network energy consumption / eNBbased energy-saving cooperation techniques / energy saving percentage / network energy saving opportunities / energy conservation / unit energy / cellular networks / multimode algorithm / overall energy / network energy / higher energy saving percentages / energy saving performance / reduced static energy / cellular access networks / energy-efficient operation / energy saving techniques / cellular network infrastructure / poor energy efficiency / energy efficient communication networks / Wireless Communications / higher greenhouse gas emissions / Online The Open University / lower energy consumption / overall network energy savings / green cellular networks / greater energy savings / secure tangible energy savings / energy savings / energy / overall network energy consumption / cellular mobile radio networks / Example energy saving network arrangements / sustainable energy efficient solutions / conserve energy / energy consumption / energy cost / increased network energy consumption / real cellular networks / signal processing hardware / energy saving scalable multimode / access networks / energy efficiency / cellular network / greener cellular networks / larger energy savings / battery backup systems / /
Organization
Open University / Green Cellular Networks Atm Shafiul Alam∗ and Laurence S. Dooley† Department of Computing / International Criminal Court / /
Person
K. Son / B. Krishnamachari / Y. Wu / E. Oh / Z. Yang / X. Liu / Laurence S. Dooley / S. Zhou / J. Gong / Z. Niu / Milton Keynes / / /
Position
scalable multimode base station switching model for green cellular networks / /
Open Research Online The Open University’s repository of research publications and other research outputs A scalable multimode base station switching model for green cellular networks