We derive the computational cutoff rate, R-o, for coherent trellis-coded modulation (TCM) schemes on independent indentically distributed (i.i.d.) Rayleigh fading channels with (K, L) generalized selection combining (GSC) diversity, which combines the K paths with the largest instantaneous signal-to-noise ratios (SNRs) among the L available diversity paths. The cutoff rate is shown to be a simple function of the moment generating function (MGF) of the SNR at the output of the (K, L) GSC receiver. We also derive the union bound on the bit error probability of TCM schemes with (K, L) GSC in the form of a simple, finite integral. The effectiveness of this bound is verified through simulations
Using a simple finite integral representation for the bivariate Rayleigh cumulative distribution fun...
This thesis develops a mathematical framework for analyzing the average bit error rate performance o...
This paper presents some trellis codes that provide high coding gain over the frequency non-selectiv...
We derive the computational cutoff rate, R-o, for coherent trellis-coded modulation (TCM) schemes on...
Coherent trellis coded modulation (TCM) systems employing diversity combining are analyzed. Three di...
Coherent trellis-coded modulation (TCM) systems employing diversity combining are analyzed. Three di...
A performance criterion for any coded modulation schemes is the cutoff rate. This is examined for sc...
In wireless communications, diversity combining is often employed to alleviate the deleterious effec...
In this paper, we develop analytical tools for the performance analysis of coded, coherent communica...
We investigate the performance of coded diversity systems employing generalized selection combining ...
Abstract—Motivated by practical considerations in the design of low-complexity receiver structures f...
The severity of fading on mobile communication channels calls for the combining of multiple diversi...
The severity of fading on mobile communication channels calls for the combining of multiple diversit...
In this paper, the bit error rate (BER) performance of predetection diversity trellis coded multilev...
In this letter, we investigate the performance of generalized selection combining in channels impair...
Using a simple finite integral representation for the bivariate Rayleigh cumulative distribution fun...
This thesis develops a mathematical framework for analyzing the average bit error rate performance o...
This paper presents some trellis codes that provide high coding gain over the frequency non-selectiv...
We derive the computational cutoff rate, R-o, for coherent trellis-coded modulation (TCM) schemes on...
Coherent trellis coded modulation (TCM) systems employing diversity combining are analyzed. Three di...
Coherent trellis-coded modulation (TCM) systems employing diversity combining are analyzed. Three di...
A performance criterion for any coded modulation schemes is the cutoff rate. This is examined for sc...
In wireless communications, diversity combining is often employed to alleviate the deleterious effec...
In this paper, we develop analytical tools for the performance analysis of coded, coherent communica...
We investigate the performance of coded diversity systems employing generalized selection combining ...
Abstract—Motivated by practical considerations in the design of low-complexity receiver structures f...
The severity of fading on mobile communication channels calls for the combining of multiple diversi...
The severity of fading on mobile communication channels calls for the combining of multiple diversit...
In this paper, the bit error rate (BER) performance of predetection diversity trellis coded multilev...
In this letter, we investigate the performance of generalized selection combining in channels impair...
Using a simple finite integral representation for the bivariate Rayleigh cumulative distribution fun...
This thesis develops a mathematical framework for analyzing the average bit error rate performance o...
This paper presents some trellis codes that provide high coding gain over the frequency non-selectiv...