TY - GEN

T1 - Fast Control Channel Decoding for LTE UE Power Saving

A1 - Lauridsen,Mads

A1 - Jensen,Anders Riis

A1 - Mogensen,Preben

AU - Lauridsen,Mads

AU - Jensen,Anders Riis

AU - Mogensen,Preben

PB - IEEE Press

PY - 2012/5/8

Y1 - 2012/5/8

N2 - This work examines the energy saving potential of powering down RRC_connected but unscheduled User Equipment (UE). The idea is to power down energy consuming circuits in RF and BB, when it is determined by Fast Control Channel Decoding (FCCD) that the UE is not scheduled to receive downlink data in the current TTI. The cost is that some reference signals are not received leading to a degraded channel estimate. Calculations show that this causes an SINR degradation of approximately 0.5 dB, which will result in maximum 4 % throughput loss. Comparing this with energy saving potentials of 5 %-25 % it is concluded that the FCCD method is a valuable aid to prolong LTE phones' battery lifetime. The results are generated using a two state Markov chain model to simulate traffic and scheduling, and verified mathematically. The work also includes an examination of various data traffic types' on/off relation and an evaluation of how the relation affects power consumption. The FCCD method can complement DRX sleep mode since it is applicable when the signal is too aperiodic or fast switching for DRX.

AB - This work examines the energy saving potential of powering down RRC_connected but unscheduled User Equipment (UE). The idea is to power down energy consuming circuits in RF and BB, when it is determined by Fast Control Channel Decoding (FCCD) that the UE is not scheduled to receive downlink data in the current TTI. The cost is that some reference signals are not received leading to a degraded channel estimate. Calculations show that this causes an SINR degradation of approximately 0.5 dB, which will result in maximum 4 % throughput loss. Comparing this with energy saving potentials of 5 %-25 % it is concluded that the FCCD method is a valuable aid to prolong LTE phones' battery lifetime. The results are generated using a two state Markov chain model to simulate traffic and scheduling, and verified mathematically. The work also includes an examination of various data traffic types' on/off relation and an evaluation of how the relation affects power consumption. The FCCD method can complement DRX sleep mode since it is applicable when the signal is too aperiodic or fast switching for DRX.

U2 - 10.1109/VETECS.2012.6240297

DO - 10.1109/VETECS.2012.6240297

SN - 978-1-4673-0989-9

BT - 2012 IEEE 75th Vehicular Technology Conference

T2 - 2012 IEEE 75th Vehicular Technology Conference

T3 - I E E E V T S Vehicular Technology Conference. Proceedings

T3 - en_GB

SP - 1

EP - 5

ER -