Title :
MMSE Relaying Strategies under Jamming, Channel Uncertainty, Node Geometry, and Power Constraint
Author :
Kanghee Lee ; Kwon, Hyuck M. ; Jie Yang ; Sawan, Edwin M. ; Hyuncheol Park ; Lee, Y.H.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Wichita State Univ., Wichita, KS, USA
Abstract :
An amplify-and-forward (AF) relay network has been studied extensively, but a closed form of an optimal AF relaying matrix is not available yet for the distributed AF relay network with the destination power constraint (DPC) and the following adverse environments: (a) partial-band noise jamming (PBNJ), (b) node geometry (NG), and (c) channel uncertainty (CU). Hence, this paper presents a closed form of an optimum AF relaying matrix consisting of a one-source-one-destination pair and N relay nodes under such adverse PBNJ, NG, CU, and DPC environments, based on the minimum mean square error (MMSE). By adopting the optimal relay amplifying matrix, the MMSE cost function behaviors are analytically and numerically studied.
Keywords :
amplify and forward communication; jamming; least mean squares methods; matrix algebra; relay networks (telecommunication); CU; DPC environment; MMSE; MMSE cost function behaviors; MMSE relaying strategy; NG; PBNJ; adverse PBNJ; amplify-and-forward relay network; channel uncertainty; destination power constraint; distributed AF relay network; jamming; minimum mean square error; node geometry; one-source-one-destination pair; optimal AF relaying matrix; optimal relay amplifying matrix; partial-band noise jamming; power constraint; relay nodes; Bit error rate; Channel estimation; Cost function; Jamming; Relays; Vectors; Wireless communication;
Conference_Titel :
Vehicular Technology Conference (VTC Fall), 2013 IEEE 78th
Conference_Location :
Las Vegas, NV
DOI :
10.1109/VTCFall.2013.6692285
