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Author Kiser, B.C.; Lawson, S.R.; Itami, R.M., pdf  url
isbn  openurl
  Title Using Computer Simulation Modeling to Monitor the Multiple Dimensions of Wilderness Solitude in Great Smoky Mountains National Park Type
  Year 2006 Publication Exploring the Nature of Management Abbreviated Journal  
  Volume MMV 3 - Proceedings Issue Pages 309-310  
  Keywords (up) MMV3, Computer simulation, monitoring, wilderness, wilderness solitude, Great Smoky Mountains National Park  
  Abstract  
  Call Number ILEN @ m.sokopp @ 736 Serial 2491  
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Author Itami, R.M., pdf  url
isbn  openurl
  Title Level of Sustainable Activity: Moving Visitor Simulation from Description to Management Type
  Year 2006 Publication Exploring the Nature of Management Abbreviated Journal  
  Volume MMV 3 - Proceedings Issue Pages 193-195  
  Keywords (up) MMV3, River traffic simulation, river traffic management, level of sustainable activity, RBSim, pattern of use simulation  
  Abstract  
  Call Number ILEN @ m.sokopp @ 665 Serial 2456  
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Author Itami, R.M., pdf  url
isbn  openurl
  Title Level of sustainable activity: bottom up vessel traffic management Type
  Year 2008 Publication Management for Protection and Sustainable Development Abbreviated Journal  
  Volume MMV 4 - Proceedings Issue Pages 155-159  
  Keywords (up) MMV4, Vessel Traffic Management, Level of Sustainable Activity, RBSim, Recreation Behaviour Simulation, Bottom Up Decision Making  
  Abstract This paper presents a decision-making framework called “Level of Sustainable Activity”(LSA) which is a user-based approach to vessel traffic planning and management of high volume multiple use urban waterways. The method is adapted from the US Federal Highway Administrations “Level of Service” for traffic capacity. However the LSA framework links user estimates of traffic density to quality of service objects and a risk management framework to identify social and environmental risk factors. The results of the method are then used to interpret simulations of existing and projected use for making management decisions. The LSA framework was developed to define traffic capacity to urban waterways, however a spinoff of the method has been improved stakeholder buy-in into the process and a much stronger basis for management decision making. This is a direct result of the “bottom up” approach taken to both developing behavioural simulation models and the methods of obtaining information from users for populating and validating the simulation model. This paper advocates the LSA approach for a wider range of management applications by taking a user-based approach for describing existing conditions, projecting future growth, identifying key issues, and developing management actions. A case study of a vessel traffic management plan for Hobson’s Bay in Melbourne, Australia is used to demonstrate the concepts described in this paper.  
  Call Number ILEN @ m.sokopp @ 956 Serial 2599  
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