Hamid G. Bafghi scite author profile

This paper studies the impact of a transmitter's molecule generation process on the capacity of a concentration based Molecular Communication (MC) system. Constraints caused by the molecule generation process affect the availability of the molecules at the transmitter. The transmitter has a storage of molecules, and should decide whether to release or save the currently produced molecules. As a result, the MC system has conceptual connections with energy harvesting systems. In this paper, we consider two scenarios on the propagation channel. The first scenario assumes a channel with no Inter-symbol Interference (ISI), i.e., a memoryless channel. We derive bounds on the capacity of the MC system in this scenario. The second scenario assumes the MC network with ISI, in which the output of the channel depends on the history of released molecules in the pervious time-slots. Based on the assumptions that either the transmitter or the receiver knows the channel statistics, we compute a lower bound on the channel capacity. 1 Index Terms-Molecular communication (MC) network, Channel Capacity, inter-symbol interference (ISI).

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Perfect secrecy via compressed sensing

Mayiami¹,

Seyfe²,

Bafghi³

2013

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Abstract-In this paper we consider the compressed sensingbased encryption and proposed the conditions in which the perfect secrecy is obtained.We prove when the Restricted Isometery Property (RIP) is hold and the number of measurements is more than two times of sparsity level i.e., the perfect secrecy condition introduced by Shannon is achievable if message block is not equal to zero or we have infinite block length.

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On the achievable rate region of a new Gaussian wiretap channel with side information

Bafghi

Seyfe

Mirmohseni

et al. 2012

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A new applicable wiretap channel with separated side information is considered here which consist of a sender, a legitimate receiver and a wiretapper. In the considered scenario, the links from the transmitter to the legitimate receiver and the eavesdropper experience different conditions or channel states. So, the legitimate receiver and the wiretapper listen to the transmitted signal through the channels with different channel states which may have some correlation to each other. It is assumed that the transmitter knows the state of the main channel non-causally and uses this knowledge to encode its message. The state of the wiretap channel is not known anywhere. An achievable equivocation rate region is derived for this model and is compared to the existing works. In some special cases, the results are extended to the Gaussian wiretap channel. Index TermsEquivocation rate, secrecy capacity, side information, wiretap channel, perfect secrecy.

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On The Secrecy of the Cognitive Interference Channel with Partial Channel States

Bafghi¹,

Seyfe²,

Mirmohseni³

et al. 2015

Preprint

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Hamid G. Bafghi

Cognitive interference channel with two confidential messages

Diffusion-Based Molecular Communication With Limited Molecule Production Rate

Perfect secrecy via compressed sensing

On the achievable rate region of a new Gaussian wiretap channel with side information

On The Secrecy of the Cognitive Interference Channel with Partial Channel States

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