## Cryptology ePrint Archive: Report 2015/300

Scalable Divisible E-cash

Sébastien Canard, David Pointcheval, Olivier Sanders and Jacques Traoré

Abstract: Divisible E-cash has been introduced twenty years ago but no construction is both fully secure in the standard model and efficiently scalable. In this paper, we fill this gap by providing an anonymous divisible E-cash construction with constant-time withdrawal and spending protocols. Moreover, the deposit protocol is constant-time for the merchant, whatever the spent value is. It just has to compute and store $2^l$ serial numbers when a value $2^l$ is deposited, compared to $2^n$ serial numbers whatever the spent amount (where $2^n$ is the global value of the coin) in the recent state-of-the-art paper. This makes a very huge difference when coins are spent many times.

Our approach follows the classical tree representation for the divisible coin. However we manage to build the values on the nodes in such a way that the elements necessary to recover the serial numbers are common to all the nodes of the same level: this leads to strong unlinkability and anonymity, the strongest security level for divisible E-cash.

Category / Keywords: cryptographic protocols / divisible E-cash, standard model

Original Publication (with major differences): ACNS 2015

Date: received 31 Mar 2015, last revised 23 Dec 2016

Contact author: olivier sanders at orange com

Available format(s): PDF | BibTeX Citation

Short URL: ia.cr/2015/300

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