This book provides readers the fundamentals of optical metrology for precision engineering. The next-generation measurement technologies based on ultrashort pulse laser and optical frequency comb are also presented, making it an essential reference book for various engineering fields. • Introduces fundamental theories and techniques • Combines theories with practical applications • Presents technologies in an easy-to-understand way
International Progress in Precision Engineering documents the proceedings of the 7th International Precision Engineering Seminar held in Kobe, Japan, May 1993. The seminar brought together the world's leading precision engineering practitioners from areas of application as diverse as sensors, actuators, scanning tip microscopy, micro and nano machining (including bio-machining), ultra precision measuring machines, machine tools, and large optics for space technology. The seminar included 10 oral sessions that dealt with the following topics: (I) Metrology - The Science Base For Precision Engineering; (II) Sensors and Actuators in Precision Engineering and Nanotechnology; (III) New Materials - Applications and Ultra-Precision Energy Beam Processing; (IV) Nanotechnology Machining Processes; (V) New Developments In Ultra-Precision Machines; (VI) Ultra-Precision, Servo, and Control Technology; (VII) Precision Engineering in Space Technology; (VIII) X-Ray Technologies and Their Applications; (IX) Micromechanics and Micrometrology; and (X) New Developments n Precision Engineering. There were also poster sessions and an introductory keynote speech by Dr. H. Mizuno, Executive Vice-President of Matsushita/Panasonic, who talks on the symbiotic relationship between electronics and precision engineering.
The aim of this handbook is to provide a comprehensive summary of sensing and measurement in precision manufacturing, which is essential for process and quality control. The importance of precision sensing and measurements lies not only in the ability to distinguish whether the manufactured part meets the assigned tolerances through inspection but also, in many cases, reduce the deviation of the manufactured part from the designed values through improvement of the process or compensation manufacturing based on the sensing and measurement results. The information provided in the book will be of interest to industrial practitioners and researchers in the field of precision manufacturing sensing and measurements. This volume is part of a multi-volume handbook series that covers a comprehensive range of scientific and technological matters in ‘Precision Manufacturing’, for more information please view this link- https://www.springer.com/series/15575.
Publishes papers reporting on research and development in optical science and engineering and the practical applications of known optical science, engineering, and technology.
