Radio-over-optical waveguide system-on-wafer for massive delivery capacity 5G MIMO access networks

Le N. Binh

doi:10.1117/12.2250002

28 January 2017 Radio-over-optical waveguide system-on-wafer for massive delivery capacity 5G MIMO access networks

Le N. Binh

Proceedings Volume 10128, Broadband Access Communication Technologies XI; 1012806 (2017) https://doi.org/10.1117/12.2250002
Event: SPIE OPTO, 2017, San Francisco, California, United States

Abstract

Delivering maximum information capacity over MIMO antennae systems beam steering is critical so as to achieve the flexibility via beam steering, maximizing the number of users or community of users in Gb/s rate per user over distributed cloud-based optical-wireless access networks. This paper gives an overview of (i) demands of optical – wireless delivery with high flexibility, especially the beam steering of multi-Tbps information channels to information hungry community of users via virtualized beam steering MIMO antenna systems at the free-license mmW region; (ii) Proposing a novel photonic planar integrated waveguide systems composing several passive and active, passive and amplification photonic devices so as to generate mmW carrier and embedded baseband information channels to feed to antenna elements; (iii) Integration techniques to generate a radio over optical waveguide (RoOW) system-on-wafer (SoW) comprising MIMO planar antenna elements and associate photonic integrated circuits for both up- and down- links; (iv) Challenges encountered in the implementation of the SoW in both wireless and photonic domains; (v) Photonic modulation techniques to achieve maximum transmission capacity per wavelength per MIMO antenna system. (vi) A view on control-feedback systems for fast and accurate generation of phase pattern for MIMO beam steering via a bank of optical phase modulators to mmW carrier phases and their preservation in the converted mmW domain . (vi) The overall operational principles of the novel techniques and technologies based on the coherent mixing of two lightwave channels The entire SoW can be implemented on SOI Si-photonic technology or via hybrid integration. These technological developments and their pros- and cons- will be discussed to achieve 50Tera-bps over the extended 110 channel Cband single mode fiber with mmW centered at 58.6GHz and 7GHz free-license band.

Conference Presentation

Citation Download Citation

Le N. Binh "Radio-over-optical waveguide system-on-wafer for massive delivery capacity 5G MIMO access networks", Proc. SPIE 10128, Broadband Access Communication Technologies XI, 1012806 (28 January 2017); https://doi.org/10.1117/12.2250002

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