Abstract / Description of output
In this paper, the serial interference cancellation (SIC) technique and the frequency domain SAGE (FD-SAGE) algorithm are jointly used to detect and estimate the radio channel parameters of interest. The implementation of the SAGE algorithm in the frequency domain is novel. Furthermore, the parallel interference cancellation (PIC) technique in the standard SAGE algorithm is replaced by the SIC technique. The SIC technique demonstrates more stable performance especially in a multipath rich environment. The two-dimensional (2-D) FD-SAGE algorithm and the SIC technique are introduced and their performance demonstrated by using real indoor channel measurement data to jointly estimate the number of multipath components (MPCs), their time-of-arrivals (TOAs), angle-of-arrivals (AOAs) and complex amplitudes. Their performance is evaluated and compared using synthetic data and results using 2-D unitary ESPRIT (another form of super-resolution algorithm).
Original language | English |
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Title of host publication | IEEE International Conference on Communications, 2002 (ICC 2002) |
Pages | 906-910 vol.2 |
Volume | 2 |
DOIs | |
Publication status | Published - 2002 |
Keywords / Materials (for Non-textual outputs)
- direction-of-arrival estimation, frequency-domain analysis, indoor radio, interference suppression, maximum likelihood estimation, multipath channels, radiofrequency interference 2-D frequency domain SAGE algorithm, 2-D unitary ESPRIT, AOAs, FD-SAGE, MPCs, SIC, TOAs, angle-of-arrivals, complex amplitudes, directional channel parameters, indoor channel measurement, joint detection-estimation, multipath rich environment, radio channel parameters, serial interference cancellation, super-resolution algorithm, time-of-arrivals