Implementation of the Outputs of Computer Simulation to Support Decision-Making Processes
At the present time, awareness, education, computer
simulation and information systems protection are very serious and
relevant topics. The article deals with perspectives and possibilities of
implementation of emergence or natural hazard threats into the
system which is developed for communication among members of
crisis management staffs. The Czech Hydro-Meteorological Institute
with its System of Integrated Warning Service resents the largest
usable base of information. National information systems are connected to foreign systems,
especially to flooding emergency systems of neighboring countries,
systems of European Union and international organizations where the
Czech Republic is a member. Use of outputs of particular information
systems and computer simulations on a single communication
interface of information system for communication among members
of crisis management staff and setting the site interoperability in the
net will lead to time savings in decision-making processes in solving
extraordinary events and crisis situations. Faster managing of an
extraordinary event or a crisis situation will bring positive effects and
minimize the impact of negative effects on the environment.
[1] Rehak D, Grasseova M. The ways of assessing the security of
organization information systems through SWOT analysis, pp. 162-184.
DOI: 10.4018/978-1-61350-311-9.ch007. In Alshawi, Mustafa, ARIF,
Mohammed (eds.). Cases on E-Readiness and Information Systems
Management in Organizations: Tools for Maximizing Strategic
Alignment. 1st edition. Hershey, PA, USA: IGI Global, 2011. 318 p.
ISBN 978-1-61350-311-9. DOI: 10.4018/978-1-61350-311-9.
[2] Klopfer, M., Kanellopoulos, I. Orchestra, an open service architecture
for risk management. The Orchestra Consorcium. 2008. ISBN
9783000242847
[3] Kubicek, P., et al. Process Support and Adaptive Geovisualisation in
Emergency Management. In Geographic Information and Cartography
for Risk and Crisis Management - Towards Better Solutions. Heidelberg:
Springer-Verlag. 2010.
[4] Sell, Ch., Braun, I. Using a Workflow Management System to Manage
Emergency Plans. In Proceedings of the 6th International ISCRAM
Conference. Gothenburg, Sweden. 2009.
[5] Diehl, S., Neuvel, J. et al. Investigation of user requirements in the
emergency response sector: the Dutch case. In Proceedings of the
Second Gi4DM, 25-26 September, Goa, India. 2006.
[6] Ministry of Interior Large-scale accident caused by selected dangerous
chemical substances. Model Action Plan of the Ministry of Interior.
Prague: Ministry of Interior Czech Republic. 2010.
[7] Czech Republic Act No. 239/2000 Coll., on the Integrated Rescue
System and on amendment of certain codes, in latter wording. In Czech
Republic Statute Book.
[8] Ludik, T., Racek, J. Process Methodology for Emergency Management.
IFIP Advances in Information and Communication Technology,
Heidelberg: Springer 2011, 359, p. 302-309. ISSN 1868-4238.
[9] Czech Republic Legislation Decree. 523/2005 Coll., on the security of
information and communication … In Czech Republic Statute Book.
[10] Czech Republic Act No. 412/2005 Coll., on the protection of Classified
Information and Security. In Czech Republic Statute Book.
[11] Czech Republic Act No. 181/2014 Coll., on the cyber security. In Czech
Republic Statute Book.
[12] Urbanek, J. F. et al. Crisis Scenarios. Brno: Univerzity of Defence,
2013. 240 pp. ISBN: 978-80-7231-934-3.
[13] Urbanek, J. F. et al. Technology of Computer-Aided Adaptive
Camouflage. In International Conference on Computers and Computing
(ICCC´11). Lanzarote, Canary Islands, Spain, 2011, p. 81-87. ISSN
2223-2753. ISBN 978-1-61804-000-8.
[14] Kral, D., Urbanek, J. F. Enterprise Crisis Continuity Scenarios on the
Competitive Environments, In Enterprise and the Competitive
Environment 2014 Conference, ECE 2014, Mendel University Press,
Brno 2014, ISBN 978-80-87106-74-7.
[15] Bozek, F., Huzlik, J., Mares, J., & Malachova, H. Emissions of Selected
Pollutants While Applying of Specific Additive EnviroxtmTM. WSEAS
Transactions on Environment and Development, 7(8), 233-243. 2011.
[16] Caslavsky, M., Bozek, F., Bumbova, A. Health Risk Analysis of the
Environmental Burden. Southampton: WITPRES, 2010, p. 135-144.
Risk Analysis VII. Brownfields V. 1. ISBN 978-1-84564-472-7.
[17] Modelling crisis management for improved action and preparedness -
CRISMA: SEC-2011.4.1-1 - Crisis management modelling tool -
Integration Project. In: (online). 2014 (cit. 2014-10-05).
http://www.crismaproject.eu/index.htm.
[1] Rehak D, Grasseova M. The ways of assessing the security of
organization information systems through SWOT analysis, pp. 162-184.
