Some cryptographical applications use pseudorandom sequences and require that the sequences are secure in the sense that they cannot be recovered by only knowing a small amount of consecutive terms. Such sequences should therefore have a large linear complexity and also a large k-error linear complexity. Efficient algorithms for computing the k-error linear complexity of a sequence only exist for sequences of period equal to a power of the characteristic of the field. It is therefore useful to find a general and efficient algorithm to compute a good approximation of the k-error linear complexity. We show that the Berlekamp-Massey Algorithm, which computes the linear complexity of a sequence, can be adapted to approximate the k-error linear ...
AbstractComplexity measures for sequences over finite fields, such as the linear complexity and the ...
AbstractIn cryptology, complexity measures for sequences of elements of a finite field, such as the ...
We present several generalisations of the Games- Chan algorithm. For a fixed monic irreducible polyn...
Some cryptographical applications use pseudorandom sequences and require that the sequences are secu...
Some cryptographical applications use pseudorandom sequences and require that the sequences are secu...
The linear Games-Chan algorithm for computing the linear complexity c(s) of a binary sequence s of p...
Pseudo-random sequences are a crucial component of cryptography, particularly in stream cipher desig...
Several fast algorithms for the determination of the linear complexity of $d$-periodic sequences ove...
An efficient algorithm is presented for computing the k-error linear complexity of a binary sequence...
The concept of linear complexity is important in cryptography, and in particular in the study of str...
Complexity measures for sequences over finite fields, such as the linear complexity and the k-error ...
An efficient algorithm is presented for computing the k-error linear complexity of a binary sequence...
Binary sequences with high linear complexity are of interest in cryptography. The linear complexity ...
We present several generalisations of the Games–Chan algorithm. For a fixed monic irreducible polyno...
AbstractComplexity measures for sequences of elements of a finite field play an important role in cr...
AbstractComplexity measures for sequences over finite fields, such as the linear complexity and the ...
AbstractIn cryptology, complexity measures for sequences of elements of a finite field, such as the ...
We present several generalisations of the Games- Chan algorithm. For a fixed monic irreducible polyn...
Some cryptographical applications use pseudorandom sequences and require that the sequences are secu...
Some cryptographical applications use pseudorandom sequences and require that the sequences are secu...
The linear Games-Chan algorithm for computing the linear complexity c(s) of a binary sequence s of p...
Pseudo-random sequences are a crucial component of cryptography, particularly in stream cipher desig...
Several fast algorithms for the determination of the linear complexity of $d$-periodic sequences ove...
An efficient algorithm is presented for computing the k-error linear complexity of a binary sequence...
The concept of linear complexity is important in cryptography, and in particular in the study of str...
Complexity measures for sequences over finite fields, such as the linear complexity and the k-error ...
An efficient algorithm is presented for computing the k-error linear complexity of a binary sequence...
Binary sequences with high linear complexity are of interest in cryptography. The linear complexity ...
We present several generalisations of the Games–Chan algorithm. For a fixed monic irreducible polyno...
AbstractComplexity measures for sequences of elements of a finite field play an important role in cr...
AbstractComplexity measures for sequences over finite fields, such as the linear complexity and the ...
AbstractIn cryptology, complexity measures for sequences of elements of a finite field, such as the ...
We present several generalisations of the Games- Chan algorithm. For a fixed monic irreducible polyn...