Stefan Videv scite author profile

Recent analysis by manufacturers and network operators has shown that current wireless networks are not very energy efficient, particularly the base stations by which terminals access services from the network. In response to this observation the Mobile Virtual Centre of Excellence (VCE) Green Radio project was established in 2009 to establish how significant energy savings may be obtained in future wireless systems. This article discusses the technical background to the project and discusses models of current energy consumption in base station devices. It also describes some of the most promising research directions in reducing the energy consumption of future base stations.

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A 3-Gb/s Single-LED OFDM-Based Wireless VLC Link Using a Gallium Nitride $\mu{\rm LED}$

Tsonev

Chun

Rajbhandari

et al. 2014

IEEE Photon. Technol. Lett.

658

349

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On the Design of a Solar-Panel Receiver for Optical Wireless Communications With Simultaneous Energy Harvesting

Wang

Tsonev

Videv

et al. 2015

IEEE J. Select. Areas Commun.

211

181

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This paper proposes a novel design of an optical wireless communications (OWC) receiver using a solar panel as a photodetector. The proposed system is capable of simultaneous data transmission and energy harvesting. The solar panel can convert a modulated light signal into an electrical signal without any external power requirements. Furthermore, the direct current (DC) component of the modulated light can be harvested in the proposed receiver. The generated energy can potentially be used to power a user terminal or at least to prolong its operation time. The current work discusses the various parameters which need to be considered in the design of a system using a solar panel for simultaneous communication and energy harvesting. The presented theory is supported with an experimental implementation of orthogonal frequency division multiplexing (OFDM), thus, proving the validity of the analysis and demonstrating the feasibility of the proposed receiver. Using the propounded system, a communication link with a data rate of 11.84 Mbps is established for a received optical signal with a peak-to-peak amplitude of 0.7 × 10 −3 W/cm 2 .

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VLC: Beyond point-to-point communication

Burchardt¹,

Serafimovski²,

et al. 2014

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Towards a 100 Gb/s visible light wireless access network

Tsonev¹,

Videv²,

Haas³

2015

Opt. Express

337

165

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Abstract:Potential visible light communication (VLC) data rates at over 10 Gb/s have been recently demonstrated using light emitting diodes (LEDs). The disadvantage is, LEDs have an inherent trade-off between optical efficiency and bandwidth. Consequently, laser diodes (LDs) can be considered as a very promising alternative for better utilization of the visible light spectrum for communication purposes. This work investigates the communication capabilities of off-the-shelf LDs in a number of scenarios with illumination constraints. The results indicate that optical wireless access data rates in the excess of 100 Gb/s are possible at standard indoor illumination levels.

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Stefan Videv

Green radio: radio techniques to enable energy-efficient wireless networks

A 3-Gb/s Single-LED OFDM-Based Wireless VLC Link Using a Gallium Nitride $\mu{\rm LED}$

On the Design of a Solar-Panel Receiver for Optical Wireless Communications With Simultaneous Energy Harvesting

VLC: Beyond point-to-point communication

Towards a 100 Gb/s visible light wireless access network

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