[8] Błaszczyszyn, B. and Karray, M. K. Performance analysis of cellular networks with opportunistic scheduling using queueing theory and stochastic geometry. hal-01824986 2018. submitted. [ bib | HAL ]
[7] Błaszczyszyn, B. Lecture Notes on Random Geometric Models - Random Graphs, Point Processes and Stochastic Geometry 2017. lecture notes in preparation. [ bib | HAL ]
[6] Błaszczyszyn, B., Yogeshwaran, D. and Yukich, J. E. Limit theory for geometric statistics of point processes having fast decay of correlations. arXiv:1606.03988 2016. Accepted for publication at The Annals of Probability. [ bib | arXiv | HAL ]
[5] Chattopadhyay, A., Błaszczyszyn, B. and Altman, E. Cell planning for mobility management in heterogeneous cellular networks. arXiv:1605.07341 2016. Submitted. [ bib | arXiv | HAL ]
[4] Chattopadhyay, A., Błaszczyszyn, B. and Altman, E. Location aware opportunistic bandwidth sharing between static and mobile users with stochastic learning in cellular networks. Published 27 August 2018 on Early Access in IEEE Transactions on Mobile Computing 2016. [ bib | arXiv | HAL | IEEE Xplore ]
[3] Błaszczyszyn, B. and Gaurav, K. Viral marketing on configuration model. Tech. Rep. HAL-Inria 00864779 2013. submitted. [ bib | arXiv | HAL ]
[2] Błaszczyszyn, B. and Yogeshwaran, D. Clustering, percolation and directionally convex ordering of point processes. arXiv:1105.4293 2011. [ bib | arXiv | HAL ]
[1] Baccelli, F., Błaszczyszyn, B. and Karray, M. A spatial markov qeueing process and its applications to wireless loss systems. Tech. Rep. HAL-Inria 00159330 2007. [ bib | HAL ]

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