional manipulators cannot do.
Engineers have taken advantage of the extra mobility of the
advanced robots to make them work in constrained environments,
ranging from limited joint motions for redundant (or
hyper-redundant) manipulators to obstacles in the way of mobile
(ground, marine, and aerial) robots.
Since these constraints usually depend on the work environment,
they are variable. Engineers have had to invent methods to allow
the robots to deal with a variety of constraints automatically. A
robot that is equipped with those methods is called an Autonomous
Robot.
Autonomous Robots: Kinematics, Path Planning, and Control covers
the kinematics and dynamic modeling/analysis of Autonomous Robots,
as well as the methods suitable for their control. The text is
suitable for mechanical and electrical engineers who want to
familiarize themselves with methods of modeling/analysis/control
that have been proven efficient through research.
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