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  • Dynamic Efficiency and Productivity Measurement
    Dynamic Efficiency and Productivity Measurement

    A systematic treatment of dynamic decision making and performance measurementModern business environments are dynamic.Yet, the models used to make decisions and quantify success within them are stuck in the past.In a world where demands, resources, and technology are interconnected and evolving, measures of efficiency need to reflect that environment. In Dynamic Efficiency and Productivity Measurement, Elvira Silva, Spiro E.Stefanou, and Alfons Oude Lansink look at the business process from a dynamic perspective.Their systematic study covers dynamic production environments where current production decisions impact future production possibilities.By considering practical factors like adjustments over time, this book offers an important lens for contemporary microeconomic analysis.Silva, Stefanou, and Lansink develop the analytical foundations of dynamic production technology in both primal and dual representations, with an emphasis on directional distance functions.They cover concepts measuring the production structure (economies of scale, economies of scope, capacity utilization) and performance (allocative, scale and technical inefficiency, productivity) in a methodological and comprehensive way. Through a unified approach, Dynamic Efficiency and Productivity Measurement offers a guide to how firms maximize potential in changing environments and an invaluable contribution to applied microeconomics.

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  • Innovation in Music: Technology and Creativity
    Innovation in Music: Technology and Creativity

    Innovation in Music: Technology and Creativity is a groundbreaking collection bringing together contributions from instructors, researchers, and professionals.Split into two sections, covering composition and performance, and technology and innovation, this volume offers truly international perspectives on ever-evolving practices. Including chapters on audience interaction, dynamic music methods, AI, and live electronic performances, this is recommended reading for professionals, students, and researchers looking for global insights into the fields of music production, music business, and music technology.

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  • Building Measurement : New Rules of Measurement
    Building Measurement : New Rules of Measurement

    Measurement of buildings is the core skill of the quantity surveyor.It underpins the procurement, management, delivery and subsequent commissioning of a completed building, and must now be completed using New Rules of Measurement 2 (NRM 2).In this much-needed new measurement textbook, the measurement of the most common building elements is described using NRM2.Extensive worked examples including fully up to date hand-drawn diagrams and supporting take-off lists ensure that the reader develops a confidence in their ability to measure using NRM2 in practice.A practical step-by-step approach is used to explain and interpret the detail of the specific Work Sections of NRM2, covering a broad range of different trades, including mechanical and electrical systems; external works; groundwork; masonry; joinery; and internal finishes. Presuming no prior knowledge of measurement or NRM2, and fully up to date with current practice, including consideration of Building Information Modelling, this is the ideal text for students of measurement at HND or BSc level, as well as practitioners needing a crash course in how to apply NRM2.

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  • Aerosol Technology : Properties, Behavior, and Measurement of Airborne Particles
    Aerosol Technology : Properties, Behavior, and Measurement of Airborne Particles

    AEROSOL TECHNOLOGY An in-depth and accessible treatment of aerosol theory and its applications The Third Edition of Aerosol Technology: Properties, Behavior, and Measurement of Airborne Particles delivers a thorough and authoritative exploration of modern aerosol theory and its applications.The book offers readers a working knowledge of the topic that reflects the numerous advances that have been made across a broad spectrum of aerosol-related application areas.New updates to the popular text include treatments of nanoparticles, the health effects of atmospheric aerosols, remote sensing, bioaerosols, and low-cost sensors.Additionally, readers will benefit from insightful new discussions of modern instruments. The authors maintain a strong focus on the fundamentals of the discipline, while providing a robust overview of real-world applications of aerosol theory.New exercise problems and examples populate the book, which also includes: Thorough introductions to aerosol technology, key definitions, particle size, shape, density, and concentration, as well as the properties of gasesComprehensive explorations of uniform particle motion, particle size statistics, and straight-line acceleration and curvilinear particle motionPractical discussions of particle adhesion, Brownian motion and diffusion, thermal and radiometric forces, and filtrationIn-depth examinations of sampling and measurement of concentration, respiratory deposition, coagulation, condensation, evaporation, and atmospheric aerosols Perfect for senior undergraduate and junior graduate students of science and technology, Aerosol Technology: Properties, Behavior, and Measurement of Airborne Particles will also earn a place in the libraries of professionals working in industrial hygiene, air pollution control, climate science, radiation protection, and environmental science.

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  • What is measurement technology 6?

    Measurement technology 6 refers to the latest advancements in the field of measurement and instrumentation. It includes the use of cutting-edge technologies such as sensors, data acquisition systems, and signal processing techniques to accurately and precisely measure various physical quantities such as temperature, pressure, flow, and vibration. Measurement technology 6 also encompasses the integration of wireless and internet of things (IoT) capabilities for remote monitoring and control of measurement systems. Overall, measurement technology 6 represents the state-of-the-art tools and techniques for obtaining reliable and high-quality measurement data in various industrial, scientific, and research applications.

