Products related to Engineering:
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Food Engineering Automation with Robotics and AI
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Robotics Engineering : Learn It, Try It!
Have you always been fascinated with robots? Do you want to know how to build one yourself? Learn the basics from a real-life expert and get some hands-on experience.The world of robotics engineering is at your fingertips.
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Bicycle Engineering and Technology
Bicycle Engineering and Technology is a primer and technical introduction for anyone interested in bicycles, bicycling and the bicycle industry.With insight into how bicycles are made and operated, the book covers the engineering materials used for their manufacture and the technicalities of riding.It also discusses ways in which the enthusiast may wish to get involved in the business of working with these fantastic machines, which are now being aided with electrical power. The bicycle is a significant factor in transportation around the world and is playing an increasingly crucial role in transport policy as we collectively become more environmentally conscious.To celebrate the importance of the bicycle on the world stage, a brief history is included along with a detailed timeline showing the development of the bicycle with major world events.Previous knowledge of engineering or technology is not required to enjoy this text, as all technical terms are explained and a full glossary and lists of abbreviations are included.Whether you are a bicycling enthusiast, racer, student or bicycle professional, you will surely want to read it and keep it on your shelf as a handy reference.
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Plasticulture Engineering and Technology
The utilization of successful plasticulture engineering technology can ideally optimize crop yields and provide both economic and environmental benefits, such as reducing the need for water and fertilizer.This book discusses the myriad important aspects of crop production that utilize plastic, such as micro-irrigation, water management, plastic mulch films, protected cultivation and low tunnels, crop covers, canal linings, silage bags, and more.It also examines the latest methods for vertical farming and technological aspects, such as smart agriculture using the internet of things (IoT).The current state of the art, as well as potential future uses,ofplastics isdiscussed in addition to the benefits and limitations of plastics applications in agriculture generally. Features Illustrates application of plastic in protected cultivation, water management, aquaculture, and hi-tech horticulture using innovative technologies to enhance water use efficiency and crop productivity Presents precision farming for climate-resilient technologies Includes real-world examples to present practical insights of plastic engineering for climate change mitigation strategies. Plasticulture Engineering and Technology will serve as a useful resource for students, professionals, and researchers in agriculture and agricultural engineering, hydrology, hydraulics, water resources engineering, irrigation engineering, and environmental science.
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Practical Control Engineering for Mechatronics and Automation
Production processes and engineered systems use continuous and discrete variables, as well as the combination of continuous and sequential operations.This volume covers both aspects, thus providing knowledge in continuous and discrete control, logic control, and hybrid control systems.It is a compilation of selected control strategies to automate processes and systems with a practical approach to ease their design, analysis and implementation.The selection of the control schemes is based on the capability to provide desired dynamical response or real time performance.Practicality is required for achieving faster development times of automation projects or system prototypes by comprehensive presentation and direct application of methodologies and techniques for efficient and structured programming of control algorithms.Considered methodologies include model-based design, hardware in the loop simulations and structured programming.Fundamental signals and systems concepts are explained.Systems and controllers are analyzed using discrete-time equations, which ease their implementation in most programmable platforms without requiring sophisticated software.PID based control, internal model control and model reference control are viewed as powerful schemes in terms of performance and suitability for mechatronics systems because of the use of the model in their architecture as a key control element.Finite state machines are presented to solve sequential requirements of direct and supervisory control of many processes and machines.Cyberphysical systems are an industrial technology and an education trend, distinguished by visual and dynamic models or digital twins of the physical systems.The discussed analysis, design and implementation practices are integrated and applied in the context of cyberphysical systems.This book aims to provide multidisciplinary support to engineers and practitioners in the design of control systems, and is a valuable tool for automation teaching and self-learning.
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Engineering and Technology for Healthcare
Innovation in healthcare is currently a “hot” topic.Innovation allows us to think differently, to take risks and to develop ideas that are far better than existing solutions.Currently, there is no single book that covers all topics related to microelectronics, sensors, data, system integration and healthcare technology assessment in one reference.This book aims to critically evaluate current state-of-the-art technologies and provide readers with insights into developing new solutions.With contributions from a fully international team of experts across electrical engineering and biomedical fields, the book discusses how advances in sensing technology, computer science, communications systems and proteomics/genomics are influencing healthcare technology today.
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Water and Wastewater Engineering Technology
Water and Wastewater Engineering Technology presents the basic concepts and applications of water and wastewater engineering technology.It is primarily designed for students pursuing programs in civil, water resources, and environmental engineering, and presents the fundamentals of water and wastewater technology, hydraulics, chemistry, and biology.The book examines the urban water cycle in two main categories, water treatment and distribution, and wastewater collection and treatment.The material lays the foundation for typical one-semester courses in water engineering and also serves as a valuable resource to professionals operating and managing water and wastewater treatment plants.The chapters in this book are standalone, offering the flexibility to choose combinations of topics to suit the requirements of a given course or professional application. Features:• Contains example problems and diagrams throughout to illustrate and clarify important topics. • Problems both in SI and USC system of units. • The procedure of unit cancellation followed in all solutions to the problems. • Design applications and operation of water and wastewater system emphasized. • Includes numerous practice problems with answers, and discussion questions in each chapter cover a range of engineering interventions to help conserve water resources and preserve water quality.
