Products related to Systems:
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Human Factors in Engineering : Manufacturing Systems, Automation, and Interactions
This book addresses aspects of human factors in engineering and provides a detailed discussion of novel approaches, systems engineering tools, artificial cognitive systems, and intelligent technologies and automation.It presents applications in diverse areas, including digital manufacturing, transportation, infrastructure development, and cybersecurity. This book:• Merges the engineering perspective with the human factors and social dimension of computing and artificial intelligence–based technologies. • Covers technological development of human factors engineering and the human dimension in applications across all areas of modern society. • Relates to human behavior in the context of technology and systems interactions. • Discusses the design and the appropriation of 3D printing techniques in the management of an innovative product system. • Presents systems engineering tools, user experience methodologies, artificial cognitive systems, intelligent technologies, and automation. The text is for students, professionals, and researchers in the fields of ergonomics, human factors, industrial engineering, and manufacturing engineering.
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Automation, Production Systems, and Computer-Integrated Manufacturing, Global Edition
Automation, Production Systems, and Computer-Integrated Manufacturing is appropriate for advanced undergraduate/ graduate-level courses in Automation, Production Systems, and Computer-Integrated Manufacturing.The book should also be useful for practicing engineers and managers who wish to learn about automation and production systems technologies in modern manufacturing. This exploration of the technical and engineering aspects of automated production systems provides the most advanced, comprehensive, and balanced coverage of the subject of any text on the market.It covers all the major cutting-edge technologies of production automation and material handling, and how these technologies are used to construct modern manufacturing systems. Teaching and Learning Experience This book will provide a better teaching and learning experience—for you and your students.It will help: Provide Balanced Coverage of Automated Production Systems: A quantitative approach provides numerous equations and example problems for instructors who want to include analytical and quantitative material in their courses. Support Learning: End-of-chapter problems, review questions, and problem exercises give students plenty of opportunities to put theory into action. Keep Your Course Current: This edition provides up-to-date coverage of production systems, how they are sometimes automated and computerized, and how they can be mathematically analyzed to obtain performance metrics.
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Technology Innovation in Manufacturing
This text identifies and discusses different technology innovation initiatives (TIIs) such as entrepreneurial capability, technology infrastructure capability, organizational culture and climate, and government initiatives.It further evaluates the relationship between various technology innovation initiatives and manufacturing performances using multi-criteria decision-making techniques such as fuzzy set theory (FST), structural equation modeling (SEM), and analytic hierarchy process (AHP).It will serve as an ideal reference text for graduate students and academic researchers in the field of industrial engineering, manufacturing engineering, mechanical engineering, automotive engineering. This book:• Discusses technology innovation initiatives such as entrepreneurial capability, technology infrastructure capability, and organizational culture. • Highlights technology innovation-strategy model in assisting manufacturing industries for enhancing their performance in today’s competitive environment. • Examines the effect of technology innovation initiatives on the performance of manufacturing industries. • Covers multi-criteria decision-making techniques such as fuzzy set theory, structural equation modeling, and analytic hierarchy process. • Explores the validation of fuzzy-based technology innovation model through structural equation modeling.
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The Triumvirate Approach to Systems Engineering, Technology Management and Engineering Management
This text is meant for introductory and midlevel program and project managers, Systems Engineering (SE), Technology Management (TM) and Engineering Management (EM) professionals.This includes support personnel who underpin and resource programs and projects.Anyone who wishes to understand what SE, TM and EM are, how they work together, what their differences are, when they should be used and what benefits should be expected, will find this text an invaluable resource.It will also help students to understand the career paths in innovation and entrepreneurship to choose from.There is considerable confusion today on when and where to use each discipline, and how they should be applied to individual circumstances.This text provides practitioners with the guidelines necessary to know when to use a specific discipline, how to use them and what results to expect.The text clearly shows how the disciplines retain focus of goals and targets, using cost, scope, schedule and risk to their advantage, while complying with and informing investors, oversight and those related personnel who eventually govern corporate or government decisions.It is more of an entry and midlevel general overview instructing the reader how to use the disciplines and when to use them.To use them all properly, more in-depth study is always necessary.However, the reader will know when to start, where to go and what disciplines to employ depending on the product, service, market, infrastructure, system or service under consideration.To date, none of this is available in existing literature.All texts on the subject stretch to try and cover all things, which is simply not possible, even with the definitions assigned by the three disciplines.
