References

  1. Linda JS Allen (2010): An introduction to stochastic processes with applications to biology. CRC Press.
  2. H. Andersson & T. Britton (2000): Stochastic Epidemic Models and Their Statistical Analysis. Springer-Verlag, doi:10.1007/978-1-4612-1158-7.
  3. A. Andreychenko, L. Mikeev & C. Wolf (2015): Model Reconstruction for Moment-Based Stochastic Chemical Kinetics. ACM Transactions on Modeling and Computer Simulation (TOMACS) 25(2), pp. 12, doi:10.1145/2699712.
  4. A Bhattacharyya (1943): On a measure of divergence between two statistical population defined by their population distributions. Bulletin Calcutta Mathematical Society 35, pp. 99–109.
  5. Juan A Bonachela, Miguel A Muñoz & Simon A Levin (2012): Patchiness and demographic noise in three ecological examples. Journal of Statistical Physics 148(4), pp. 724–740, doi:10.1007/s10955-012-0506-x.
  6. L. Bortolussi, J. Hillston, D. Latella & M. Massink (2013): Continuous approximation of collective system behaviour: A tutorial. Performance Evaluation 70(5), pp. 317–349, doi:10.1016/j.peva.2013.01.001.
  7. L. Bortolussi & L. Nenzi (2014): Specifying and monitoring properties of stochastic spatio-temporal systems in signal temporal logic. In: Proceedings of the 8th International Conference on Performance Evaluation Methodologies and Tools, pp. 66–73, doi:10.4108/icst.Valuetools.2014.258183.
  8. Luca Bortolussi, Rocco De Nicola, Vashti Galpin, Stephen Gilmore, Jane Hillston, Diego Latella, Michele Loreti & Mieke Massink (2015): CARMA: Collective Adaptive Resource-sharing Markovian Agents. In: Proceedings Thirteenth Workshop on Quantitative Aspects of Programming Languages and Systems, QAPL 2015, London, UK., pp. 16–31, doi:10.4204/EPTCS.194.2.
  9. Luca Bortolussi & Roberta Lanciani (2014): Stochastic approximation of global reachability probabilities of Markov population models. In: Computer Performance Engineering. Springer, pp. 224–239, doi:10.1007/978-3-319-10885-8_16.
  10. Richard Durrett & Simon Levin (1994): The importance of being discrete (and spatial). Theoretical population biology 46(3), pp. 363–394, doi:10.1006/tpbi.1994.1032.
  11. Rick Durrett (1999): Stochastic spatial models. SIAM review 41(4), pp. 677–718, doi:10.1137/S0036144599354707.
  12. Radek Erban & S Jonathan Chapman (2009): Stochastic modelling of reaction–diffusion processes: algorithms for bimolecular reactions. Physical biology 6(4), pp. 046001, doi:10.1088/1478-3975/6/4/046001.
  13. Cheng Feng (2014): Patch-based Hybrid Modelling of Spatially Distributed Systems by Using Stochastic HYPE - ZebraNet as an Example. In: Proceedings Twelfth International Workshop on Quantitative Aspects of Programming Languages and Systems, QAPL 2014, Grenoble, France., pp. 64–77, doi:10.4204/EPTCS.154.5.
  14. Cheng Feng & Jane Hillston (2014): PALOMA: A process algebra for located markovian agents. In: Quantitative Evaluation of Systems. Springer, pp. 265–280, doi:10.1007/978-3-319-10696-0_22.
  15. Cheng Feng, Jane Hillston & Vashti Galpin (2016): Automatic Moment-Closure Approximation of Spatially Distributed Collective Adaptive Systems. ACM Transactions on Modeling and Computer Simulation (TOMACS) 26(4), doi:10.1145/2883608.
  16. Christine Fricker & Nicolas Gast (2014): Incentives and redistribution in homogeneous bike-sharing systems with stations of finite capacity. EURO Journal on Transportation and Logistics, pp. 1–31, doi:10.1007/s13676-014-0053-5.
  17. Daniel T Gillespie (1977): Exact stochastic simulation of coupled chemical reactions. The Journal of Physical Chemistry 81(25), pp. 2340–2361, doi:10.1021/j100540a008.
  18. Marcel C Guenther & Jeremy T Bradley (2013): Journey data based arrival forecasting for bicycle hire schemes. In: Analytical and Stochastic Modeling Techniques and Applications. Springer, pp. 214–231, doi:10.1007/978-3-642-39408-9_16.
  19. Marcel C Guenther, Anton Stefanek & Jeremy T Bradley (2013): Moment closures for performance models with highly non-linear rates. In: Computer Performance Engineering. Springer, pp. 32–47, doi:10.1007/978-3-642-36781-6_3.
  20. J. Hasenauer, V. Wolf, A. Kazeroonian & F. J. Theis (2013): Method of conditional moments (MCM) for the Chemical Master Equation: A unified framework for the method of moments and hybrid stochastic-deterministic models. Journal of Mathematical Biology, doi:10.1007/s00285-013-0711-5.
  21. N. G. van Kampen (2007): Stochastic processes in physics and chemistry. Elsevier.
  22. T. G. Kurtz (1981): Approximation of population processes. SIAM, doi:10.1137/1.9781611970333.
  23. Bojan Mohar (1997): Some applications of Laplace eigenvalues of graphs. In: Graph Symmetry, NATO ASI Series 497. Springer Netherlands, pp. 225–275, doi:10.1007/978-94-015-8937-6_6.
  24. Andrew Y Ng, Michael I Jordan & Yair Weiss (2002): On spectral clustering: Analysis and an algorithm. Advances in neural information processing systems 2, pp. 849–856, doi:10.1.1.19.8100.
  25. Jianbo Shi & Jitendra Malik (2000): Normalized cuts and image segmentation. IEEE Transactions on Pattern Analysis and Machine Intelligence 22(8), pp. 888–905, doi:10.1109/34.868688.
  26. Anton Stefanek, Richard A Hayden & Jeremy T Bradley (2011): Fluid computation of the performance: energy tradeoff in large scale Markov models. ACM SIGMETRICS Performance Evaluation Review 39(3), pp. 104–106, doi:10.1145/2160803.2160817.
  27. Ludovica Luisa Vissat, Jane Hillston, Glenn Marion & Matthew J Smith (to appear): MELA: Modelling in Ecology with Location Attributes. Proceedings of the fourth international symposium on Modelling and Knowledge Management applications: Systems and Domains, MoKMaSD 2015, York, UK.
  28. Ulrike Von Luxburg (2007): A tutorial on spectral clustering. Statistics and computing 17(4), pp. 395–416, doi:10.1007/s11222-007-9033-z.
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