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JCB : Celebrating 75 years of engineering innovation
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How can one learn to become an electronics technician for industrial engineering or automation technology?
To become an electronics technician for industrial engineering or automation technology, one can start by pursuing a relevant educational program, such as an associate degree in electronics engineering technology or industrial automation. These programs typically cover topics such as electrical circuits, industrial control systems, and automation technologies. Additionally, gaining hands-on experience through internships or apprenticeships with companies in the industrial engineering or automation field can provide valuable practical skills. Seeking professional certifications, such as those offered by organizations like the International Society of Automation (ISA) or the Electronics Technicians Association (ETA), can also demonstrate expertise and knowledge in the field. Finally, staying updated with the latest advancements in industrial engineering and automation technology through continuous learning and professional development is essential for a successful career in this field.
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What is Automation Engineering as a course of study?
Automation Engineering is a multidisciplinary field that focuses on the design, development, and implementation of automated systems and processes. This course of study combines principles from electrical, mechanical, and computer engineering to create efficient and reliable automated systems for various industries such as manufacturing, transportation, and energy. Students in this program learn about control systems, robotics, industrial automation, and programming languages to develop the skills necessary to design and maintain automated systems. Graduates of Automation Engineering programs are prepared to work in a wide range of industries where automation is essential for improving productivity and efficiency.
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What is the difference between electrical engineering, electronics, information technology, and computer engineering?
Electrical engineering focuses on the generation, distribution, and control of electrical energy, as well as the design of electrical systems. Electronics deals with the study of electronic components, circuits, and systems that use electricity to process information. Information technology involves the use of computers and software to manage and process data. Computer engineering combines elements of both electrical engineering and computer science to design and develop computer systems and hardware. Each field has its own specialized focus and applications within the broader realm of technology.
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What is the difference between the degree programs in Vehicle Engineering/Engine Technology and Electrical Engineering/Information Technology?
The degree program in Vehicle Engineering/Engine Technology focuses on the design, development, and maintenance of vehicle systems, including engines, drivetrains, and vehicle dynamics. Students in this program learn about the mechanical and thermal aspects of vehicle engineering. On the other hand, the degree program in Electrical Engineering/Information Technology focuses on the design and development of electrical and electronic systems, as well as computer hardware and software. Students in this program learn about circuits, digital systems, communication networks, and computer programming. In summary, the Vehicle Engineering/Engine Technology program is more focused on mechanical and thermal aspects of vehicle systems, while the Electrical Engineering/Information Technology program is more focused on electrical and electronic systems, as well as computer technology.
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How do you switch from an electronics technician for industrial engineering to an electronics technician for automation technology?
To switch from being an electronics technician for industrial engineering to automation technology, you may need to acquire additional training or certifications specific to automation technology. This could involve taking courses or workshops focused on automation systems, programmable logic controllers (PLCs), robotics, and other relevant technologies. It would also be beneficial to gain practical experience in automation technology through internships or on-the-job training. Networking with professionals in the automation technology field and seeking out job opportunities that align with your new career focus can also help facilitate the transition.
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How can one switch from an electronics technician for industrial engineering to an electronics technician for automation technology?
To switch from being an electronics technician for industrial engineering to automation technology, one can start by gaining knowledge and skills specific to automation technology through courses or training programs. It is important to familiarize oneself with automation systems, PLC programming, and control systems. Additionally, gaining hands-on experience in automation technology through internships or on-the-job training can be beneficial. Networking with professionals in the automation technology field and seeking mentorship can also help in making a successful transition.
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How does one switch from an electronics technician for industrial engineering to an electronics technician for automation technology?
To switch from being an electronics technician for industrial engineering to automation technology, one can start by gaining knowledge and skills specific to automation technology through courses, workshops, or certifications. It is important to familiarize oneself with automation systems, PLC programming, robotics, and other relevant technologies. Networking with professionals in the automation industry and seeking opportunities for hands-on experience in automation projects can also be beneficial. Updating one's resume and highlighting any relevant experience or skills related to automation technology will help in transitioning to a new role as an electronics technician for automation technology.
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What is the difference between an electronics technician for industrial engineering and an electronics technician for automation technology?
An electronics technician for industrial engineering typically focuses on maintaining and repairing electronic systems used in various industries, such as manufacturing plants or power plants. They are responsible for ensuring that electronic equipment operates efficiently and safely within an industrial setting. On the other hand, an electronics technician for automation technology specializes in designing, installing, and maintaining automated systems that control machinery and processes. They work with programmable logic controllers (PLCs) and other advanced technologies to optimize production processes and increase efficiency in industrial automation.
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