Add to ORKGIn a radio communication channel wave parameters fluctuate randomly. The signal envelope undergoes deep fades. When binary information is transmitted through such a channel, fading causes random variation of probabilities of error associated with the detection of individual elementary signals, which produces a clustering of errors. The paper presents an analytical description of the probability of bit error in the channel with very slow Rician fading and Gaussian noise for noncoherent and coherent detection. Digital systems employing error detection or error correction coding are generally based on the transmission of blocks of N sequential bits. Expressions are given for the probability of n errors occurring in N bits (weighted spectrum of...
We present a new method for calculating the probability of error per symbol (Symbol Error Probabilit...
The performance of a pseudonoise-modulated spread spectrum binary communication system is analyzed t...
The problem of computing the probability P[sub f](M,N) of more than M bit errors in a block of N bit...
In a radio communication channel wave parameters fluctuate randomly. The signal envelope undergoes d...
For binary noncoherent orthogonal frequency-shift keying and binary differential phase-shift keying ...
10.1109/49.895023IEEE Journal on Selected Areas in Communications18112179-2189ISAC
In this paper we compute the error performance of noncoherent detection receivers for FSK signals tr...
An error probability analysis is performed for an M-ary orthogonal frequency-shift keying (MFSK) com...
We derive a novel error probability formula for noncoherent detection of orthogonal binary frequency...
Given digital transmission over two correlated Rician fading channels, we present a readily calculab...
Block-fading is a popular channel model that approximates the behavior of different wireless communi...
Several characteristics of the Rayleigh fading channel are examined. A digital Rayleigh fading simul...
U ovom radu se analizira verovatnoća greške po simbolu (Symbol Error Probability, SEP) fazno modulis...
An error probability analysis is performed for both a self-normalized and conventional M-ary orthogo...
An error probability analysis is performed for a binary orthogonal frequency-shift-keying (FSK) rece...
We present a new method for calculating the probability of error per symbol (Symbol Error Probabilit...
The performance of a pseudonoise-modulated spread spectrum binary communication system is analyzed t...
The problem of computing the probability P[sub f](M,N) of more than M bit errors in a block of N bit...
In a radio communication channel wave parameters fluctuate randomly. The signal envelope undergoes d...
For binary noncoherent orthogonal frequency-shift keying and binary differential phase-shift keying ...
10.1109/49.895023IEEE Journal on Selected Areas in Communications18112179-2189ISAC
In this paper we compute the error performance of noncoherent detection receivers for FSK signals tr...
An error probability analysis is performed for an M-ary orthogonal frequency-shift keying (MFSK) com...
We derive a novel error probability formula for noncoherent detection of orthogonal binary frequency...
Given digital transmission over two correlated Rician fading channels, we present a readily calculab...
Block-fading is a popular channel model that approximates the behavior of different wireless communi...
Several characteristics of the Rayleigh fading channel are examined. A digital Rayleigh fading simul...
U ovom radu se analizira verovatnoća greške po simbolu (Symbol Error Probability, SEP) fazno modulis...
An error probability analysis is performed for both a self-normalized and conventional M-ary orthogo...
An error probability analysis is performed for a binary orthogonal frequency-shift-keying (FSK) rece...
We present a new method for calculating the probability of error per symbol (Symbol Error Probabilit...
The performance of a pseudonoise-modulated spread spectrum binary communication system is analyzed t...
The problem of computing the probability P[sub f](M,N) of more than M bit errors in a block of N bit...