Energy-Efficient Massive MIMO for Federated Learning: Transmission Designs and Resource Allocations

12/22/2021
by   Tung T. Vu, et al.
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Future wireless networks require the integration of machine learning with communications, in an energy-efficient and privacy-preserving manner. Finding energy-efficient designs for federated learning (FL)-enabled wireless networks is of great interest. This work first proposes novel synchronous, asynchronous, and session-based designs for energy-efficient massive multiple-input multiple-output networks to support FL. The synchronous design relies on strict synchronization among users when executing each FL communication round, while the asynchronous design allows more flexibility for users to save energy by using lower computing frequencies. The session-based design splits the downlink and uplink phases in each FL communication round into separate sessions. In this design, we assign users such that one of the participating users in each session finishes its transmission and does not join the next session. As such, more power and degrees of freedom will be allocated to unfinished users, leading to higher rates, lower transmission times, and hence, a higher energy efficiency. In all three designs, we use zero-forcing processing for both uplink and downlink, and develop algorithms that optimize user assignment, time allocation, power, and computing frequencies to minimize the energy consumption at the base station and users, while guaranteeing a predefined maximum execution time of one FL communication round.

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