Litcius/Paper detail

On the computational hardness of the code equivalence problem in cryptography

Alessandro Barenghi, Jean‐François Biasse, Edoardo Persichetti, Paolo Santini

2022Advances in Mathematics of Communications26 citationsDOIOpen Access PDF

Abstract

Code equivalence is a well-known concept in coding theory. Recently, literature saw an increased interest in this notion, due to the introduction of protocols based on the hardness of finding the equivalence between two linear codes. In this paper, we analyze the security of code equivalence, with a special focus on the hardest instances, in the interest of cryptographic usage. Our work stems from a thorough review of existing literature, identifies the various types of solvers for the problem, and provides a precise complexity analysis, where previously absent. Furthermore, we are able to improve on the state of the art, providing more efficient algorithm variations, for which we include numerical simulation data. In the end, the goal of this paper is to provide a complete, single point of access, which can be used as a tool for designing schemes that rely on the code equivalence problem.

Topics & Concepts

Equivalence (formal languages)CryptographyMathematicsCoding theoryTheoretical computer scienceCoding (social sciences)Code (set theory)Focus (optics)AlgorithmComputer scienceDiscrete mathematicsProgramming languageSet (abstract data type)OpticsPhysicsStatisticsCoding theory and cryptographyCryptographic Implementations and Securitygraph theory and CDMA systems