  • What is the test task of hydrostatic pressure measurement in measurement technology?

    The test task of hydrostatic pressure measurement in measurement technology is to accurately measure the pressure exerted by a liquid at a specific depth. This involves using a pressure sensor or transducer to convert the force exerted by the liquid into an electrical signal, which can then be calibrated and displayed as a pressure reading. The goal is to ensure that the measurement is precise and reliable, allowing for accurate monitoring and control of processes such as water level in tanks, pressure in pipelines, and depth in bodies of water. Additionally, the test task may involve assessing the impact of factors such as temperature, density, and viscosity on the accuracy of the measurement.

  • How do you calculate in measurement technology?

    In measurement technology, calculations are often performed using the principles of mathematics and physics. For example, to calculate the area of a surface, one might use the formula for the area of a rectangle or circle. When dealing with more complex measurements, such as in engineering or scientific research, calculations may involve statistical analysis, regression analysis, or other mathematical techniques to analyze and interpret data. Additionally, measurements may be converted between different units using conversion factors or equations to ensure consistency and accuracy in the results. Overall, calculations in measurement technology rely on mathematical principles and tools to accurately analyze and interpret measurements.

  • What is the golden rule of measurement technology?

    The golden rule of measurement technology is to always use the right tool for the job. This means selecting the most appropriate measuring instrument for the specific task at hand to ensure accurate and reliable results. Using the correct tool not only improves the quality of the measurement but also saves time and resources. It is essential to understand the capabilities and limitations of different measuring instruments to make informed decisions when selecting the right tool for a particular measurement.

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  • Polarization Measurement and Control in Optical Fiber Communication and Sensor Systems
    Polarization Measurement and Control in Optical Fiber Communication and Sensor Systems

    Polarization Measurement and Control in Optical Fiber Communication and Sensor Systems A practical handbook covering polarization measurement and control in optical communication and sensor systems In Polarization Measurement and Control in Optical Fiber Communication and Sensor Systems, the authors deliver a comprehensive exploration of polarization related phenomena, as well as the methodologies, techniques, and devices used to eliminate, mitigate, or compensate for polarization related problems and impairments.The book also discusses polarization-related parameter measurement and characterization technologies in optical fibers and fiber optic devices and the utilization of polarization to solve problems or enable new capabilities in communications, sensing, and measurement systems.The authors provide a practical and hands-on treatment of the information that engineers, scientists, and graduate students must grasp to be successful in their everyday work.In addition to coverage of topics ranging from the use of polarization analysis to obtain instantaneous spectral information on light sources to the design of novel fiber optic gyroscopes for rotation sensing, Polarization Measurement and Control in Optical Fiber Communication and Sensor Systems offers: A thorough introduction to polarization in optical fiber studies, including a history of polarization in optical fiber communication and sensor systems Comprehensive discussions of the fundamentals of polarization, including the effects unique to optical fiber systems, as well as extensive coverage Jones and Mueller matrix calculus for polarization analysis In-depth treatments of active polarization controlling devices for optical fiber systems, including polarization controllers, scramblers, emulators, switches, and binary polarization state generators Fulsome explorations of passive polarization management devices, including polarizers, polarization beam splitters/displacers, wave-plates, Faraday rotators, and depolarizers Extensive review of polarization measurement techniques and devices, including time-division, amplitude-division, and wave-front division Stokes polarimeters, as well as various Mueller matrix polarimeters for PMD, PDL, and birefringence measurements Premiere of binary polarization state analyzers and binary Mueller matrix polarimeters pioneered by the authors, including their applications for highly sensitive PMD, PDL, and birefringence measurements Comprehensive discussion on distributed polarization analysis techniques developed by the authors, including their applications in solving real world problemsDetailed descriptions of high accuracy polarimetric fiber optic electric current and magnetic field sensors Perfect for professional engineers, scientists, and graduate students studying fiber optics, Polarization Measurement and Control in Optical Fiber Communication and Sensor Systems enables one to quickly grasp extensive knowledge and latest development of polarization in optical fibers and will earn a place in the libraries of professors and teachers of photonics and related disciplines.

