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The indoor fingerprinting localization technology has received more attention in recent years due to the increasing demand of the indoor location based services (LBSs).

Optical wireless communication is a kind of telecommunication which transmits information through air with wavelengths in nanometers between optical transmitters and optical receivers.

An experimental infrared beam 45 Mb/s data link has been designed, constructed and tested.

In this paper, a wireless cellular network based indoor localization approach is presented. During the training stage, the mobile device initializes a positioning request.

Celebrated fingerprinting techniques localize users by statistically learning the signal to location relations.

We consider three multi-antenna interference management schemes for high-performance wireless indoor networks: Zero Forcing (ZF), entailing neither base station (BS) coordination or inter-cell inte

Indoor areas, such as offices or shopping malls, are a natural environment for initial millimeter-wave (mmWave) roll-outs.

This paper proposes two novel and practical designs of angle diversity receiver (ADR) to achieve multiple-input-multiple-output (MIMO) capacity for indoor visible light communications (VLC).

Network MIMO uses the coherent coordination of -> the transmitted signals from a cluster of bases to greatly reduce -> other-cell interference and improve spectral efficiency.

The application of wireless backhaul communication and power transfer to outdoor small cells (SCs) could significantly decrease their installation cost.