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  • 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.

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  • Ivory Tower and Industrial Innovation : University-Industry Technology Transfer Before and After the Bayh-Dole Act
    Ivory Tower and Industrial Innovation : University-Industry Technology Transfer Before and After the Bayh-Dole Act

    Since the early 1980s, universities in the United States have greatly expanded their patenting and licensing activities.The Congressional Joint Economic Committee, among other authorities, have argued that this surge contributed to the economic boom of the 1990s. And, many observers have attributed this trend to the Bayh-Dole Act of 1980.Using quantitative analysis and detailed case studies, this book tests that conventional wisdom and assesses the effects of the Act, examining the diverse channels through which commercialization has occurred over the 20th century and since the passage of the Act.

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  • Construction Technology 2: Industrial and Commercial Building
    Construction Technology 2: Industrial and Commercial Building

    Designed in a structured, directed format to help develop understanding, rather than just providing a simple source of information, this popular undergraduate textbook offers comprehensive coverage of industrial and commercial building technology. It builds on material in the first volume in the series Construction Technology 1: House Construction but it is also valuable as a standalone text. The most student-friendly textbook in the area, it uses a wealth of features to reinforce understanding and test knowledge, including case studies and comparative studies. Case studies include photographs and commentary on specific aspects of the technology of framed buildings, while comparative studies allow the reader to make a critical evaluation, comparing and contrasting design details and solutions. This textbook is aimed at undergraduates in Construction Management, Quantity Surveying and Building Surveying, and HNC/D students in the same areas. It is also ideal for associated Built Environment courses e.g.Land Management, Civil Engineering, where the basic technologies need to be understood. New to this Edition:- Thoroughly revised throughout- New material on sustainable construction incorporated as a key theme in each aspect of technology- A new chapter on building services installations- A new section of the highly topical subject of Building Information Modelling (BIM)Accompanying online resources for this title can be found at bloomsburyonlineresources.com/construction-technology-2-3e.These resources are designed to support teaching and learning when using this textbook and are available at no extra cost.

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  • Creativity, Innovation and the Fourth Industrial Revolution : The da Vinci Strategy
    Creativity, Innovation and the Fourth Industrial Revolution : The da Vinci Strategy

    The most important goals for an organization in the Fourth Industrial Revolution will be innovation and enhanced performance.Creativity is a means for promoting these goals – a creative person is a productive person who uses all their resources to attain specific goals.Da Vinci Creativity should be understood as being focused on improving performance both at individual and organizational levels.Traditional organizations can be hierarchical, and thus rigid, at a time when the external environment is undergoing very rapid change.The aim of this book is to present an organizational model that develops leaders who are able to cope with the demands of the Fourth Industrial Revolution. In light of the increasing levels of innovation being experienced in society around us, Creativity, Innovation and the Fourth Industrial Revolution: The da Vinci Strategy offers an organizational theory that can be applied in the Fourth Industrial Revolution.This book will be of interest to researchers, academics, and students in the fields of leadership, strategy, and technology and innovation management.

    Price: 19.99 £ | Shipping*: 3.99 £
  • What is better: Industrial electronics technician or electronics technician for energy and building technology?

    The choice between an industrial electronics technician and an electronics technician for energy and building technology depends on your career goals and interests. An industrial electronics technician typically works with manufacturing equipment and machinery, while an electronics technician for energy and building technology focuses on electrical systems in buildings and energy infrastructure. If you are interested in working with manufacturing processes and machinery, then industrial electronics technician may be a better fit. However, if you are passionate about sustainable energy and building technology, then electronics technician for energy and building technology may be the better option for you.

  • What is better: Electronics technician for industrial engineering or electronics technician for energy and building technology?

    The choice between being an electronics technician for industrial engineering or energy and building technology depends on your interests and career goals. If you enjoy working with complex machinery and systems in manufacturing environments, then industrial engineering may be a better fit for you. On the other hand, if you are passionate about sustainable energy solutions and building technology, then energy and building technology could be more fulfilling. Consider your strengths, interests, and long-term career aspirations to make the best decision for yourself.

  • What is an industrial electronics technician?

