Title :
RAPID PROTOTYPING - Re-scalable V-BLAST MIMO system for FPGA
Author :
McKeown, M.A. ; Lindsay, I.A.B. ; Cruickshank, D.G.M. ; Thompson, J.S. ; Farson, S.A. ; Hu, Y.
Author_Institution :
Inst. for Syst. Level Integration, Livingston
Abstract :
The development of a re-scalable hardware implementation of a V-BLAST (Vertical Bell Labs Space-Time) multiple input multiple output system for future wireless communications systems is described. Re-scalability will support rapid prototyping of such systems. A floating-point model of the re-scalable system is constructed to guide the development of a fixed-point model, and subsequently a re-scalable hardware implementation. The system uses the Gauss-Jordan elimination method to perform channel matrix inversion and altering the division-by-zero threshold in this matrix inversion process is shown to have a significant effect on bit error rate performance results. The re-scalable hardware implementation is described in a hardware description language in the form of an intellectual property block and several V-BLAST systems are synthesised onto field programmable gate arrays
Keywords :
3G mobile communication; MIMO systems; cellular radio; error statistics; field programmable gate arrays; fixed point arithmetic; floating point arithmetic; hardware description languages; matrix inversion; radio receivers; rapid prototyping (industrial); BER; FPGA; Gauss-Jordan elimination method; bit error rate; channel matrix inversion; division-by-zero threshold; field programmable gate arrays; fixed-point model; floating-point model; hardware description language; multiple input multiple output system; rapid prototyping; re-scalable V-BLAST MIMO system; re-scalable hardware implementation; vertical Bell Labs space-time system; wireless communication;
Journal_Title :
Vision, Image and Signal Processing, IEE Proceedings -
DOI :
10.1049/ip-vis:20045063
