Adaptation in Natural and Artificial Systems by John H. Holland explores the concept of adaptation and evolution in both biological and computational systems. Holland introduces genetic algorithms as a method for problem-solving and optimization inspired by the principles of natural selection. This influential book provides a deep understanding of how adaptive systems work and their applications in various fields.
Individuals interested in understanding the principles of adaptation and evolution in natural and artificial systems
Students and researchers in the fields of computer science, biology, and artificial intelligence
Professionals looking to apply genetic algorithms and evolutionary computation to solve complex problems in various industries
Automotive Fuel and Emissions Control Systems by James D. Halderman provides a comprehensive overview of the fuel and emissions control systems in modern vehicles. It covers topics such as fuel injection, exhaust gas recirculation, and catalytic converters, offering in-depth explanations and troubleshooting techniques. Whether you're a student or a professional in the automotive industry, this book is an invaluable resource for understanding and maintaining these critical systems.
Automotive technicians and mechanics looking to deepen their understanding of fuel and emissions systems
Students studying automotive technology or engineering
Professionals seeking to stay updated on the latest advancements in automotive fuel and emissions control
Basic and Advanced Regulatory Control by Harold L. Wade provides a comprehensive guide to the principles and practices of process control in various industries. From the basics of control systems to advanced techniques, this book equips readers with the knowledge and skills needed to design, implement, and troubleshoot regulatory control strategies. With practical examples and clear explanations, it is an essential resource for engineers and students in the field of control systems.
Process control engineers looking to deepen their understanding of regulatory control
Students studying chemical engineering or industrial automation
Professionals in the wet process industries seeking practical guidance on improving control systems
Control System Design Guide by George Ellis provides a comprehensive overview of control system design principles and techniques. It covers topics such as modeling, analysis, and design of control systems for various applications. With practical examples and clear explanations, this book is a valuable resource for engineers and students interested in mastering control system design.
Engineers and professionals looking to gain a comprehensive understanding of control system design
Students and academics studying electrical, mechanical, or aerospace engineering
Practitioners seeking practical guidance on implementing control systems in real-world applications
Digital Control of Dynamic Systems by Gene F. Franklin provides a comprehensive introduction to the analysis and design of digital control systems. It covers key concepts such as modeling of dynamic systems, digital controller design, and practical implementation issues. With clear explanations and numerous examples, this book is a valuable resource for students and professionals in the field of control engineering.
Students and professionals in the field of control systems engineering
Those seeking a comprehensive understanding of digital control theory and its practical applications
Readers who want to learn how to design, analyze, and implement digital control systems
Error Control Systems for Digital Communication and Storage by Stephen B. Wicker delves into the critical topic of error control coding in digital communication and storage systems. It provides a comprehensive overview of the principles, techniques, and practical applications of error control coding, making it an essential read for anyone involved in the design and implementation of reliable communication and storage systems.
Engineers and researchers working in the field of digital communication and storage
Graduate students studying error control coding and information theory
Professionals looking to deepen their understanding of error control systems and their practical applications
Feedback Control for Computer Systems by Philipp K. Janert provides a comprehensive introduction to the principles and practices of feedback control in the context of computer systems. Through real-world examples and practical explanations, the book explores how feedback control can be used to manage and optimize the performance of software and hardware systems. It is a valuable resource for anyone interested in understanding and applying control theory in the field of computer science.
Computer systems engineers and developers seeking to understand and implement feedback control in their systems
Professionals in the field of data center management and cloud computing looking to optimize performance and resource allocation
Students and academics studying control theory and its application to computer systems
How to Use and Upgrade to GM Gen III Ls-Series Powertrain Control Systems by Mike Noonan is a comprehensive guide that provides step-by-step instructions for understanding, tuning, and optimizing the GM Gen III LS-series engine control systems. Whether you're a beginner or an experienced enthusiast, this book equips you with the knowledge and tools to harness the full potential of these powerful engines.
