Capacity of the Aperture-Constrained AWGN Free-Space Communication Channel
Richard J. Barton

TL;DR
This paper derives bounds and approximations for the capacity of aperture-constrained free-space AWGN channels, highlighting the importance of spatial multiplexing and distributed MIMO arrays for near-maximum data rates in deep-space communication.
Contribution
It provides the first closed-form approximation and bounds for the capacity of aperture-limited free-space channels, emphasizing the role of distributed MIMO systems.
Findings
Capacity grows as the square root of SNR, not logarithmically.
Spatial multiplexing with distributed MIMO arrays approaches capacity bounds.
Deep-space communication can achieve near-maximum data rates with practical distributed antenna systems.
Abstract
In this paper, we derive upper and lower bounds as well as a simple closed-form approximation for the capacity of the continuous-time, bandlimited, additive white Gaussian noise channel in a three-dimensional free-space electromagnetic propagation environment subject to constraints on the total effective antenna aperture area of the link and a total transmitter power constraint. We assume that the communication range is much larger than the radius of the sphere containing the antennas at both ends of the link, and we show that, in general, the capacity can only be achieved by transmitting multiple spatially-multiplexed data streams simultaneously over the channel. Furthermore, the lower bound on capacity can be approached asymptotically by transmitting the data streams between a pair of physically-realizable distributed antenna arrays at either end of the link. A consequence of this…
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Taxonomy
TopicsAdvanced MIMO Systems Optimization · Wireless Communication Networks Research · Satellite Communication Systems
