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Author: Paul T. Ward
Publisher: Pearson Education
ISBN: 0768685176
Category : Computers
Languages : en
Pages : 286
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Book Description
Real-time and embedded systems are in widespread use in the modern world. From the microprocessor controller in a camera, through "smart" traffic lights and production control systems, to large defense systems, computer technology is increasingly a part of systems that control and respond to their environments in real-time. As the technology has improved, we have come to rely on these systems more and more --- we have even put our lives in their hands. Airplanes, biomedical accelerators, nuclear power plants, and the like all depend on real-time control to operate safely. A failure in a control system, such as not responding correctly to faults in the environment, could endanger many lives. Unfortunately, there is a tendency for developers to focuse too heavily on the intrcacies of the engineering and computer technology, to the detriment of understanding the real-world problem at hand. At best, this wastes time and resouces and at worst it is dangerous in light of the life-critical nature of today's systems. This misplaced focus can result at least partly from the lack of a comprehensive set of modeling tools and techniques fitted to the real-time development environment. This book provides the tools and techniques needed for visualizing and verifying the operation of a real-time system prior to construction, and demonstrates their usefulness.
Author: Paul T. Ward
Publisher: Pearson Education
ISBN: 0768685176
Category : Computers
Languages : en
Pages : 286
Get Book Here
Book Description
Real-time and embedded systems are in widespread use in the modern world. From the microprocessor controller in a camera, through "smart" traffic lights and production control systems, to large defense systems, computer technology is increasingly a part of systems that control and respond to their environments in real-time. As the technology has improved, we have come to rely on these systems more and more --- we have even put our lives in their hands. Airplanes, biomedical accelerators, nuclear power plants, and the like all depend on real-time control to operate safely. A failure in a control system, such as not responding correctly to faults in the environment, could endanger many lives. Unfortunately, there is a tendency for developers to focuse too heavily on the intrcacies of the engineering and computer technology, to the detriment of understanding the real-world problem at hand. At best, this wastes time and resouces and at worst it is dangerous in light of the life-critical nature of today's systems. This misplaced focus can result at least partly from the lack of a comprehensive set of modeling tools and techniques fitted to the real-time development environment. This book provides the tools and techniques needed for visualizing and verifying the operation of a real-time system prior to construction, and demonstrates their usefulness.
Author: Paul T. Ward
Publisher:
ISBN:
Category : Computers
Languages : en
Pages : 178
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Book Description
Author: Paul T. Ward
Publisher: Pearson Education
ISBN: 0768685184
Category : Computers
Languages : en
Pages : 185
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Book Description
Without a framework for organizing and codifying these ideas, systems modeling can become disjointed, frustrating, and ultimately ineffective. This book is extensively illustrated with detailed examples illuminating the main points discussed. Its four appendices provide fully worked examples of pertinent applications.
Author: Paul T. Ward
Publisher: Pearson Education
ISBN: 0768685214
Category : Computers
Languages : en
Pages : 329
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Book Description
In the first two volumes of Structured Development for Real Time Systems, authors Paul Ward and Stephen Mellor described a comprehensive modeling notation and a set of guidelines for using the notation to build an essential model. In this final volume, the guidelines are extended to encompass the building of an implementation model, and the notation is extended to include a hierarchical description of code organization.
Author: Phillip A. Laplante
Publisher: John Wiley & Sons
ISBN: 0471648280
Category : Science
Languages : en
Pages : 480
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Book Description
The leading guide to real-time systems design-revised and updated This third edition of Phillip Laplante's bestselling, practical guide to building real-time systems maintains its predecessors' unique holistic, systems-based approach devised to help engineers write problem-solving software. Dr. Laplante incorporates a survey of related technologies and their histories, complete with time-saving practical tips, hands-on instructions, C code, and insights into decreasing ramp-up times. Real-Time Systems Design and Analysis, Third Edition is essential for students and practicing software engineers who want improved designs, faster computation, and ultimate cost savings. Chapters discuss hardware considerations and software requirements, software systems design, the software production process, performance estimation and optimization, and engineering considerations. This new edition has been revised to include: * Up-to-date information on object-oriented technologies for real-time including object-oriented analysis, design, and languages such as Java, C++, and C# * Coverage of significant developments in the field, such as: New life-cycle methodologies and advanced programming practices for real-time, including Agile methodologies Analysis techniques for commercial real-time operating system technology Hardware advances, including field-programmable gate arrays and memory technology * Deeper coverage of: Scheduling and rate-monotonic theories Synchronization and communication techniques Software testing and metrics Real-Time Systems Design and Analysis, Third Edition remains an unmatched resource for students and practicing software engineers who want improved designs, faster computation, and ultimate cost savings.