Automotive enthusiasts and DIY mechanics looking to understand and modify their LS-series engines
Professionals in the automotive industry seeking to expand their knowledge of GM powertrain control systems
Individuals who want to optimize their vehicle's performance and fuel efficiency through advanced engine tuning
Mechatronic System Control, Logic, and Data Acquisition by Robert H. Bishop provides a comprehensive overview of the principles and applications of mechatronics. It covers topics such as control system design, logic and programming, and data acquisition techniques, making it an essential resource for students and professionals in the field.
Undergraduate and graduate students studying mechatronics, control systems, or robotics
Engineers and researchers working in the field of mechatronics and automation
Professionals seeking a comprehensive understanding of control, logic, and data acquisition in mechatronic systems
Observers in Control Systems by George Ellis provides a comprehensive understanding of observer theory and its practical applications in control systems. The book covers topics such as state estimation, observer design, and implementation, offering insights into how observers can improve system performance and robustness. With clear explanations and real-world examples, it is a valuable resource for students and professionals in the field of control engineering.
Engineers and researchers working in the field of control systems
Students studying control theory and its applications
Professionals looking to enhance their understanding of observers and their practical implementation
Show Networks and Control Systems by John Huntington is a comprehensive guide to the technology used in live entertainment productions. From lighting and sound to video and special effects, this book explores the intricate network systems and control mechanisms that bring performances to life. It is a valuable resource for anyone working in the entertainment industry or studying technical theater.
Professionals in the entertainment industry who want to understand and master show control systems
Students studying technical theatre, live event production, or related fields
Technicians and engineers looking to expand their knowledge of networked control systems
System 390 Job Control Language by Gary DeWard Brown is a comprehensive guide to the Job Control Language (JCL) used in IBM mainframe operating systems. It covers the basics of JCL, including job statements, job control statements, and procedures, and provides practical examples and tips for writing efficient and error-free JCL code. Whether you're a beginner or an experienced mainframe programmer, this book is a valuable resource for mastering JCL and optimizing your job control tasks.
IT professionals who work with mainframe systems and need to understand and write JCL
Programmers and developers who want to expand their skills and knowledge in mainframe computing
Students and educators in computer science or information technology programs
The Digital Zone System by Robert Fisher explores the concept of the Zone System, originally developed for film photography by Ansel Adams, and adapts it to the digital age. This book provides a comprehensive guide to understanding and applying the principles of exposure, contrast, and tonal control in digital photography, offering practical techniques for achieving optimal image quality.
Photography enthusiasts who want to improve their digital image editing skills
Professional photographers looking to achieve greater control and precision in their post-processing workflow
Artists and creatives who want to explore new techniques for enhancing the visual impact of their digital photos
The HCS12 / 9S12 by Han-Way Huang is a comprehensive guide to understanding and programming the HCS12/9S12 microcontroller. It covers topics such as assembly language programming, C language programming, and interfacing with peripherals. With clear explanations and practical examples, this book is a valuable resource for students and professionals interested in embedded systems and microcontroller programming.
Embedded system designers and engineers looking to learn about the HCS12/9S12 microcontroller
Students studying electrical engineering or computer science with an interest in microcontroller programming
Professionals seeking a comprehensive guide to programming and interfacing the HCS12/9S12 microcontroller
Control Systems Engineering by Norman S. Nise provides a comprehensive introduction to the analysis and design of control systems. The book covers key concepts such as feedback control, transfer functions, and state-space models, and offers practical examples and exercises to help readers understand the material. Whether you're a student or a practicing engineer, this book is a valuable resource for learning about control systems.
Students studying control systems engineering
Professionals looking to enhance their understanding of control systems
Engineers and practitioners seeking practical insights and real-world applications
Control System Design by Bernard Friedland provides a comprehensive introduction to the principles and techniques of control system design. It covers topics such as modeling of dynamic systems, performance specifications, and various design methods including root locus, frequency response, and state-space analysis. The book also includes numerous examples and exercises to help readers apply the concepts to real-world engineering problems.
Students or professionals studying or working in the field of control systems engineering
Individuals looking to deepen their understanding of state-space methods and their practical applications
Readers interested in gaining insights into the design and implementation of control systems for various engineering systems