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What is the difference between Information Systems Engineering and Engineering Informatics?
Information Systems Engineering focuses on designing, developing, and managing information systems that support business processes and decision-making. It involves the integration of technology, people, and processes to create efficient and effective systems. On the other hand, Engineering Informatics focuses on the application of computational tools and techniques to engineering problems. It involves the use of data analytics, simulation, and modeling to optimize engineering processes and systems. In summary, Information Systems Engineering is more focused on information systems for business purposes, while Engineering Informatics is more focused on applying computational tools to engineering problems.
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What are the systems of equations in electrical engineering?
In electrical engineering, systems of equations are commonly used to analyze and solve circuits. These systems typically involve Kirchhoff's laws, such as Kirchhoff's voltage law (KVL) and Kirchhoff's current law (KCL), which are used to describe the relationships between voltages and currents in a circuit. By setting up and solving systems of equations based on these laws, engineers can determine the behavior of electrical circuits and design efficient and reliable systems. Additionally, systems of equations are also used in fields like control systems to model and analyze the behavior of electrical systems.
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Is it possible to work as a machining mechanic after completing the training as a precision mechanic specializing in machining technology?
Yes, it is possible to work as a machining mechanic after completing training as a precision mechanic specializing in machining technology. The skills and knowledge gained during the precision mechanic training, such as operating and programming CNC machines, reading technical drawings, and understanding different machining processes, are directly applicable to the role of a machining mechanic. Additionally, with some additional training or on-the-job experience, a precision mechanic can easily transition into a role as a machining mechanic.
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Are stereo systems or 5.1 systems better?
It ultimately depends on the individual's preferences and needs. Stereo systems are great for simple, two-channel audio playback and can provide high-quality sound for music and movies. On the other hand, 5.1 systems offer a more immersive experience with surround sound, making them ideal for home theater setups and gaming. If you prioritize a more immersive and spatial audio experience, a 5.1 system may be better for you. However, if you value simplicity and high-quality audio, a stereo system may be the better choice.
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Photovoltaic Systems Engineering
The primary purpose of PV Systems Engineering is to provide a comprehensive set of PV knowledge and understanding tools for the design, installation, commissioning, inspection, and operation of PV systems.During recent years in the United States, more PV capacity was installed than any other electrical generation source.In addition to practical system information, this new edition includes explanation of the basic physical principles upon which the technology is based and a consideration of the environmental and economic impact of the technology.The material covers all phases of PV systems from basic sunlight parameters to system commissioning and simulation, as well as economic and environmental impact of PV.With homework problems included in each chapter and numerous design examples of real systems, the book provides the reader with consistent opportunities to apply the information to real-world scenarios.
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Spacecraft Systems Engineering
Long considered to be a classic text in the field,Spacecraft Systems Engineering provides readers with comprehensive coverage of the design of spacecraft and the implementation of space missions across a wide spectrum of space applications and space science.The new Fifth Edition has been updated to reflect the latest developments of the past decade while retaining the overall structure and breadth of coverage that is already widely respected by students, researchers, and practicing engineers, Spacecraft Systems Engineering covers the basics of everything from spacecraft dynamics, celestial mechanics, and propulsion to mission analysis, power systems, and communications.The Fifth Edition includes the most current information on the effect that the space environment has on systems design, including more recent rocket data, updated solar cycles, and updated magnetic models, charging models and radiation environment models.Throughout the book, updated content offers state-of-the-art examples in areas like remote sensing, new forms of manufacture like 3D printing and robotic assembly in space, "green" propulsion, the impact of CubeSats/SmallSats, and new developments in active space debris removal and disposal techniques.Special emphasis is placed on the new role of private enterprise in space, the way that new, lower-cost launch capabilities and the latest launch vehicles that are transforming the industry, and explanations of the regulatory frameworks under which these activities take place.New example missions have also been added to illustrate emerging activities like satellite constellation maintenance, on-orbit assembly for space based solar power, biosecurity for planetary missions, and "all-electric spacecraft" maneuvers.
