Table of Contents

• Energy-efficient design and equipment placement for Wireless-Optical Broadband Access NetworksShalini Raavi, Marilet De Andrade, Riccardo Fiandra, Massimo Tornatore. 1-6 [doi]
• Energy-efficient deployment of distributed antenna systems with radio-over-fiber linksYves Josse, Bruno Fracasso, German Castignani, Nicolas Montavont. 7-13 [doi]
• Multi-period traffic engineering of resilient networks for energy efficiencyBernardetta Addis, Antonio Capone, Giuliana Carello, Luca G. Gianoli, Brunilde Sansò. 14-19 [doi]
• Power-aware design of protected IP-over-WDM Networks with sleep-mode devicesFrancesco Musumeci, Massimo Tornatore, Jorge López Vizcaíno, Yabin Ye, Achille Pattavina. 20-25 [doi]
• Low energy bit-interleaving downstream protocol for passive optical networksDusan Suvakovic, HungKei Keith Chow, Dora van Veen, Joe Galaro, Bob Farah, N. Prasanth Anthapadmanabhan, Peter Vetter, Arnaud Dupas, Roger Boislaigue. 26-31 [doi]
• Dual power source aware algorithms for green optical network survivabilityMark Boddie, Thilo Schondienst, Vinod M. Vokkarane. 32-37 [doi]
• Energy efficient file transfer over rate adaptive optical networksKyle Guan, Daniel C. Kilper, Yan Pa, Olivier Rival, Annalisa Morea. 38-43 [doi]
• Multipath routing for reducing network energyYong Oh Lee, A. L. Narasimha Reddy. 44-49 [doi]
• Complete life-cycle assessment of the energy/CO2 costs of videoconferencing vs face-to-face meetingsDennis Ong, Tim Moors, Vijay Sivaraman. 50-55 [doi]
• An agent-based fuzzy-neural approach for precise energy consumption forecastingToly Chen, Yu-Cheng Wang. 56-61 [doi]
• Energy efficiency in reliable cooperative communications with retransmissionsQuansheng Guan, Shengming Jiang, Wanjuan Xie, F. Richard Yu. 62-67 [doi]
• A data pseudonymization protocol for Smart GridsCristina Rottondi, Giulia Mauri, Giacomo Verticale. 68-73 [doi]
• Forecasting driving behavior to enable efficient grid integration of plug-in electric vehiclesChristoph Goebel, Marcus Vos. 74-79 [doi]
• Communication services and data model for demand responseSalman Mohagheghi. 80-85 [doi]
• Profit maximization for utility companies in an oligopolistic energy market with dynamic pricesTiansong Cui, Yanzhi Wang, Hadi Goudarzi, Shahin Nazarian, Massoud Pedram. 86-91 [doi]
• Green antenna switching to improve energy saving in LTE networksPasquale Pace. 92-97 [doi]
• Energy efficiency in heterogeneous networksLaetitia Falconetti, Pål K. Frenger, Harald Kallin, Thomas Rimhagen. 98-103 [doi]
• Modeling the energy consumption of multi-NIC communication mechanismsStefano Ferretti, Vittorio Ghini, Moreno Marzolla, Fabio Panzieri. 104-109 [doi]
• Green communications in LTE networks with environmentally friendly small cell base stationsElias Yaacoub. 110-115 [doi]
• Power measurement of NetFPGA based routerFeng Guo, Olga Ormond, Martin Collier, Xiaojun Wang. 116-119 [doi]
• Modeling temperature and dissipation behavior of an open multi-frequency green routerAlfio Lombardo, Diego Reforgiato Recupero, Vincenzo Riccobene, Giovanni Schembra. 120-125 [doi]
• Evaluation of power rating of core network equipment in practical deploymentsWard Van Heddeghem, Filip Idzikowski, Esther Le Rouzic, Jean Yves Mazeas, Hubert Poignant, Suzanne Salaun, Bart Lannoo, Didier Colle. 126-132 [doi]
• An energy efficient mobile device for assisted living applicationsSebastian J. F. Fudickar, Max Frohberg, Sebastian Taube, Philipp Mahr, Bettina Schnor. 133-138 [doi]
• Distributed beamforming with close to optimal number of nodes for green wireless sensor networksN. M. Tessema, X. Lian, H. Nikookar. 139-144 [doi]
• FlexibleIP (FIP): IPv6 stack for experimental work on low-power wireless networksColin O'Flynn. 145-150 [doi]
• Energy efficient spatiotemporal threshold level detection in large scale wireless sensor fieldsHadi Alasti. 151-156 [doi]