The Experts below are selected from a list of 309 Experts worldwide ranked by ideXlab platform
Valeriy Vyatkin - One of the best experts on this subject based on the ideXlab platform.
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Automatic Generation of Pipelines Into a 3D Industrial Process Model
IEEE Access, 2017Co-Authors: Seppo Sierla, Tommi Karhela, Valeriy VyatkinAbstract:Simulation has become an established technique to support the design of complex, mechatronic or cyber-physical systems. Ideally, simulations should already be performed at an early design phase before high-cost design commitments are made, and the recent advances in the digitalization of design information open possibilities for Automatic Generation of simulation models. However, high-fidelity simulation model building depends on accurate data. In particular, first-principles models are desirable source information for simulations, but such models generally are not available at an early design stage. This paper investigates the Automatic Generation of first-principles 3-D models for piping intensive systems based on design information that is available at an early design stage, namely piping & instrumentation diagrams (P&ID). An algorithm is presented for the Generation of such 3-D models based on machine-readable P&ID information. The main focus of the algorithm is the Automatic Generation of feasible pipelines into the 3-D models, so that the model has sufficient information, which can be exploited in further work to Automatically generate high fidelity first-principles thermo-hydraulic simulations.
Xie Zanfu - One of the best experts on this subject based on the ideXlab platform.
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A Web Table Automatic Generation Universal System Based on Agent
Computer Engineering, 2004Co-Authors: Xie ZanfuAbstract:This paper analyses the users need for table Automatic Generation universal platform, proposed a generic model for Web table Automatic Generation universal system based on agent , discusses the design idea and mechanism framework of Web table Automatic generator based on Knowledge.
Wu Tai-hu - One of the best experts on this subject based on the ideXlab platform.
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Study on Automatic Generation technology of mould cavity of part based on Pro/E
Machinery Design and Manufacture, 2007Co-Authors: Wu Tai-huAbstract:The Automatic Generation technology of mould cavity and core based on Pro/E was stated. According to practical experiences in designing die mould by applying pro/e,attention was paid on the application of Copy-Extend technology in the Automatic Generation technology of mould cavity and core of single-direction valve.
D Mcnielronald - One of the best experts on this subject based on the ideXlab platform.
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Automatic Generation of concept hierarchies using WordNet
Expert Systems With Applications, 2008Co-Authors: Leesangno, Huhsoon-young, D McnielronaldAbstract:This paper examines and proposes the Automatic Generation of concept hierarchies using WordNet. Existing researches have mostly explored the utilization of concept hierarchies, but have not address...
Seppo Sierla - One of the best experts on this subject based on the ideXlab platform.
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Automatic Generation of Pipelines Into a 3D Industrial Process Model
IEEE Access, 2017Co-Authors: Seppo Sierla, Tommi Karhela, Valeriy VyatkinAbstract:Simulation has become an established technique to support the design of complex, mechatronic or cyber-physical systems. Ideally, simulations should already be performed at an early design phase before high-cost design commitments are made, and the recent advances in the digitalization of design information open possibilities for Automatic Generation of simulation models. However, high-fidelity simulation model building depends on accurate data. In particular, first-principles models are desirable source information for simulations, but such models generally are not available at an early design stage. This paper investigates the Automatic Generation of first-principles 3-D models for piping intensive systems based on design information that is available at an early design stage, namely piping & instrumentation diagrams (P&ID). An algorithm is presented for the Generation of such 3-D models based on machine-readable P&ID information. The main focus of the algorithm is the Automatic Generation of feasible pipelines into the 3-D models, so that the model has sufficient information, which can be exploited in further work to Automatically generate high fidelity first-principles thermo-hydraulic simulations.