Search for dissertations about: "Virtual preparation"
Showing result 1 - 5 of 14 swedish dissertations containing the words Virtual preparation.
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1. Towards a holistic methodology of efficient virtual preparation and commissioning for production systems
Abstract : The industry elaborates on the possibilities of applying virtual engineering work to excel in production system development. For example, Virtual Commissioning as a concept for testing and validating system performance in advance of on-site commissioning has proven beneficial in multiple areas of development. READ MORE
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2. Towards an integrated framework for modeling, control, and validation of production systems
Abstract : To prepare a production system before installation includes a multitude of computer assisted tasks. Virtual preparation, including many simulation supported activities, has made great strides during the last decade. Industrial robots are routinely programmed offline in simulation environments. READ MORE
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3. Towards an infrastructure for preparation and control of intelligent automation systems
Abstract : In an attempt to handle some of the challenges of modern production, intelligent automation systems offer solutions that are flexible, adaptive, and collaborative. Contrary to traditional solutions, intelligent automation systems emerged just recently and thus lack the supporting tools and infrastructure that traditional systems nowadays take for granted. READ MORE
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4. Virtual Training - Preparatory Training in Automotive Assembly
Abstract : The automotive industry is constantly facing new challenges. Reduction of waste and time-to-market, ability to offer the customer a unique combination of options as well as high product quality are examples of issues that have been in focus during the past decade and still considered extremely important. READ MORE
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5. Preparation and control of intelligent automation systems
Abstract : In the automation systems of tomorrow, it is likely that the devices included have various degrees of autonomy, and include advanced algorithms for perception and control. Human operators will be expected to work together with collaborative robots as well as with roaming robots for material handling. READ MORE