DOI: 10.4018/978-1-61350-311-9.ch007. In Alshawi, Mustafa, ARIF,
Mohammed (eds.). Cases on E-Readiness and Information Systems
Management in Organizations: Tools for Maximizing Strategic
Alignment. 1st edition. Hershey, PA, USA: IGI Global, 2011. 318 p.
ISBN 978-1-61350-311-9. DOI: 10.4018/978-1-61350-311-9.
[2] Klopfer, M., Kanellopoulos, I. Orchestra, an open service architecture
for risk management. The Orchestra Consorcium. 2008. ISBN
9783000242847
[3] Kubicek, P., et al. Process Support and Adaptive Geovisualisation in
Emergency Management. In Geographic Information and Cartography
for Risk and Crisis Management - Towards Better Solutions. Heidelberg:
Springer-Verlag. 2010.
[4] Sell, Ch., Braun, I. Using a Workflow Management System to Manage
Emergency Plans. In Proceedings of the 6th International ISCRAM
Conference. Gothenburg, Sweden. 2009.
[5] Diehl, S., Neuvel, J. et al. Investigation of user requirements in the
emergency response sector: the Dutch case. In Proceedings of the
Second Gi4DM, 25-26 September, Goa, India. 2006.
[6] Ministry of Interior Large-scale accident caused by selected dangerous
chemical substances. Model Action Plan of the Ministry of Interior.
Prague: Ministry of Interior Czech Republic. 2010.
[7] Czech Republic Act No. 239/2000 Coll., on the Integrated Rescue
System and on amendment of certain codes, in latter wording. In Czech
Republic Statute Book.
[8] Ludik, T., Racek, J. Process Methodology for Emergency Management.
IFIP Advances in Information and Communication Technology,
Heidelberg: Springer 2011, 359, p. 302-309. ISSN 1868-4238.
[9] Czech Republic Legislation Decree. 523/2005 Coll., on the security of
information and communication … In Czech Republic Statute Book.
[10] Czech Republic Act No. 412/2005 Coll., on the protection of Classified
Information and Security. In Czech Republic Statute Book.
[11] Czech Republic Act No. 181/2014 Coll., on the cyber security. In Czech
Republic Statute Book.
[12] Urbanek, J. F. et al. Crisis Scenarios. Brno: Univerzity of Defence,
2013. 240 pp. ISBN: 978-80-7231-934-3.
[13] Urbanek, J. F. et al. Technology of Computer-Aided Adaptive
Camouflage. In International Conference on Computers and Computing
(ICCC´11). Lanzarote, Canary Islands, Spain, 2011, p. 81-87. ISSN
2223-2753. ISBN 978-1-61804-000-8.
[14] Kral, D., Urbanek, J. F. Enterprise Crisis Continuity Scenarios on the
Competitive Environments, In Enterprise and the Competitive
Environment 2014 Conference, ECE 2014, Mendel University Press,
Brno 2014, ISBN 978-80-87106-74-7.
[15] Bozek, F., Huzlik, J., Mares, J., & Malachova, H. Emissions of Selected
Pollutants While Applying of Specific Additive EnviroxtmTM. WSEAS
Transactions on Environment and Development, 7(8), 233-243. 2011.
[16] Caslavsky, M., Bozek, F., Bumbova, A. Health Risk Analysis of the
Environmental Burden. Southampton: WITPRES, 2010, p. 135-144.
Risk Analysis VII. Brownfields V. 1. ISBN 978-1-84564-472-7.
[17] Modelling crisis management for improved action and preparedness -
CRISMA: SEC-2011.4.1-1 - Crisis management modelling tool -
Integration Project. In: (online). 2014 (cit. 2014-10-05).
http://www.crismaproject.eu/index.htm.
@article{"International Journal of Business, Human and Social Sciences:70947", author = "Jiří Barta", title = "Implementation of the Outputs of Computer Simulation to Support Decision-Making Processes", abstract = "At the present time, awareness, education, computer
simulation and information systems protection are very serious and
relevant topics. The article deals with perspectives and possibilities of
implementation of emergence or natural hazard threats into the
system which is developed for communication among members of
crisis management staffs. The Czech Hydro-Meteorological Institute
with its System of Integrated Warning Service resents the largest
usable base of information. National information systems are connected to foreign systems,
especially to flooding emergency systems of neighboring countries,
systems of European Union and international organizations where the
Czech Republic is a member. Use of outputs of particular information
systems and computer simulations on a single communication
interface of information system for communication among members
of crisis management staff and setting the site interoperability in the
net will lead to time savings in decision-making processes in solving
extraordinary events and crisis situations. Faster managing of an
extraordinary event or a crisis situation will bring positive effects and
minimize the impact of negative effects on the environment.", keywords = "Computer simulation, communication, continuity,
critical infrastructure, information systems, safety.", volume = "9", number = "10", pages = "3342-4", }
