LEADER 00000cam a2200661 i 4500 
003    OCoLC 
005    20240129213017.0 
006    m     o  d         
007    cr un|---aucuu 
008    211222t20222022njua    ob    001 0 eng   
010      2021061542 
015    GBC2A1419|2bnb 
016 7  020637811|2Uk 
019    1319828205|a1379471723|a1379488433 
020    9781119862864|q(electronic bk. : oBook) 
020    1119862868|q(electronic bk. : oBook) 
020    9781119862857|qelectronic publication 
020    111986285X|qelectronic publication 
020    9781119862840|qelectronic book 
020    1119862841|qelectronic book 
020    |qhardcover 
024 7  10.1002/9781119862864|2doi 
029 1  AU@|b000072000050 
029 1  UKMGB|b020637811 
035    (OCoLC)1319692123|z(OCoLC)1319828205|z(OCoLC)1379471723
       |z(OCoLC)1379488433 
037    9781119862833|bO'Reilly Media 
040    DLC|beng|erda|cDLC|dYDX|dDG1|dORMDA|dDG1|dOCLCF|dUKAHL
       |dN$T|dOCLCQ|dUKMGB|dOCLCO 
042    pcc 
049    INap 
082 00 658.5/6 
082 00 658.5/6|223/eng/20220520 
099    eBook O'Reilly for Public Libraries 
100 1  Duffie, Neil A.,|eauthor. 
245 10 Control theory applications for dynamic production systems
       :|btime and frequency methods for analysis and design /
       |cNeil A Duffie, University of Wisconsin, Madison, 
       Wisconsin.|h[O'Reilly electronic resource] 
250    First edition. 
264  1 Hoboken, NJ :|bJohn Wiley & Sons, Inc.,|c2022. 
264  4 |c©2022 
300    1 online resource :|billustrations (some color) 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
504    Includes bibliographical references and index. 
505 0  Continuous-Time and Discrete-Time Modeling of Production 
       Systems -- Transfer Functions and Block Diagrams -- 
       Fundamental Dynamic Characteristics and Time Response -- 
       Frequency Response -- Design of Decision-Making for Closed
       -Loop Production Systems -- Application Examples -- 
       Bibliography. 
520    "Production planning, operations and control are being 
       transformed by digitization, creating opportunities for 
       automation of decision making, reduction of delays in 
       making and implementing decisions, and significant 
       improvement of production system performance. Meanwhile, 
       to remain competitive, today's production industries need 
       to adapt to increasingly dynamic and turbulent markets. In
       this environment, production engineers and managers can 
       benefit from tools of control system engineering that 
       allow them to mathematically model, analyze and design 
       dynamic, changeable production systems with behavior that 
       is effective and robust in the presence of turbulence. 
       Research has shown that the tools of control system 
       engineering are important additions to the production 
       system engineer's toolbox, complementing traditional tools
       such as discrete event simulation. However, many 
       production engineers are unfamiliar with application of 
       these tools in their field. This book is a practical yet 
       thorough introduction to the use of transfer functions and
       control theoretical methods in the modeling, analysis and 
       design of the dynamic behavior of production systems. 
       Production engineers and managers will find this book a 
       valuable and fundamental resource for improving their 
       understanding of the dynamic behavior of modern production
       systems and guiding their design of future production 
       systems. In this book, emphasis is placed on analysis and 
       examples that illustrate the opportunities that control 
       theoretical time and frequency perspectives present for 
       understanding and designing the behavior of dynamic 
       production systems. The dynamic behavior of the components
       of these systems and their interactions must be understood
       first before decision making can be designed and 
       implemented that results in favorable overall dynamic 
       behavior of the production system, particularly when the 
       structure contains feedback. In the re-planning system 
       with the structure in Figure 1.1, control theoretical 
       modeling and analysis reveals relationships between the 
       frequency of re-planning decisions and delays in making 
       and implementing decisions that results undesirable 
       oscillatory behavior unless these relationships are taken 
       into account in design of replanning decision making. 
       Benefits of reducing delays using digital technologies can
       be quantified and used to guide re-planning cycle 
       redesign"--|cProvided by publisher. 
588    Description based on online resource; title from digital 
       title page (viewed on June 06, 2022). 
590    O'Reilly|bO'Reilly Online Learning: Academic/Public 
       Library Edition 
650  0 Production control. 
650  0 Control theory. 
650  6 Production|xContrôle. 
650  6 Théorie de la commande. 
650  7 Control theory|2fast 
650  7 Production control|2fast 
776 08 |iPrint version:|aDuffie, Neil A.|tControl theory 
       applications for dynamic production systems|bFirst 
       edition.|dHoboken, NJ : John Wiley & Sons, Inc., 2022
       |z9781119862833|w(DLC)  2021061541 
856 40 |uhttps://ezproxy.naperville-lib.org/login?url=https://
       learning.oreilly.com/library/view/~/9781119862833/?ar
       |zAvailable on O'Reilly for Public Libraries 
938    Askews and Holts Library Services|bASKH|nBDZ0050733909 
938    YBP Library Services|bYANK|n17946074 
938    EBSCOhost|bEBSC|n3291227 
994    92|bJFN