Add to ORKGThe exact symbol error probability (SEP) performance of -ary cross quadrature amplitude modulation (QAM) in additive white Gaussian noise (AWGN) channel and fading channels, including Rayleigh, Nakagami-m, Rice, and Nakagami-q (Hoyt) channels, is analyzed. The obtained closed-form SEP expressions contain a finite (in proportion to ) sum of single integrals with finite limits and an integrand composed of elementary (exponential, trigonometric, and/or power) functions, thus readily enabling numerical evaluation. Particularly, Gaussian -function is a special case of these integrals and is included in the SEP expressions. Simple and very precise approximations, which contain only Gaussian -function for AWGN channel and contain three terms ...
The comparison of symbol error probability(SEP) for different M-ary modulation techniques over slow,...
Abstract—Recently, we provided closed-form expressions involving two-dimensional (2-D) joint Gaussia...
Electrical Engineering, College of Engineering King Saud University. Email: adelali@ksu.edu.saThis p...
Abstract — Recently, Beaulieu, following an ingenious concept, presented a closed-form expression fo...
Abstract—This paper considers the average symbol error probability of square Quadrature Amplitude Mo...
In this paper, new exact expressions for evaluating the bit error probability (BEP) of the M-ary qua...
Abstract—We analyze the performance of multihop communi-cation systems with regenerative relays in t...
AbstractWe study the performance of a parametric quadra-ture amplitude modulation (QAM) family, call...
This letter investigates the average symbol error probability (ASEP) of pulse amplitude modulation a...
In this paper, we present a method to calculate the probability of error per symbol (Symbol Error...
[[abstract]]In this paper, theoretical symbol error probability (SEP) expressions are derived for or...
[[abstract]]By using a ‘pre-averaging method’, we successfully derive an exact closed-form symbol er...
New, simple yet very accurate closed-form expressions for calcu-lating the symbol error probability ...
This paper is devoted to an investigation of an exact average symbol error probability (SEP) for amp...
While the overall situation has improved over time, the ongoing global pandemic continues to affect ...
The comparison of symbol error probability(SEP) for different M-ary modulation techniques over slow,...
Abstract—Recently, we provided closed-form expressions involving two-dimensional (2-D) joint Gaussia...
Electrical Engineering, College of Engineering King Saud University. Email: adelali@ksu.edu.saThis p...
Abstract — Recently, Beaulieu, following an ingenious concept, presented a closed-form expression fo...
Abstract—This paper considers the average symbol error probability of square Quadrature Amplitude Mo...
In this paper, new exact expressions for evaluating the bit error probability (BEP) of the M-ary qua...
Abstract—We analyze the performance of multihop communi-cation systems with regenerative relays in t...
AbstractWe study the performance of a parametric quadra-ture amplitude modulation (QAM) family, call...
This letter investigates the average symbol error probability (ASEP) of pulse amplitude modulation a...
In this paper, we present a method to calculate the probability of error per symbol (Symbol Error...
[[abstract]]In this paper, theoretical symbol error probability (SEP) expressions are derived for or...
[[abstract]]By using a ‘pre-averaging method’, we successfully derive an exact closed-form symbol er...
New, simple yet very accurate closed-form expressions for calcu-lating the symbol error probability ...
This paper is devoted to an investigation of an exact average symbol error probability (SEP) for amp...
While the overall situation has improved over time, the ongoing global pandemic continues to affect ...
The comparison of symbol error probability(SEP) for different M-ary modulation techniques over slow,...
Abstract—Recently, we provided closed-form expressions involving two-dimensional (2-D) joint Gaussia...
Electrical Engineering, College of Engineering King Saud University. Email: adelali@ksu.edu.saThis p...