Title :
Adaptive radius sphere detection in MIMO OFDM systems
Author :
Mathur, Garima ; Tiwari, Sneha ; Saini, Poonam ; Yadav, Rp
Author_Institution :
EC Deptt., MNIT, Jaipur, India
Abstract :
Digital communications of sensing symbol vectors has found abundant diverse uses. These symbols are determinate alphabet conducted over a multiple-input multiple-output (MIMO) channel having Gaussian noise. Proficient algorithms are reflected in exposure eg. Latches and have recognized well. The sphere decoder algorithm has optimal performance with reduced complexity. At high SNR the algorithm has a polynomial average complexity and is worst case complexity. The proficiency of the algorithm is the exponential rate cradle of growth. Complexity is affirmative for the numerous SNR and is small in the high SNR. To attain the sphere decoding solution, Schnorr-Euchner is applied through Maximum likelihood method, Depth-first Stack-based Sequential decoding. Thus this paper is focus on the receiver part of the transceiver system and provides a good look of optimal algorithm by vector symbol transmitted through MIMO channel.
Keywords :
Gaussian noise; MIMO communication; OFDM modulation; channel coding; maximum likelihood decoding; radio transceivers; sequential decoding; wireless channels; Gaussian noise; MIMO OFDM system; Schnorr-Euchner; adaptive radius sphere detection; depth-first stack-based sequential decoding; high SNR; maximum likelihood method; multiple input multiple output channel; polynomial average complexity; sensing symbol vector digital communication; sphere decoder algorithm; transceiver system receiver; Complexity theory; MIMO; Maximum likelihood decoding; OFDM; Receivers; Signal to noise ratio; Finke-Pohst (F-P); Multiple-input multiple-output (MIMO); Schnorr- Euchner (SE); Sphere Decoder (SD);
Conference_Titel :
Computing for Sustainable Global Development (INDIACom), 2015 2nd International Conference on
Conference_Location :
New Delhi
Print_ISBN :
978-9-3805-4415-1