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  • Measurement using the New Rules of Measurement
    Measurement using the New Rules of Measurement

    The RICS New Rules of Measurement mean that the construction industry now has a way of allowing a more consistent approach to the measurement and estimating of buildings from the start of a project, right through until the end, and beyond. Measurement using the New Rules of Measurement offers comprehensive guidance on all the technical competencies concerned with measurement throughout the precontract stages and provides a full commentary to the NRM, with detailed and comprehensive examples of how to measure in accordance with this new prescriptive approach. For both students and practitioners, the acquisition of technical competencies is by practice so this book offers step-by-step worked examples to follow as well as an exercise on each topic. helps dispel anxieties about using a new method in an important area of fee generationbased on the author’s successful Roadshows, organised by the RICS to promote the NRMcompanion websites provide support for learning: http://ostrowskiquantities.com and www.wiley.com/go/ostrowski/measurement

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  • 3D Printers Belt Tension Tester Timing Tensiometer High Efficiency Detection Measurement Device
    3D Printers Belt Tension Tester Timing Tensiometer High Efficiency Detection Measurement Device

    Description: - 【Tension Gauge】 This 3D printer belt tension meter provides accurate measurements, making it an essential tool for your 3D printing needs. - 【Good Accessories】: Tension Meter Tester is designed to make belt adjustments easier and more uniform, ensuring optimal performance of your 3D printer. - 【RANGE】:The measurement range of this tool is from 0-12mm/0-0.47inch, allowing you to measure a variety of belt sizes. - 【EASY TO USE】: Simply press the top handle of the thickness gauge, insert the object to be measured, and release the handle to get an accurate thickness reading. - 【MATERIAL AND SIZE】: Belt Tensiometer is made from stable ABS material with dimensions of 11.5cmx5.7cm/4.53inchx2.24inch. Specification: - Material: ABS Size Chart: 11.5cmx5.7cm/4.53inchx2.24inch Package Includes: 1 3D Printers Tension Gauge Note: Please allow slightly errors 1-2cm differences due to manual measurement.

    Price: 17.99 £ | Shipping*: 0.0 £
  • Advances in Measurement Technology, Disaster Prevention and Mitigation : Proceedings of the 3rd International Conference on Measurement Technology, Disaster Prevention and Mitigation (MTDPM 2022), Zhe
    Advances in Measurement Technology, Disaster Prevention and Mitigation : Proceedings of the 3rd International Conference on Measurement Technology, Disaster Prevention and Mitigation (MTDPM 2022), Zhe

    Advances in Measurement Technology, Disaster Prevention and Mitigation collects papers resulting from the conference on Measurement Technology, Disaster Prevention and Mitigation (MTDPM 2022), Zhengzhou, China, 27–29 May, 2022.The primary goal is to promote research and developmental activities in measurement, disaster prevention and mitigation, and another goal is to promote scientific information interchange between scholars from the top universities, business associations, research centers and high-tech enterprises working all around the world. The conference conducts in-depth exchanges and discussions on relevant topics such as measurement, disaster prevention and mitigation, aiming to provide an academic and technical communication platform for scholars and engineers engaged in scientific research and engineering practice in the field of measurement application, measurement in civil engineering and disaster reduction.By sharing the research status of scientific research achievements and cutting-edge technologies, it helps scholars and engineers all over the world comprehend the academic development trend and broaden research ideas.So as to strengthen international academic research, academic topics exchange and discussion, and promote the industrialization cooperation of academic achievements.

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  • What is a four-wire circuit in measurement technology?

    A four-wire circuit in measurement technology is a method used to accurately measure resistance by compensating for the resistance of the connecting wires. It consists of two pairs of wires - one pair carries the current to the resistor being measured, while the other pair measures the voltage drop across the resistor. By using this configuration, the resistance of the connecting wires is effectively eliminated from the measurement, resulting in more precise and accurate readings. This technique is commonly used in applications where high accuracy is required, such as in laboratory settings or calibration procedures.

  • What is the general term for measuring, measurement technology, testing, and testing technology?

    The general term for measuring, measurement technology, testing, and testing technology is "metrology." Metrology encompasses the science and practice of measurement, including the development and application of measurement standards, instruments, and techniques. It also includes testing and quality control processes to ensure the accuracy and reliability of measurements. Overall, metrology plays a crucial role in various industries, including manufacturing, healthcare, and environmental monitoring.

  • What is the purpose of measurement, control, and regulation technology?

    The purpose of measurement, control, and regulation technology is to ensure that processes and systems operate efficiently, safely, and in accordance with set standards. Measurement technology allows for the accurate quantification of various parameters, such as temperature, pressure, flow rate, and more. Control technology enables the manipulation of these parameters to maintain desired conditions, while regulation technology ensures that systems and processes adhere to established norms and standards. Overall, these technologies are essential for maintaining quality, safety, and efficiency in various industrial, commercial, and environmental applications.

  • What is the difference between measurement inaccuracies and measurement errors?

    Measurement inaccuracies refer to the discrepancies between the measured value and the true value of a quantity, which can be caused by various factors such as instrument calibration or environmental conditions. On the other hand, measurement errors are the differences between the measured value and the true value that are due to mistakes made during the measurement process, such as human error or faulty equipment. Inaccuracies are more systematic and can be corrected through calibration, while errors are more random and can be minimized through careful measurement techniques.

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