205 | -- | 207 | Francesco Matera, Marco Listanti, Michal Pióro. Recent trends in network planning to decrease the CAPEX/OPEX cost |
209 | -- | 219 | M. Said Seddiki, Mounir Frikha, Yeqiong Song. A non-cooperative game-theoretic framework for resource allocation in network virtualization |
221 | -- | 233 | Halina Tarasiuk, Slawomir Hanczewski, Adam Kaliszan, Robert Szuman, Lukasz Ogrodowczyk, Iwo Olszewski, Michal Giertych, Piotr Wisniewski 0002. The IPv6 QoS system implementation in virtual infrastructure |
235 | -- | 246 | Janusz Gozdecki, Miroslaw Kantor, Krzysztof Wajda, Jacek Rak. Methods of Network Resource Provisioning for the Future Internet IIP Initiative |
247 | -- | 255 | Jordi Mongay Batalla, Andrzej Beben, Yiping Chen. Optimized decision algorithm for Information Centric Networks |
257 | -- | 275 | Józef Wozniak. Mobility management solutions for current IP and future networks |
277 | -- | 294 | Michelle Perras, John Cartmell. Mobility for heterogeneous SmallNets - Local IP flow mobility and selected IP traffic offload enabled by PMIP and DMM |
295 | -- | 310 | Ahmed Haddad, Maurice Gagnaire. Optimized Radio-over-Fiber-based cellular backhauling strategy using genetic algorithms and Pareto fronts |
311 | -- | 323 | Jacek Rak. A new approach to design of weather disruption-tolerant wireless mesh networks |
325 | -- | 335 | Yuan Li, Michal Pióro, Di Yuan, Jinshu Su. Optimizing link rate assignment and transmission scheduling in WMN through compatible set generation |
337 | -- | 347 | Gergely Öllös, Rolland Vida. Adaptive multiresolution sampling in event-driven WSNs |
349 | -- | 358 | M. G. Samantha Sriyananda, Jyrki Joutsensalo, T. Hämäläinen. Blind source separation based interference suppression schemes for OFDM and DS-CDMA |
359 | -- | 385 | V. P. Harigovindan, Anchare V. Babu, Lillykutty Jacob. Improving aggregate utility in IEEE 802.11p based vehicle-to-infrastructure networks |
387 | -- | 401 | Francisco Garcia, Javier Gomez, Marco A. Gonzalez, Miguel López-Guerrero, Victor Rangel. Ghost: Voronoi-based tracking in sparse wireless networks using virtual nodes |