350 руб
Журнал «Нейрокомпьютеры: разработка, применение» №1 за 2009 г.
Статья в номере:
Системы виртуального окружения в задачах реагирования, предотвращения и ликвидации последствий чрезвычайных ситуаций
Ключевые слова: визуализация виртуальное окружение чрезвычайные ситуации моделирование поддержка принятия решений геоинформационные системы расширенная реальность
Авторы:
Д.А. Байгозин, Ю.М. Батурин, Т.Н. Борисов, П.П. Даниличева, Р.Т. Исламов, И.А. Кириллов, С.В. Клименко, И.Е. Лукашевич, А.А. Романов, С.А. Фомин, С.А. Цыганов
Аннотация:
Обзор посвящен анализу возможностей применения технологий визуализации, в частности виртуального окружения (ВО), для подготовки, предотвращения и ликвидации последствий чрезвычайных ситуаций (ЧС). В первом разделе рассмотрены перспективы применения технологий ВО как средства информационной поддержки в условиях ЧС. Во втором разделе описаны возможности ВО для моделирования ЧС и тренировки спасателей. Третий раздел посвящён применению устройств расширенной реальности для экипировки поисково-спасательных отрядов, для обеспечения коммуникации между спасателями на месте ЧС и пунктом управления, для навигации и отображения трёхмерной геоинформации, а также для оценки повреждений и реконструкции зданий. В четвёртом разделе проанализированы возможности применения технологии ВО для оснащения пункта управления спасательной операцией с целью визуализации информации о ЧС и поддержки принятия решений. В заключении отмечены наиболее значимые достижения в сфере применения ВО в ЧС и перспективы развития данного направления.
Страницы: 5
Список источников
  1. Федеральная целевая программа «Снижение рисков и смягчение последствий чрезвычайных ситуаций природного и техногенного характера в Российской федерации до 2010 года».
  2. NATO Update 23-29 сентября 2002 г., http://www.nato.int/docu/other/ru/upd2002/.
  3. Delaney, B., Computer Graphics: Helping to Cope With Terrorism, in: Computer Graphics and Applications, IEEE, Volume 22, Issue 2, Mar/Apr 2002, pp. 16-23.
  4. Commitee on Science and Technology for Countering Terrorism, National Research Council, Making the Nation Safer: the Role of Science and Technology in Countering Terrorism - The National Academies Press, Washington DC, 2002, ISBN 0-309-08481-4.
  5. Cai, G., Sharma, R., MacEarchen, A.M., Brewer, I., Human-GIS Interaction Issues in Crisis Response, in: International Journal of Risk Assessment and Management, Vol. 6, No. 4/5/6, 2006.
  6. Jain, S., McLean, C.R., Modeling and Simulation for Emergency Response: Workshop Report, Standarts and Tools, in: NIST Internal Report NISTIR-7071, Dec. 2003.
  7. USGS - United States Geological Survey, About Tsunami and Eartquake Research at the USGS; http://walrus.wr.usgs.gov/tsunami/about.html.
  8. SCES - Southern California Earthquake Center, 2004, Annual Report.
  9. Kirillov, I.A., Pasman, H.J., Overview of ABC (Aircraft-Building-Crash) project, in: Netherlands-Russian NWO-RFBR Antiterrorist Research program, workshop for Dutch Fire Brigades and Russian Ministry of Emergency, CD-ROM, Prince Maurits Laboratory, TNO, 24 June 2004.
  10. Lukashevich, I.E. High-end software tools for hazards and risks analysis, in: Netherlands-Russian NWO-RFBR Antiterrorist research program, workshop for Dutch Fire Brigades and Russian Ministry of Emergency, CD-ROM, Prince Maurits Laboratory, TNO, 24June 2004.
  11. Panteleev, V.A., Lukashevich, I.E. Quantitative risk assessment for aircraft-building-crash project. Methodology and software, in: Netherlands-Russian NWO-RFBR Antiterrorist Research program, workshop for Dutch Fire Brigades and Russian Ministry of Emergency, CD-ROM, Prince Maurits Laboratory, TNO, 24 June 2004.
  12. Roytman, V.M., Pasman H.J., Lukashevich, I.E., The concept of evaluation of the building resistance against combined hazardous effects, in: 4th International Seminar on Fire and Explosion Hazards, 7-12 September, 2003, Londonderry, UK.
  13. Li, H., Tang, W., Simpson, D., Behaviour Based Motion Simulation for Fire Evacuation Procedures, in: Proceedings of Theory and Practice of Computer Graphics, 2004.
  14. Shendarkar, A., Vasudevan, K., Lee, S., Son, Y.J., Crowd Simulation for Emergency Response Using BDI Agent Based on Virtual Reality, in: Proceedings of the 38th conference on Winter simulation, 2006, pp. 545-553, ISBN:1-4244-0501-7.
  15. Baturin, Y., Danilicheva, P., Klimenko, S., and Serebrov, A., - Virtual Space Experiments and Lessons from Space?, in: Proceedings of World Conference on Educational Multimedia, Hypermedia & Telecommunications 2007, C. Montgomerie and J. Seale, ed., AACE, Chesapeake, VA, pp. 4195-4200.
  16. Ren, A., Chen, C., Shi, J., Zou, L., Application of Virtual Reality Technology to Evacuation Simulation in Fire Disaster, in: Proceedings of the 2006 International Conference on Computer Graphics & Virtual Reality, 2006, ISBN 1-932415-85-8, pp. 15-21.
