Energy-Efficient Design of Broad Beams for Massive MIMO Systems

Massive MIMO is a promising air interface technique for 5G wireless communications. Such antennas offers capabilities to utilize channel correlations to create beams suitable for user specific transmissions. Most of the prior research is devoted to user-specific transmission in such systems, where a narrow beam is formed towards a user to improve its reception. Meanwhile, public-channel transmission to multiple users at once by means of broad beams has been understudied. In this paper, we introduce the concept of array-size invariant (ASI) beamforming, enabling generation of broad beams from very large antenna arrays where all elements are transmitting at maximum power. The ASI technique offers the possibility to achieve a perfectly flat array factor by exploiting the additional degree of freedom coming from polarization diversity. The technique is applicable to uniform linear and rectangular arrays and is characterized by low-complexity beam synthesis. The usefulness of the ASI beamforming is illustrated by means of a numerical example showing the design of a cell-specific broad beam for publicchannel transmission in a realistic network deployment.