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Telemetry Systems Engineering
This revised edition clearly presents introductory and advanced concepts in telemetry systems, with an emphasis on digital communications.The book helps the reader to perform link analysis for the design of a communications link, create a FM/FM preemphasis schedule systematically to develop an algorithmic code to perform this function, and design PCM/FM telemetry systems to meet a specific BER and bit rate.Learn how to design the transmitting and receiving system with respect to filter bandwidth specifications, and analyze the link which will be used to test the vehicle and basically evaluate the system from end to end, predicting the bit error rate.Brand new chapters on range telemetry, industrial telemetry, and commercial security have been added.Moreover, this up-to-date resource explores future telemetry systems with enhanced spectral efficiencies such as QPSK, Feher's patented FQPSK, Enhanced FQPSK, M-ary FSK and M-ary PSK.
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Spacecraft Systems Engineering
This fourth edition of the bestselling Spacecraft Systems Engineering title provides the reader with comprehensive coverage of the design of spacecraft and the implementation of space missions, across a wide spectrum of space applications and space science.The text has been thoroughly revised and updated, with each chapter authored by a recognized expert in the field. Three chapters – Ground Segment, Product Assurance and Spacecraft System Engineering – have been rewritten, and the topic of Assembly, Integration and Verification has been introduced as a new chapter, filling a gap in previous editions. This edition addresses ‘front-end system-level issues’ such as environment, mission analysis and system engineering, but also progresses to a detailed examination of subsystem elements which represents the core of spacecraft design.This includes mechanical, electrical and thermal aspects, as well as propulsion and control.This quantitative treatment is supplemented by an emphasis on the interactions between elements, which deeply influences the process of spacecraft design. Adopted on courses worldwide, Spacecraft Systems Engineering is already widely respected by students, researchers and practising engineers in the space engineering sector.It provides a valuable resource for practitioners in a wide spectrum of disciplines, including system and subsystem engineers, spacecraft equipment designers, spacecraft operators, space scientists and those involved in related sectors such as space insurance. In summary, this is an outstanding resource for aerospace engineering students, and all those involved in the technical aspects of design and engineering in the space sector.
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Why are photovoltaic systems called photovoltaic systems?
Photovoltaic systems are called photovoltaic systems because they directly convert light (photo) into electricity (voltaic). The term "photo" comes from the Greek word for light, and "voltaic" is derived from the name of the Italian physicist Alessandro Volta, who is known for his work in electricity. Therefore, the term "photovoltaic" accurately describes the process by which these systems generate electricity from sunlight.
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How much physical work is involved in IT systems engineering?
IT systems engineering involves a moderate amount of physical work. This can include setting up and configuring hardware components such as servers, networking equipment, and storage devices. Additionally, IT systems engineers may need to physically install and maintain these components in data centers or other on-premises locations. However, with the increasing use of cloud computing and virtualization, much of the physical work has been reduced, as many systems can now be managed and maintained remotely. Overall, while there is some physical work involved, it is not as intensive as in some other technical fields.
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Which programming language is suitable for electronics systems and devices?
The programming language suitable for electronics systems and devices is often C or C++. These languages are commonly used for embedded systems programming due to their ability to directly interact with hardware and their efficiency in terms of memory usage and processing speed. Additionally, they provide low-level access to hardware components, making them ideal for programming microcontrollers and other electronic devices. Overall, C and C++ are well-suited for developing software for electronics systems and devices.
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How difficult is a study of robotics and automation?
The study of robotics and automation can be challenging due to its interdisciplinary nature, requiring knowledge in fields such as mechanical engineering, electrical engineering, computer science, and control systems. Additionally, the rapid advancements in technology and the need to stay updated with the latest developments can add to the complexity of the study. However, with dedication, problem-solving skills, and a strong foundation in mathematics and physics, students can overcome these challenges and excel in the field of robotics and automation.
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