Complex Engineered Systems: Science Meets Technology
Recent advances in science and technology have led to a rapid increase

in the complexity of most engineered systems. In many notable cases,

this change has been a qualitative one rather than merely one of magnitude.

A new class of Complex Engineered Systems (CES) has emerged as a result

of technologies such as the Internet, GPS, wireless networking, micro-robotics, MEMS, fiber-optics and nanotechnology. These complex engineered systems are composed of many heterogeneous subsystems and are characterized by observable complex behaviors that emerge as a result of nonlinear spatio-temporal interactions among the subsystems at several levels of organization and abstraction. Examples of such systems include the World-Wide Web, air and ground traffic networks, distributed manufacturing environments, and globally distributed supply networks, as well as new paradigms such as self-organizing sensor networks, self-configuring robots, swarms of autonomous aircraft, smart materials and structures, and self-organizing computers. Understanding, designing, building and controlling such complex systems is going to be a central challenge for engineers in the coming decades.

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Complex Engineered Systems: Science Meets Technology
Recent advances in science and technology have led to a rapid increase

in the complexity of most engineered systems. In many notable cases,

this change has been a qualitative one rather than merely one of magnitude.

A new class of Complex Engineered Systems (CES) has emerged as a result

of technologies such as the Internet, GPS, wireless networking, micro-robotics, MEMS, fiber-optics and nanotechnology. These complex engineered systems are composed of many heterogeneous subsystems and are characterized by observable complex behaviors that emerge as a result of nonlinear spatio-temporal interactions among the subsystems at several levels of organization and abstraction. Examples of such systems include the World-Wide Web, air and ground traffic networks, distributed manufacturing environments, and globally distributed supply networks, as well as new paradigms such as self-organizing sensor networks, self-configuring robots, swarms of autonomous aircraft, smart materials and structures, and self-organizing computers. Understanding, designing, building and controlling such complex systems is going to be a central challenge for engineers in the coming decades.

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Complex Engineered Systems: Science Meets Technology

Complex Engineered Systems: Science Meets Technology

Complex Engineered Systems: Science Meets Technology

Complex Engineered Systems: Science Meets Technology

Overview

Recent advances in science and technology have led to a rapid increase

in the complexity of most engineered systems. In many notable cases,

this change has been a qualitative one rather than merely one of magnitude.

A new class of Complex Engineered Systems (CES) has emerged as a result

of technologies such as the Internet, GPS, wireless networking, micro-robotics, MEMS, fiber-optics and nanotechnology. These complex engineered systems are composed of many heterogeneous subsystems and are characterized by observable complex behaviors that emerge as a result of nonlinear spatio-temporal interactions among the subsystems at several levels of organization and abstraction. Examples of such systems include the World-Wide Web, air and ground traffic networks, distributed manufacturing environments, and globally distributed supply networks, as well as new paradigms such as self-organizing sensor networks, self-configuring robots, swarms of autonomous aircraft, smart materials and structures, and self-organizing computers. Understanding, designing, building and controlling such complex systems is going to be a central challenge for engineers in the coming decades.

Product Details

ISBN-13: 9783642069376
Publisher: Springer Berlin Heidelberg
Publication date: 11/19/2010
Series: Understanding Complex Systems
Edition description: Softcover reprint of hardcover 1st ed. 2006
Pages: 386
Product dimensions: 6.10(w) x 9.25(h) x 0.36(d)

Table of Contents

Complex Engineered Systems: A New Paradigm.- Engineering Complex Systems: Multiscale Analysis and Evolutionary Engineering.- The Structure and Dynamics of Complex Product Design.- On the Nature of Design.- Creation of desirable complexity: strategies for designing selforganized systems.- Understanding the Complexity of Design.- Spiraling out of Control: Problem-Solving Dynamics in Complex Distributed Engineering Projects.- The Dynamics of Collaborative Design: Insights From Complex Systems and Negotiation Research.- Modularity in the Design of Complex Engineering Systems.- Engineering Complex Systems.- Negotiation algorithms for collaborative design settings.- Information Theory— The Bridge Connecting Bounded Rational Game Theory and Statistical Physics.- Engineering Amorphous Systems, Using Global-to-Local Compilation.- A Machine Learning Method for Improving Task Allocation in Distributed Multi-Robot Transportation.- Towards Pro-active Embodied Agents: On the Importance of Neural Mechanisms Suitable to Process Time Information.- Autonomous Discovery and Functional Response to Topology Change in Self-Reconfigurable Robots.
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Science & Technology
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Engineering
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Theories of Science
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System Theory

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