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  • Industrial Automation and Robotics : Techniques and Applications
    Industrial Automation and Robotics : Techniques and Applications

    This book discusses the radical technological changes occurring due to Industry 4.0, with a focus on offering a better understanding of the Fourth Industrial Revolution.It also presents a detailed analysis of interdisciplinary knowledge, numerical modeling and simulation, and the application of cyber–physical systems, where information technology and physical devices create synergic systems leading to unprecedented efficiency.The book focuses on industrial applications of automation and robotics.It covers recent developments and trends occurring in both computer-aided manufacturing techniques, as well as computer-aided assembly techniques.Robots using embedded systems and artificial intelligence applications are also covered.Industrial Automation and Robotics: Techniques and Applications offers theoretical results, practical solutions, and guidelines that are valuable for both researchers and those working in the area of engineering.

    Price: 135.00 £ | Shipping*: 0.00 £
  • Precision Custom Engineering Advanced Industrial CNC Machining Molding Alumina Zirconia Ceramic
    Precision Custom Engineering Advanced Industrial CNC Machining Molding Alumina Zirconia Ceramic

    Precision Custom Engineering Advanced Industrial CNC Machining Molding Alumina Zirconia Ceramic

    Price: 3.89 € | Shipping*: 573.79 €
  • Manufacturing Independence : Industrial Innovation and the American Revolution
    Manufacturing Independence : Industrial Innovation and the American Revolution

    Benjamin Franklin was serious when he suggested the colonists arm themselves with the longbow.The American colonies were not logistically prepared for the revolution and this became painfully obvious in wars first years.Trade networks were destroyed, inflation undermined the economy, and American artisans could not produce or repair enough weapons to keep the Continental Army in the field.The Continental Congress responded to this crisis by mobilizing the nations manufacturing sector for war.With information obtained from Europe through both commercial exchange and French military networks, Congress became familiar with the latest manufacturing techniques and processes of the nascent European industrial revolution.They therefore initiated an innovative program of munitions manufacturing under the Department of the Commissary General of Military Stores.The department gathered craftsmen and workers into three national arsenals where they were trained for the large-scale production of weapons.The department also engaged private manufacturers, providing them with materials and worker training, and instituting a program of inspecting their finished products. As historian Robert F. Smith relates in Manufacturing Independence: Industrial Innovation in the American Revolution, the colonies were able to provide their military with the arms it needed to fight, survive, and outlast the enemysupplying weapons for the victory at Saratoga, rearming their armies in the South on three different occassions, and providing munitions to sustain the siege at Yorktown.But this manufacturing system not only successfully supported the Continental Army, it also demonstrated new production ideas to the nation.Through this system, the government went on to promote domestic manufacturing after the war, becoming a model for how the nation could produce goods for its own needs.The War for Independence was not just a political revolution, it was an integral part of the Industrial Revolution in America.

    Price: 19.99 £ | Shipping*: 3.99 £
  • Industrial Robotics
    Industrial Robotics

    Giving you insight into real-world practice, INDUSTRIAL ROBOTICS provides an introduction to the industry and basic understanding of the subjects needed for starting a career in industrial robotics.It begins with a background on the history and development of industrial automation, then moves into robot mechanical unit configurations, controller architecture, and general software structure. Basic programming instruction definition and interpretation enable you to break a programming problem into its component parts, solve the component parts, and integrate them into a finished program. Three subjects not typically addressed in robotic texts are discussed: industrial sensors, vision systems, and maintenance. Comprehensive coverage also includes the basic types of tooling and their applications, economic aspects of robots in the workplace, and the issues of human/robot interfaces.

    Price: 74.99 £ | Shipping*: 0.00 £
  • 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.

  • 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.

  • 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.

  • 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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  • Technology Innovation in Manufacturing
    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.

    Price: 115.00 £ | Shipping*: 0.00 £
  • Introduction to Manufacturing : An Industrial Engineering and Management Perspective
    Introduction to Manufacturing : An Industrial Engineering and Management Perspective

    This Introduction to Manufacturing focuses students on the issues that matter to practicing industrial engineers and managers.It offers a systems perspective on designing, managing, and improving manufacturing operations.On each topic, it covers the key issues, with pointers on where to dig deeper. Unlike the many textbooks on operations management, supply chain management, and process technology, this book weaves together these threads as they interact in manufacturing.It has five parts: Getting to Know Manufacturing: Fundamental concepts of manufacturing as an economic activity, from manufacturing strategy to forecasting market demand Engineering the Factory: Physical design of factories and processes, the necessary infrastructure and technology for manufacturing Making Information Flow: The "central nervous system" that triggers and responds to events occurring in production Making Materials Flow: The logistics of manufacturing, from materials handling inside the factory via warehousing to supply chain management Enhancing Performance: Managing manufacturing performance and methods to maintain and improve it, both in times of normal operations and emergenciesSupported with rich illustrations and teaching aids, Introduction to Manufacturing is essential reading for industrial engineering and management students – of all ages and backgrounds – engaged in the vital task of making the things we all use.

    Price: 61.99 £ | Shipping*: 0.00 £
  • Food Engineering Automation with Robotics and AI
    Food Engineering Automation with Robotics and AI


    Price: 117.00 £ | Shipping*: 0.00 £
  • Customized Precision Industrial Machinery Metal Parts CNC Machining Services
    Customized Precision Industrial Machinery Metal Parts CNC Machining Services

    Customized Precision Industrial Machinery Metal Parts CNC Machining Services

    Price: 3.89 € | Shipping*: 573.79 €
  • 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.

  • What is the professional title for someone who works as an electronics technician for industrial engineering or automation technology?

    The professional title for someone who works as an electronics technician for industrial engineering or automation technology is typically referred to as an "Automation Technician" or "Industrial Electronics Technician." These professionals are responsible for installing, maintaining, and repairing electronic systems and equipment used in industrial settings to automate processes and improve efficiency. They play a crucial role in ensuring that machinery and systems function properly to meet production goals and quality standards.

  • Is industrial engineering feasible?

    Yes, industrial engineering is feasible as it involves the optimization of complex systems, processes, and organizations to improve efficiency and productivity. Industrial engineers use their skills in mathematics, science, and engineering to analyze and design systems that integrate people, materials, information, equipment, and energy. With the increasing demand for streamlining operations and reducing costs in various industries, industrial engineering plays a crucial role in helping businesses achieve their goals. Overall, industrial engineering is a practical and valuable field that offers solutions to improve processes and systems in a wide range of industries.

  • Are there major differences between the training for an electronics technician for industrial engineering and an electronics technician for automation technology?

    Yes, there are major differences between the training for an electronics technician for industrial engineering and an electronics technician for automation technology. Electronics technicians for industrial engineering focus on the installation, maintenance, and repair of electrical systems in industrial settings, while electronics technicians for automation technology specialize in designing, programming, and maintaining automated systems and machinery. The training for automation technology may involve more advanced coursework in robotics, control systems, and programming languages compared to industrial engineering. Additionally, automation technology technicians may work more closely with engineers to develop and implement automated solutions, while industrial engineering technicians may focus more on troubleshooting and maintaining existing systems.

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