A comparative experiment of control architectures (original) (raw)
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Advanced Textbooks in Control and Signal Processing
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CONTROL SYSTEMS IN OUR DAILY LIFE
This paper presents development and applications of Control Systems (CS). Several characteristics of CS can be linked to human behavior. CS can "think" in the sense that they can replace to some extent, human operation. CS can distinguish between open-loop and closed-loop CS and it is a concept or principle that seems to fundamental in nature and not necessarily peculiar to engineering. In human social and political organizations, for example, a leader remains the leader only as long as she is successful in realizing the desires of the group. CS theory can be discussed from four viewpoints as: an intellectual discipline within science and the philosophy of science, a part of engineering, with industrial applications and Social Systems (SS) of the present and the future. In global communication, developed countries and developing countries should build several attractive and sound symbiosis bridges, to prevent loss of universe balances. CS applications have social impacts not only in developed countries but also in developing countries. A new work force strategy without denying the existing of CS is established by retooling the work forces, thus the challenges of social impacts could be answers wisely and would be bright opportunities to improve human standards of living.
2001
The use of registered names, trademarks etc. in this publication does not imply, even in the absence of a specific statement, that such names are exempt from the relevant laws and regulations and therefore free for general use. The publisher makes no representation, express or implied, with regard to the accuracy of the information contained in this book and cannot accept any legal responsibility or liability for any errors or omissions that may be made.
Tools and techniques for evaluating control architecture
Proceedings of the 1999 IEEE International Symposium on Computer Aided Control System Design (Cat. No.99TH8404), 1999
Conceiving, designing, and constructing computercontrolled systems require adequate models of system components. One has to determine which components are independent of others as well as the nature of interdependencies among components. The arrangement of relationships among dependent and independent components determines the system architecture. Modifying the behavior of a network of components comprising a system architecture is the central task of control engineering. Classical design approaches focus on single-and multivariable components whose dynamical models are independent of each other.
2009
Die ZBW räumt Ihnen als Nutzerin/Nutzer das unentgeltliche, räumlich unbeschränkte und zeitlich auf die Dauer des Schutzrechts beschränkte einfache Recht ein, das ausgewählte Werk im Rahmen der unter
Importance and Scope of Control Systems
2016
This paper is to answer the most basic questions asked about the Control Systems (CS) that is "What is a control system, what is its importance in our daily life, and scope of control systems". The CS can in a way reduce the human interference in the daily work of household and industry and many other domains of human life and thus reducing the human error. Here the authors have tried to give an insight of the topics broadly under the CS. Authors have tried to explain the control theories and use of Control Systems in main six categories that are household, agriculture, transportation, medical and defense which are major domains of the human life.
Configurations of control: An exploratory analysis
Management Accounting Research, 2015
There is growing interest in how management controls operate together as a system of interrelated mechanisms. Although theoretical debate dates back to the seminal paper of Otley (1980), there remains little empirical analysis of how control mechanisms combine as a package. To increase knowledge in this area this study explores how multiple accounting and other control mechanisms commonly combine and the associations these combinations have with firm context. From a cross-sectional sample of 400 firms, this study presents an empirically derived taxonomy of five configurations used by top managers, labelled as simple, results, action, devolved, and hybrid. Many of these patterns closely resemble conventional control configurations, while others represent distinctively contemporary arrangements, such as flexible variants of traditional bureaucracy (action), and instances where multiple and seemingly conflicting control modes intermesh (hybrid). In analyzing these configurations this study provides accounting and control researchers with empirical observations to refine and extend existing control frameworks and theory.
C2 - Command and Control: A System of Systems to Control Complexity
American Journal of Management
Command and Control," or "C2," is the theoretical part of a set of means and methods (C4ISR) for managing large human complex systems usually engaged in operations and whose lack of effective management can have highly undesirable or even disastrous consequences. It is mainly used in military context. This article investigates the theory that supports C2 principles and C4ISR practice as well as their role in the regulation of complexity of regulating movement while being itself a generator of its complexity. The present analysis belongs to cybernetics and explores military applications and the status of C2 as a system of systems to control complexity.