Marc-Antoine Bouzigues scite author profile

International audienceWith the data explosion coming, research on green communications experiences a growing interest in the Information and Communication Technologies (ICTs) world. At the same time, Time Reversal (TR) has been identified as a good green candidate owing to its low-complexity and its ability to focus energy in both spatial and temporal domains allowing for reduction of interference between users and to improve Signal to Noise Ratio (SNR) gains. Nevertheless, applying TR requires channel estimation at the transmitter side and therefore induces overhead in packet-switched system because of the sounding frames transmission. In this paper, we propose a very simple method to apply TR for packet switching under green constraints. We demonstrate that the proposed system offers a good compromise between the physical layer energy-efficiency gains owing to focusing properties of TR and the Medium Access Control (MAC) layer additional consumption due to the overhead caused by the sounding frames. The influence of different channel estimation protocols and medium access methods are studied leading to some recommendations. We also describe the application of TR to Multi-Users Multiple-Input Multiple Output (MU-MISO) Orthogonal Frequency Division Multiplex (OFDM) packet-switching system. The expected green performance of TR is then confirmed by link level simulations

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Green improvements of IEEE 802.11 directional multi-gigabit physical layer specifications

Bouzigues¹,

Siaud²,

Ulmer-Moll³

et al. 2014

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In the context of green communications, millimeter wave bands are investigated to ensure mobile access and backhauling. Such transmissions can be performed with the IEEE 802.11 Directional Multi-Gigabit (DMG) modes, designed for very high throughput in the 60 GHz band. However, the DMG Orthogonal Frequency-Division Multiplexing (OFDM) physical (PHY) layer specifications corresponding to the highest data rates are not energy-efficient. Therefore, in this article, we propose easily implementable green improvements for IEEE 802.11 DMG OFDM PHY: a change of error correcting code and a new modulation and coding scheme. Binary error rate performance evaluations are made to show the green benefits of our improvements.

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Marc-Antoine Bouzigues

Adaptive and Spatial Processing for Millimeter Wave Backhaul Architectures

Time reversal and equal gain transmission for 60 GHz millimeter waves orthogonal frequency-division multiplexing systems

On the use of time-reversal for packet switching in green communications

Green improvements of IEEE 802.11 directional multi-gigabit physical layer specifications

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