Details Details PDF BIBTEX RIS Title Models of multimodal networks and transport processes Journal title Bulletin of the Polish Academy of Sciences Technical Sciences Yearbook 2015 Volume 63 Issue No 3 Authors Bocewicz, G. ; Muszyński, W. ; Banaszak, Z. Divisions of PAS Nauki Techniczne Coverage 635-650 Date 2015[2015.01.01 AD - 2015.12.31 AD] Identifier DOI: 10.1515/bpasts-2015-0075 ; ISSN 2300-1917 Source Bulletin of the Polish Academy of Sciences: Technical Sciences; 2015; 63; No 3; 635-650 References Friedrich (1999), A multi - modal transport model for integrated planning th on Transport Research, Proc World Conf, 8, 1. ; Wójcik (2001), Towards strong stability of concurrent repetitive processes sharing resources Systems, Science, 27, 37. ; Alpan (1997), Dynamic analysis of timed petri nets : a case of two processes and a shared resource on Robotics and Automation, IEEE Trans, 13, 338. ; Polak (2004), The performance evaluation tool for automated prototyping of concurrent cyclic processes, Fundamenta Informaticae, 60, 1. ; Russell (2009), Artificial A Modern Approach New York, Intelligence. ; Alpan (1998), Synthesis of sequential controller in the presence of conflicts and free choices Robotics and Automation, IEEE Trans, 14, 488. ; Gaujal (1995), Allocation sequences of two processes sharing a resource on Robotics and Automation, IEEE Trans, 11, 748. ; Dąbrowski (2007), Minimizing cycle time of the flow line - genetic approach with gene expression Lecture Notes in Computer, Science, 4431. ; Relich (2014), The use of intelligent systems for planning and scheduling of product development projects Procedia, Computer Science, 35. ; Sitek (2013), A hybrid approach to modeling and optimization for supply chain management with multimodal transport th Conf Methods and Models in Automation and Robotics, IEEE Conf Int, 18, 777. ; Levner (2010), Complexity of cyclic scheduling problems : astate - of - the - art survey Computers &, Industrial Engineering, 59, 352, doi.org/10.1016/j.cie.2010.03.013 ; Magiera (2013), A relaxation heuristic for scheduling flowshops with intermediate buffers, Bull Tech, 61, 929. ; Sawik (2014), A mixed integer program for cyclic scheduling of flexible flow lines, Bull Tech, 62, 121. ; Zaremba (1998), Design of steady - state behaviour of concurrent repetitive processes : and algebraic approach Systems Man and CyberneticsA, IEEE Trans, 28, 199. ; Fanti (1997), Low - cost deadlock avoidance policies for flexible production systems Modeling Simulation, Int, 17, 310. ; Bocewicz (2013), Declarative approach to cyclic steady states space refinement : periodic processes scheduling Advanced Manufacturing Technology SI : Advanced Dispatching Rules for Large - Scale Manufacturing Systems, Int, 67, 1. ; Abrams (1992), Visual analysis of parallel and distributed programs in the time and frequency domains Parallel and Distributed Systems, IEEE Trans, 3, 672. ; Abadi (2000), Minimizing cycle time in a blocking flowshop, Operations Research, 48, 177, doi.org/10.1287/opre.48.1.177.12451