Author: Phillip A. Laplante
Publisher: John Wiley & Sons
ISBN: 1118136594
Category : Science
Languages : en
Pages : 584
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Book Description
The leading text in the field explains step by step how to write software that responds in real time From power plants to medicine to avionics, the world increasingly depends on computer systems that can compute and respond to various excitations in real time. The Fourth Edition of Real-Time Systems Design and Analysis gives software designers the knowledge and the tools needed to create real-time software using a holistic, systems-based approach. The text covers computer architecture and organization, operating systems, software engineering, programming languages, and compiler theory, all from the perspective of real-time systems design. The Fourth Edition of this renowned text brings it thoroughly up to date with the latest technological advances and applications. This fully updated edition includes coverage of the following concepts: Multidisciplinary design challenges Time-triggered architectures Architectural advancements Automatic code generation Peripheral interfacing Life-cycle processes The final chapter of the text offers an expert perspective on the future of real-time systems and their applications. The text is self-contained, enabling instructors and readers to focus on the material that is most important to their needs and interests. Suggestions for additional readings guide readers to more in-depth discussions on each individual topic. In addition, each chapter features exercises ranging from simple to challenging to help readers progressively build and fine-tune their ability to design their own real-time software programs. Now fully up to date with the latest technological advances and applications in the field, Real-Time Systems Design and Analysis remains the top choice for students and software engineers who want to design better and faster real-time systems at minimum cost.
Author: Michael Schiebe
Publisher: Springer Science & Business Media
ISBN: 0585323143
Category : Computers
Languages : en
Pages : 449
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Book Description
Real-Time Systems Engineering and Applications is a well-structured collection of chapters pertaining to present and future developments in real-time systems engineering. After an overview of real-time processing, theoretical foundations are presented. The book then introduces useful modeling concepts and tools. This is followed by concentration on the more practical aspects of real-time engineering with a thorough overview of the present state of the art, both in hardware and software, including related concepts in robotics. Examples are given of novel real-time applications which illustrate the present state of the art. The book concludes with a focus on future developments, giving direction for new research activities and an educational curriculum covering the subject. This book can be used as a source for academic and industrial researchers as well as a textbook for computing and engineering courses covering the topic of real-time systems engineering.
Author: William Lewis
Publisher: CRC Press
ISBN: 9781420048131
Category : Computers
Languages : en
Pages : 448
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Book Description
Most manuals assume software testing is being performed as part of a well-defined, structured development cycle based on clearly stated requirements and standards. Unfortunately, this is not often the case in the real world. Indeed, the one true constant in software development is change. PDCA/TEST presents a continuous quality framework bas
Author:
Publisher:
ISBN:
Category : Real-time data processing
Languages : en
Pages : 220
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Book Description
Author: Jan Vytopil
Publisher: Springer Science & Business Media
ISBN: 1461532205
Category : Computers
Languages : en
Pages : 213
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Book Description
Formal Techniques in Real-Time and Fault-Tolerant Systems focuses on the state of the art in formal specification, development and verification of fault-tolerant computing systems. The term `fault-tolerance' refers to a system having properties which enable it to deliver its specified function despite (certain) faults of its subsystem. Fault-tolerance is achieved by adding extra hardware and/or software which corrects the effects of faults. In this sense, a system can be called fault-tolerant if it can be proved that the resulting (extended) system under some model of reliability meets the reliability requirements. The main theme of Formal Techniques in Real-Time and Fault-Tolerant Systems can be formulated as follows: how do the specification, development and verification of conventional and fault-tolerant systems differ? How do the notations, methodology and tools used in design and development of fault-tolerant and conventional systems differ? Formal Techniques in Real-Time and Fault-Tolerant Systems is divided into two parts. The chapters in Part One set the stage for what follows by defining the basic notions and practices of the field of design and specification of fault-tolerant systems. The chapters in Part Two represent the `how-to' section, containing examples of the use of formal methods in specification and development of fault-tolerant systems. The book serves as an excellent reference for researchers in both academia and industry, and may be used as a text for advanced courses on the subject.
