TY - BOOK ID - 46171906 TI - An Intelligent Inspection Planning System for Prismatic Parts on CMMs AU - Stojadinović, Slavenko M. AU - Majstorović, Vidosav D. PY - 2019 SN - 3030128075 3030128067 PB - Cham : Springer International Publishing : Imprint: Springer, DB - UniCat KW - Engineering. KW - Manufactures. KW - Artificial intelligence. KW - Machinery and Machine Elements. KW - Manufacturing, Machines, Tools, Processes. KW - Artificial Intelligence. KW - Measurement Science and Instrumentation. KW - Management information systems. KW - Computer-based information systems KW - EIS (Information systems) KW - Executive information systems KW - MIS (Information systems) KW - Sociotechnical systems KW - Information resources management KW - Management KW - Communication systems KW - AI (Artificial intelligence) KW - Artificial thinking KW - Electronic brains KW - Intellectronics KW - Intelligence, Artificial KW - Intelligent machines KW - Machine intelligence KW - Thinking, Artificial KW - Bionics KW - Cognitive science KW - Digital computer simulation KW - Electronic data processing KW - Logic machines KW - Machine theory KW - Self-organizing systems KW - Simulation methods KW - Fifth generation computers KW - Neural computers KW - Manufactured goods KW - Manufactured products KW - Products KW - Products, Manufactured KW - Commercial products KW - Manufacturing industries KW - Construction KW - Industrial arts KW - Technology KW - Machinery. KW - Physical measurements. KW - Measurement . KW - Measuring KW - Mensuration KW - Mathematics KW - Metrology KW - Physical measurements KW - Measurements, Physical KW - Mathematical physics KW - Measurement KW - Machinery KW - Machines KW - Manufactures KW - Power (Mechanics) KW - Mechanical engineering KW - Motors KW - Power transmission KW - Curious devices UR - https://www.unicat.be/uniCat?func=search&query=sysid:46171906 AB - This book introduces a new generation of metrological systems and their application in a digital quality concept. It discusses the development of an optimal collision-free measuring path based on CAD geometry and tolerances defined in knowledge base and AI techniques such as engineering ontology, ACO and GA. This new approach, combining both geometric and metrological features, allows the following benefits: reduction of a preparation time based on the automatic generation of a measuring protocol; developed mathematical model for the distribution of measuring points and collision avoidance; the optimization of a measuring probe path; the analysis of a part placement based on the accessibility analysis and automatic configuration of measuring probes. The application of this new system is particularly useful in the inspection of complex prismatic parts with a large number of tolerances, in all of type production. The implementation is demonstrated using several case studies relating to high-tech industries and advanced, non-conventional processes. ER -