Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
766977 | Communications in Nonlinear Science and Numerical Simulation | 2012 | 8 Pages |
Nagaraj et al. [1] and [2] present a skewed-non-linear generalized Luroth Series (s-nGLS) framework. S-nGLS uses non-linear maps for GLS to introduce a security parameter a which is used to build a keyspace for image or data encryption. The map introduces non-linearity to the system to add an “encryption key parameter”. The skew is added to achieve optimal compression efficiency. s-nGLS used as such for joint encryption and compression is a weak candidate, as explained in this communication. First, we show how the framework is vulnerable to known plaintext based attacks and that a key of size 256 bits can be broken within 1000 trials. Next, we demonstrate that the proposed non-linearity exponentially increases the hardware complexity of design. We also discover that s-nGlS cannot be implemented as such for large bitstreams. Finally, we demonstrate how correlation of key parameter with compression performance leads to further key vulnerabilities.
► Vulnerability of skewed n-GLS to plain-text attack. ► Increase in hardware complexity by the skew. ► Impracticality for large bitstreams. ► Key vulnerability caused by correlation with compression.