<p/><br></br><p><b> About the Book </b></p></br></br>Interweaving mechanisms, electronics, sensors, and control strategies with software and information technology, this book examines the demands and ideas of customers, and finds the most efficient, cost-effective method to transform their goals into successful commercial products.<p/><br></br><p><b> Book Synopsis </b></p></br></br>Learn how to study, analyze, select, and design a successful mechatronic product<br /> <br /> This innovative, cutting-edge publication presents the essential nature of mechatronics, a field at the crossroads of information technology and mechanical and electrical engineering. Readers learn how to blend mechanisms, electronics, sensors, control strategies, and software into a functional design. Given the breadth that the field of mechatronics draws upon, this publication provides a critical service to readers by paring down the topics to the most essential ones.<br /> <br /> A common thread throughout the publication is tailoring performance to the actual needs of the user, rather than designing by the book. Practical methods clarify engineering trade-offs needed to design and manufacture competitive state-of-the-art products and systems.<br /> <br /> Key features include: <br /> * Easy-to-construct set of laboratory experiments to give readers practice in controlling difficult systems using discrete-time algorithms<br /> * Essentials of control theory, concentrating on state-space and easily constructed simulations in JavaScript, including typical mechatronic systems with gross nonlinearities where linear methods give the wrong answer<br /> * Hot topics that include advances in the automotive, multimedia, robotics, defense, medical, and consumer industries<br /> * Author-provided Web site at www.EssMech.com offers additional resources, including videos, dynamic simulation examples, software tools, and downloads<br /> <br /> <br /> There are hundreds of choices involved in all but the simplest of mechatronic design tasks. Using this publication as a reference, electrical, mechanical, and computer designers and engineers can find the most efficient, cost-effective methods to transform their goals into successful commercial products. With its use of laboratory experiments, this publication is also recommended as a graduate-level textbook.<br /> <br /> Author Web site located at www.EssMech.com provides in-depth support material that includes links to simulations for modeling dynamic systems with real-time interactions, image processing examples, and 3D robot modeling software, enabling readers to construct and manipulate their own mechanism as well as other useful links.<p/><br></br><p><b> From the Back Cover </b></p></br></br>Learn how to study, analyze, select, and design a successful mechatronic product<br /> <br /> <p>This innovative, cutting-edge publication presents the essential nature of mechatronics, a field at the crossroads of information technology and mechanical and electrical engineering. Readers learn how to blend mechanisms, electronics, sensors, control strategies, and software into a functional design. Given the breadth that the field of mechatronics draws upon, this publication provides a critical service to readers by paring down the topics to the most essential ones.</p> <p>A common thread throughout the publication is tailoring performance to the actual needs of the user, rather than designing by the book. Practical methods clarify engineering trade-offs needed to design and manufacture competitive state-of-the-art products and systems.</p> <p>Key features include: </p> <ul> <li>Easy-to-construct set of laboratory experiments to give readers practice in controlling difficult systems using discrete-time algorithms</li> <li>Essentials of control theory, concentrating on state-space and easily constructed simulations in JavaScript, including typical mechatronic systems with gross nonlinearities where linear methods give the wrong answer</li> <li>Hot topics that include advances in the automotive, multimedia, robotics, defense, medical, and consumer industries</li> <li>Author-provided Web site at www.EssMech.com offers additional resources, including videos, dynamic simulation examples, software tools, and downloads</li> </ul> <p>There are hundreds of choices involved in all but the simplest of mechatronic design tasks. Using this publication as a reference, electrical, mechanical, and computer designers and engineers can find the most efficient, cost-effective methods to transform their goals into successful commercial products. With its use of laboratory experiments, this publication is also recommended as a graduate-level textbook.</p> <p>Author Web site located at www.EssMech.com provides in-depth support material that includes links to simulations for modeling dynamic systems with real-time interactions, image processing examples, and 3D robot modeling software, enabling readers to construct and manipulate their own mechanism as well as other useful links.</p><p/><br></br><p><b> About the Author </b></p></br></br><b>JOHN BILLINGSLEY</b>, PhD, is Professor of Mechatronic Engineering at the University ofSouthern Queensland, Australia. He is the founder or cofounder of several companies that have marketed innovations from embedded software for domestic cookers to hospital systems that capture and analyze the menu choices of patients, wall-climbing robots for the nuclear industry that assess and improve the safety of power station containment vessels, and vision-guided self-steering tractors.
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