Saurabh Agarwal scite author profile

Saurabh Agarwal

4Publications

89Citation Statements Received

39Citation Statements Given

How they've been cited

138

How they cite others

Affiliations

Govind Ballabh Pant University of Agriculture and Technology, KU Leuven, Indian Institute of Technology Dhanbad

Publications

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Asymptotically Optimal Two-Round Perfectly Secure Message Transmission

Agarwal

Cramer

Haan

2006

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Abstract. The problem of perfectly secure message transmission concerns two synchronized non-faulty processors sender (S) and receiver (R) that are connected by a synchronous network of n ≥ 2t + 1 noiseless 2-way communication channels. Their goal is to communicate privately and reliably, despite the presence of an adversary that may actively corrupt at most t of those channels. These properties should hold information theoretically and without error. We propose an asymptotically optimal solution for this problem. The proposed protocol consists of two communication rounds, and a total of O( n) bits are exchanged in order to transmit a message of bits. Earlier, at CRYPTO 2004, an equally optimal solution has been claimed. However, we give a counter-example showing that their result is not perfectly reliable. The flaw seems to be fundamental and non-trivial to repair. Our approach is overall entirely different, yet it also makes essential use of their neat communication efficient technique for reliably transmitting conflict graphs. What distinguishes our approach from previous ones is a technique that allows to identify all actively corrupted channels, initially trading it off against privacy. A perfectly secure and reliable secret key is then distilled by privacy amplification.

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A lattice Boltzmann model for adsorption breakthrough

2005

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A modified capacitance model of RF MEMS shunt switch incorporating fringing field effects of perforated beam

Guha

Kumar

Agarwal

et al. 2015

Solid-State Electronics

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Wavelength Locking of a Si Ring Modulator Using an Integrated Drop-Port OMA Monitoring Circuit

Agarwal

Ingels

Pantouvaki

et al. 2016

IEEE J. Solid-State Circuits

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Saurabh Agarwal

Asymptotically Optimal Two-Round Perfectly Secure Message Transmission

A lattice Boltzmann model for adsorption breakthrough

A modified capacitance model of RF MEMS shunt switch incorporating fringing field effects of perforated beam

Wavelength Locking of a Si Ring Modulator Using an Integrated Drop-Port OMA Monitoring Circuit

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