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Paper detail

Fault-tolerant mosaic encoding in knot-based cryptography

The cryptographic protocol based on topological knot theory,recently proposed by the authors, is improved for what concerns the efficiency of the encoding of knot diagrams and its error robustness. The standard Dowker-Thistlethwaite code, based on the ordered assignment of two numbers to each crossing of a knot diagram and not unique for some classes of knots, is replaced by a system of eight prototiles (knot mosaics) which, once assembled according to a set of combinatorial rules, reproduces unambiguously any unoriented knot diagram. A Reed-Muller scheme is used to encode with redundancy the eight prototiles into blocks and, once the blank tile is added and suitably encoded, the knot diagram is turned into an N X N mosaic, uniquely associated with a string of length 4 N^2 bits. The complexity of the knot, measured topologically by the number of crossings, is in turn polynomially related to the number of tiles of the associated mosaic, and for knot diagrams of higher complexity the mosaic encoding provides a design of the knot-based protocol which is fault-tolerant under random 1-bit flips. It is also argued that the knot mosaic alphabet might be used in other applications which require high-capacity data transmission.

preprint2012arXivOpen access
Annalisa MarzuoliGiandomenico Palumbo
math-phmath.MP
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Annalisa MarzuoliGiandomenico Palumbo

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