
A structure is an assembly that serves an engineering function. A smart structure is one that serves this function smartly, i.e. by responding adaptively in a pre-designed useful and efficient manner to changing environmental conditions. Adaptive behaviour of one or more materials constituting a smart structure requires nonlinear response. This book describes the three main types of nonlinear-response materials: ferroic materials, soft materials, and nanostructured materials. Information processing by biological and artificial smart structures is also discussed. A smart structure typically has sensors, actuators, and a control system. Progress in all these aspects of smart structures has leant heavily on mimicking Nature, and the all-important notion in this context has been that of evolution. Artificial Darwinian and Lamarckian evolution holds the key to the development of truly smart structures. Modestly intelligent robots are already on the horizon. Projections about the low-cost availability of adequate computing power and memory size indicate that the future really belongs to smart structures. This book covers in a compact format the entire gamut of concepts relevant to smart structures. It should be of interest to a wide range of students and professionals in science and engineering.
This book investigates the fundamental principles and engineering requirements necessary to create smart structures that exhibit adaptive, nonlinear responses to environmental stimuli. Author Vinod K. Wadhawan, a physicist, synthesizes concepts from materials science, biology, and information theory to argue that the future of engineering lies in mimicking natural evolutionary processes. He provides a framework for understanding how ferroic, soft, and nanostructured materials can be integrated with sensors and control systems to achieve artificial intelligence.
What You Will Find
Scope Limits
Experts recognize this monograph as a concise, high-level synthesis of interdisciplinary concepts for students and professionals. Readers frequently note the academic density of the prose, which assumes a foundational understanding of physics and materials science.
Page Count:
352
Publication Date:
2007-01-01
Publisher:
Oxford University Press
ISBN-10:
0191527998
ISBN-13:
9780191527999
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