  17. BFRL - Building and Fire Research Labaratory, National Institute of Standarts and Technology; http://www2.bfrl.nist.gov.
  18. Louka, M.N., Balducelli, C., Virtual Reality Tools for Emergency Operation Support and Training, in Proceedings of The International Emergency Management Society, June 2001.
  19. ADMS - Advanced Disaster Management Simulator; http://www.admstraining.com
  20. Bane, R., Höller, T., - Interactive Tools for Virtual X-Ray Vision in Mobile Augmented Reality?, in: Proceedings of Intl Symposium on Mixed and Augmented Reality 2004, pp. 231-239.
  21. Wursthorn, S., Coelho, A.H., Staub, G., Applications for Mixed Reality, in IAPRSIS, Vol. XXXV, Part B (Comm.III).
  22. Wearable Computer Lab, University of South Australia, tinmith AR system; http://tinmith.net.
  23. Randell, C., Wearable Computing: A Review, Technical Report CSTR-06-004, University of Bristol, April 2005.
  24. Columbia University, Computer Graphics and User Interfaces Lab, MARS project; http://www1.cs.columbia.edu/ graphics/projects/mars.
  25. Военный тренажёр Quantum3D ExpeditionDI; http://www.quantum3d.com/products/Expedition/ ExpeditionDI.html.
  26. Piekarski, W. - Interactive 3D Modelling in Outdoor Augmented Reality Worlds - ? PhD Thesis, Adelaide, SA, University of South Australia, 2004.
  27. Meissner, A., Luckenbach, T., Risse, T., Kirste, T., Kichner, H., Design Challenges for an Integrated Disaster Management Communication and Information System, in: Proceedings of st IEEE Workshop on Disaster Recovery Networks, 2002.
  28. Stafford, A., Piekarski, W., Thomas, B.H., Implementation of God-like Interaction Techiques for Supporting Collaboration Between Outdoor AR and Indoor Tabletop User, in: Proceedings of International Symposium on Mixed and Augmented Reality, 2006.
  29. Höllerer, T., Feiner, S., Terauchi, T., Rashid, G., Hallaway, D., Exploring MARS: Developing Indoor and Outdoor User Interfaces to a Mobile Augmented Reality System, in: Computer and Graphics, 23(6), Elsevier Publishers, Dec.1999, pp. 779-785.
  30. Van Oosterom, P., Zlatanova, S., Fendel, E.M., Geo-information for Disaster Management?, Springer, Berlin / Heidelberg / New York., 2005, ISBN 3-540-24988-5.
  31. Google Earth; http://earth.google.com.
  32. Microsoft Virtual Earth; http://www.microsoft.com/virtualearth.
  33. Virtual Alabama; http://www.virtu-al.org.
  34. ESRI (GIS and Mapping Software); http://www.esri.com/.
  35. HAZUS; http://www.fema.gov/plan/prevent/hazus/.
  36. Leica Geosystems; http://www.leica-geosystems.com/ru.
  37. Grass GIS; http://grass.itc.it.
  38. Haklay, M., Tobon, C., Usability Engineering and PPGIS: Towards a Learning-Improving Cycle, 2002; http://homepages.ge.ucl.ac.uk/ mhaklay/pdf/Haklay- Tobon-URISA-PPGIS.pdf.
  39. Brewer, I., Cognitive Systems Engineering and GIScience: Lessons learned from a work domain analysis for the design of a collaborative, multimodal emergency GIS, 2002; http://www.geovista.psu.edu/publications/Brewer-GISCIENCE2002-photoReady.pdf.pdf.
  40. Leebman, J. An Augmented Reality System for Earthquake Disaster Response, TS THS 19 Urban Modelling, Visualisation And Tracking, Institut für Photogrammetrie und Fernerkundung, Universität Karlshure (TH), Germany, 2004
  41. Zlatanova, S., Holweg, D., Stratakis, M., Framework for Multi-Risk Emergency Response, in: C.V. Tao and J. Li, ed., Advances in Mobile Mapping Technology, ISPRS Book Series, Taylor & Francis, London, pp. 159-171.
  42. Thalmann, D., Salamin, P., Ott, R., Gutierrez, M., Vexo, F., Advanced Mixed Reality Technologies for Surveillance and Risk Prevention Applications, in: st International Symposium on Computer and Information Sciences, pp. 13-23, 2006
  43. Kamat, V.R., El-Tawil, S., Rapid Post-disaster Evaluation of Building Damage Using Augmented Situational Visualization, in: Proceedings the 2005 Construction Research Congress, I.D. Tommelein, ed., ASCE, San Diego, California, 2005, p. 122.
  44. Welsh, G., Bishop, G., Vicci, L., Brumback, S., Keller, K., Colucci, D., High-Performance Wide-Area Optical Tracking ? The HiBall Tracking System, in: Proceedings of the ACM Symposium on Virtual Reality Software and Technology, December 1999.
  45. Webster, A., Feiner, S., MacIntyre, B., Massie, W., Krueger, T., Augmented Reality in Architectural Construction, Inspection and Renovation, in: Proceedings of Third ASCE Congress for Computing in Civil Engineering, ASCE Press, New York, 1996, pp. 913-919.
  46. Beroggi, G.E.G., Mendonca, D.,Wallance, W.A., Operational Sustainability Management for the Infrastructure: The Case of Emergency Response, in: Systems Engineering and Management for Sustainable Development, Andrew P. Sage, ed., in: Encyclopedia of Life Support Systems, EOLSS Publishers, Oxford, UK; http://web.njit.edu/mendonca/papers/opsust.pdf.