    An industrial electronics technician is a skilled professional who specializes in installing, maintaining, and repairing electronic equipment used in industrial settings. They work with a variety of devices such as control systems, motors, and robotics to ensure they are functioning properly. These technicians are responsible for troubleshooting issues, conducting regular inspections, and performing necessary repairs to keep industrial machinery running efficiently. They play a crucial role in ensuring the smooth operation of electronic systems in manufacturing plants, factories, and other industrial environments.

  • What is the difference between an industrial electronics technician and an energy and building technology electronics technician?

    An industrial electronics technician typically works in manufacturing settings, focusing on the installation, maintenance, and repair of electronic systems used in industrial machinery and equipment. On the other hand, an energy and building technology electronics technician specializes in the installation, maintenance, and repair of electronic systems used in energy management and building automation systems. While both roles involve working with electronic systems, the specific applications and industries they focus on differ, with industrial electronics technicians working more in manufacturing environments and energy and building technology electronics technicians focusing on energy management and building automation systems.

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  • Design and Implementation of Sensory Solutions for Industrial Environment : Utilizing 1-wire® Technology in Industrial Solutions
    Design and Implementation of Sensory Solutions for Industrial Environment : Utilizing 1-wire® Technology in Industrial Solutions

    This book presents applicable guidance into sensor system hardware and software design, extensions, and integration aimed at utilization of 1-wire networks.The content is structured from the design of the sensor system architecture—hardware and software—through the implementation and optimization of the solution to the practical verification.The hardware part consists of the design of specific solutions for sensor data collection and the design and integration of standard and special sensors into these solutions.The development of the hardware solutions is focused on integration with 32-bit microcontrollers with ARM Cortex M0 to Cortex M4 cores.For the sensor solutions, the focus is on design versatility and miniaturization of dimensions with respect to the availability of the technology in the physical design.The focus is on minimizing power consumption to the design of power independent modules.The presented solution includes the design and implementation of the software layer,which includes control software for direct communication with the sensor modules as well as an information system for continuous data storage and remote access.The book presents an extensive case study that describes the design and development of a 1-wire bus controller hardware module solution with proprietary modifications that achieve improvements to the maximum 1-wire bus length.The study also includes the design and implementation of a universal and power independent 1-wire bus device.Using this module, almost any sensor can be connected to the 1-wire bus.

    Price: 54.99 £ | Shipping*: 0.00 £
  • 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 £
  • Innovation in Information Technology
    Innovation in Information Technology


    Price: 110.00 £ | Shipping*: 0.00 £
  • Technology and Innovation Management
    Technology and Innovation Management

    Technology and Innovation Management is one of the most sought-after courses offered like MBA or PGDM in Business Schools and various Technology Institutes, today.This book, written with deep ingrained practical insights and well-researched theoretical foundations integrates people, processes and technology to achieve maximum economic benefits to society.The book is designed to be a compendium for students and managers, who wish to understand technology and innovation management to the core.The book explains the relationship between technology innovation and strategy in a simplified manner.Keeping Indian education framework in mind, this book details on practices and principles that are easy to implement.The theories are simple to grasp, and anecdotal stories on Technology and Innovation implementations make it a student-friendly edition, to help achieve success in exams as well as in the professional front.It further explains the core principles of Technology and Innovation Management.S-Curve and the Segment Zero Principle, adopting industry 4.0 and innovation 4.0 to make India a smart and intelligent manufacturing hub in the era of fourth industrial revolution, design thinking for solving complex business problems along with the role and contribution of Government in Technology Development.

    Price: 18.95 £ | Shipping*: 3.99 £
  • 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.

  • What is the difference between an industrial electronics technician and an electronics technician for energy and building technology?

    An industrial electronics technician primarily focuses on the installation, maintenance, and repair of electronic systems and equipment used in industrial settings such as manufacturing plants, factories, and production facilities. They are responsible for ensuring the proper functioning of electronic control systems, machinery, and automation equipment. On the other hand, an electronics technician for energy and building technology specializes in the installation, maintenance, and repair of electronic systems and equipment used in energy management and building technology applications. They work with electronic systems related to heating, ventilation, air conditioning, lighting, and energy management in residential, commercial, and industrial buildings. While both roles involve working with electronic systems, the specific applications and environments in which they operate differ, leading to variations in the types of equipment and systems they work with.

  • 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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