Title :
Polarimetric filtering for an enhanced multi-user 60GHz WPAN system
Author :
Berraki, Djamal E. ; Armour, Simon M. D. ; Nix, Andrew R.
Author_Institution :
Commun. Syst. & Networks, Univ. of Bristol, Bristol, UK
Abstract :
This paper analyses the potential of polarimetric filtering to mitigate interference in a 60 GHz WPAN. A 3D ray tracing model is developed to simulate realistic propagation scenarios in a dense indoor environment and a Received Bit Mutual Information Rate (RBIR) abstraction technique is used to evaluate link level performance. Subsequently, the spatial reuse gain and the fairness between users at system level are evaluated and are shown to be considerably enhanced by the use of polarimetric filtering. In particular, the paper demonstrates the benefits of nulling the interference, maximising the signal power and optimising the SINR. An improvement of more than 80% in network throughput and 20% in fairness is observed among the users when optimal filtering is applied.
Keywords :
filtering theory; indoor radio; interference suppression; millimetre wave filters; millimetre wave propagation; performance evaluation; personal area networks; polarimetry; ray tracing; 3D ray tracing model; RBIR; SINR; dense indoor environment; enhanced multiuser WPAN system; fairness; frequency 60 GHz; interference mitigation; link level performance evaluation; network throughput; nulling; polarimetric filtering; realistic propagation scenario simulation; received bit mutual information rate abstraction technique; signal power; spatial reuse gain; system level; Filtering; Interference; Ray tracing; Signal to noise ratio; Solid modeling; Three-dimensional displays; Throughput; 60 GHz; Channel modelling; Dual polarised antennas; Interference cancellation; Polarimetric filtering;
Conference_Titel :
Wireless Communications and Networking Conference (WCNC), 2014 IEEE
Conference_Location :
Istanbul
DOI :
10.1109/WCNC.2014.6951992
