References

Barham, R., 1996. Fire Engineering and Emergency Planning. E & FN SPON, London, UL., ISBN:9780419201809, Pages: 586.

Dimakis, N., A. Filippoupolitis and E. Gelenbe, 2010. Distributed building evacuation simulator for smart emergency management. Comput. J., 53: 1384-1400.
Direct Link  |  

Elms, D.G., A.H. Buchanan and J.W. Dusing, 1984. Modeling fire spread in buildings. Fire Technol., 20: 11-19.
Direct Link  |  

Ethier, S.N. and T.G. Kurtz, 1986. Markov Processes: Characterization and Convergence. 2nd Edn., John Wiley and Sons, Hoboken, New Jersey, USA., Pages: 534.

Gupta, A.K., R. Kumar, P.K. Yadav and M. Naveen, 2001. Fire safety through mathematical modelling. Curr. Sci., 80: 18-26.
Direct Link  |  

Gwynne, S., E.R. Galea, M. Owen, P.J. Lawrence and L. Filippidis, 1999. A review of the methodologies used in the computer simulation of evacuation from the built environment. Build. Environ., 34: 741-749.
Direct Link  |  

Gwynne, S., E.R. Galea, P.J. Lawrence and L. Filippidis, 2001. Modelling occupant interaction with fire conditions using the buildingEXODUS evacuation model. Fire Saf. J., 36: 327-357.
Direct Link  |  

Hamacher, H.W. and S.A. Tjandra, 2001. Mathematical Modelling of Evacuation Problems: A State of the Art. In: Pedestrian and Evacuation Dynamics, Schreckenberg, M. and S.D. Sharma (Eds.). Springer, Berlin, Germany, pp: 227-266.

Kendall, D.G., 1951. Some problems in the theory of queues. J. Royal Stati. Soc., 13: 151-185.
Direct Link  |  

Khinchin, A.Y., D.M. Andrews and M.H. Quenouille, 2013. Mathematical Methods in the Theory of Queuing. Courier Corporation, North Chelmsford, Massachusetts, Pages: 126.

Kholshchevnikov, V.V., 2015. Experimental researches of human flow in staircases of high-rise buildings. Intl. J. Appl. Eng. Res., 10: 42549-42552.

Kijima, M., 1997. Markov Processes for Stochastic Modeling. Chapman&Hall, London, UK., ISBN:978-0-412-60660-7, Pages: 343.

Kisko, T.M. and R.L. Francis, 1985. EVACNET+: A computer program to determine optimal building evacuation plans. Fire Saf. J., 9: 211-220.
Direct Link  |  

Kuligowski, E.D., R.D. Peacock and B.L. Hoskins, 2005. A review of building evacuation models. Master Thesis, US Deptartment of Commerce, National Institute of Standards and Technology, Gaithersburg, Maryland, USA.

Matveev A.V. and MV. Ivanov, 2011. Criterion of efficiency of manage by individual fire risk in a building with application of equipment of emergency evacuation, St. Petersburg State Polytechnical University. J. Comput. Sci. Telecommunications Control Syst., 6: 165-170.

Matveev, A.V. and S.V. Efremov, 2013. The model of the process of emergency evacuation from building in the case of fire at a nonstationary flow of people. Sci. Pract. Educ. Methodical J. Life Saf., 2: 46-50.

Matveev, A.V., M.V. Ivanov, V.Y. Piskov and D.Y. Minkin, 2011. The model of the system of management of emergency evacuation on the objects with the massive presence of people. Bull. Petersburg Univ. State Fire Serv., 4: 10-16.

Steere, N.V., 1964. Fire, emergency and rescue procedures. J. Chem. Educ., 41: A369-A375.
CrossRef  |  Direct Link  |  

Thompson, P.A. and E.W. Marchant, 1995. A computer model for the evacuation of large building populations. Fire Saf. J., 24: 131-148.
Direct Link  |  

Viswanadham, N. and Y. Narahari, 1992. Performance Modeling of Automated Manufacturing Systems. Prentice Hall, Upper Saddle River, New Jersey, USA., Pages: 585.

Wang, P., P.B. Luh, S.C. Chang and J. Sun, 2008. Modeling and optimization of crowd guidance for building emergency evacuation. Proceedings of the IEEE International Conference on Automation Science and Engineering CASE, August 23-26, 2008, IEEE, Arlington, Virginia, USA., ISBN:978-1-4244-2022-3, pp: 328-334.