Abstract
We present an authentication scheme designed for tiny and strictly constrained devices like RFID-tags. Authentication is based on the symmetric key shared between a tag and a reader. While a tag needs to perform only simple operations in order to authenticate: to pick n/2 + b random values and then to compute XORs of some values, a reader needs to try 2b possible values to check if a tag replied correctly (b is small). At the same time eavesdropping adversary after r executions of the protocol needs to solve a system of rk-multivariate quadratic equations over GF(2) with nk + rb variables.
We present a security discussion of proposed solutions.
Partially supported by Polish Ministry of Science and Higher Education, grant N N206 2701 33.
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Klonowski, M., Majcher, K., Macyna, W., Zagórski, F. (2013). Hidden Bits Approach for Authentication in RFID Systems. In: Hoepman, JH., Verbauwhede, I. (eds) Radio Frequency Identification. Security and Privacy Issues. RFIDSec 2012. Lecture Notes in Computer Science, vol 7739. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-36140-1_4
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