Data communications principles
Data communications principles
Microwave Mobile Communications
Microwave Mobile Communications
Information Theory and Reliable Communication
Information Theory and Reliable Communication
WISE Design of Indoor Wireless Systems: Practical Computation and Optimization
IEEE Computational Science & Engineering
Transmission and reception with multiple antennas: theoretical foundations
Communications and Information Theory
Radiocoverage measurements of a wireless local area network
EHAC'06 Proceedings of the 5th WSEAS International Conference on Electronics, Hardware, Wireless and Optical Communications
Antenna pattern effects on the capacity of multielement antenna system
WiCOM'09 Proceedings of the 5th International Conference on Wireless communications, networking and mobile computing
Use of least square approximation of the attenuation factor -n in the COST 231 one-slope model
ICCOM'06 Proceedings of the 10th WSEAS international conference on Communications
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We report theoretical/numerical estimation of ultimate limits of bandwidth efficient delivery of high bit-rate digital signals indoors. Specifically, we analyze the Crawford Hill Bell Laboratories building. Single omni transmit and receive antennas are assumed. The signals incur attenuation and distortion due to multipath and at high bit-rates this frequency selectivity causes ISI. Moreover, there is impairment by gaussian noise. Transmit power and bandwidth constraints limit communications efficiency. We illustrate this limiting of efficiency in examples assuming 5.2 GHz carrier, 10 MHz bandwidth and up to 1 W transmitted power. The experimentally based WiSE ray-tracing tool models the channels from a base on the ceiling to workspaces in various rooms. Movement within a workspace causes channel changes. Computing the probability distribution of capacity shows substantial capacity for the omni-omni case with 10 MHz bandwidth for 100 mW transmitted. For the most distant offices, for at least 95% of the area in a workspace, we obtain 3.6 bps/Hz. We also examine diversity methods, illustrating substantial gains with nth order optimum combining (OC(n)):OC(2) improves capacity by over 35% in rooms where capacity is the lowest while OC(4) improves it 70%. We put the results in a pragmatic perspective by highlighting the bit-rates achievable with decision feedback equalization