Index Modulation for Molecular Communication via Diffusion Systems

Gursoy, Mustafa Can; Başar, Ertuğrul; Pusane, Alí Emre; Tuǧcu, Tuna

doi:10.1109/tcomm.2019.2898665

Cited by 65 publications

(64 citation statements)

References 39 publications

(98 reference statements)

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“…On the other hand, the introduced ILI enhancement hurts the SMUXbased schemes' error performances as tb is increased after a certain point. This phenomenon is also in agreement with the findings of [11] and implies an interesting possible research direction regarding the optimization of tb for SMUX-based molecular MIMO with an objective of minimizing BER.…”

Section: N U M E R I C a L R E S U L T S A N D Discussionsupporting

confidence: 90%

“…Furthermore, the simplicity of the PPM detector is also an advantage over CSK's threshold-based detector since PPM's decoder does not require the channel impulse response (CIR). The findings of this work also agree with [11] that the ILI associated with SMUX increases for larger symbol durations. Stemming from this phenomenon, this work suggests the existence of a trade-off between ISI and ILI combating and hints to the presence of a bit duration value in which SMUX schemes yield their lowest error probabilities.…”

Section: Introductionsupporting

confidence: 90%

“…Following the system model considerations of [7], [9] and [11], the system in this paper is considered to be an N x N molecular MIMO system, where N = 4 is chosen for demon strative purposes. In the molecular MIMO system of interest, there is a single transmitter unit and a single receiver unit.…”

Section: S Y S T E M M O D E Lmentioning

confidence: 99%

See 2 more Smart Citations

An ILI Mitigating Modulation Scheme for Molecular MIMO Communications

Gursoy

Başar

Pusane

et al. 2019

2019 42nd International Conference on Telecommunications and Signal Processing (TSP)

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M ultiple-input-m ultiple-output (MIMO) approach is recently proposed to the diffusion-based m olecular communication realm in order to enhance communication performance. One of the m ost promising approaches of m olecular MIMO, spatial m ultiplexing (SMUX), transm its parallel streams of data to achieve an increased throughput. Unfortunately, the performance of SMUX is lim ited by a high error floor due to severe interlink interference (ILI). Inspired by the relatively more sparse transm ission strategy of the pulse-position m odulation (PPM) scheme, this study proposes a PPM-based novel SMUX approach to the m olecular MIMO literature. In the study, it is shown that the proposed approach combats ILI more effectively than the existing concentration-based SMUX approach and yields promising error performances.

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Section: N U M E R I C a L R E S U L T S A N D Discussionsupporting

confidence: 90%

Section: Introductionsupporting

confidence: 90%

See 1 more Smart Citation

An ILI Mitigating Modulation Scheme for Molecular MIMO Communications

Gursoy

Başar

Pusane

et al. 2019

2019 42nd International Conference on Telecommunications and Signal Processing (TSP)

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“…where R i,k denotes the number of received molecules during the i th symbol interval that were emitted at the start of the k th symbol interval, and R i,k ∼ B(N T x i−k+1 , h k ). Following the findings of [20], (5) can be approximated as a normal random variable given by…”

Section: System Modelmentioning

confidence: 99%

“…Molecular communication via diffusion (MCvD) is communication paradigm that enables information transfer by utilizing the diffusive nature of messenger molecules in fluid media-um [1]. In an MCvD system, the information can be typically encoded in the quantity [2], type [3], time of release [4], spatial index of emission [5], and other combinations of these physical properties of the molecular wave.…”

Section: Introductionmentioning

confidence: 99%

Simulation Study and Analysis of Diffusive Molecular Communications With an Apertured Plane

Gursoy

Yilmaz

Pusane

et al. 2020

IEEE Trans.on Nanobioscience

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Molecular communication via diffusion (MCvD) is a method of achieving nano-and micro-scale connectivity by utilizing the free diffusion mechanism of information molecules. The randomness in diffusive propagation is the main cause of inter-symbol interference (ISI) and the limiting factor of high data rate MCvD applications. In this paper, an apertured plane is considered between the transmitter and the receiver of an MCvD link. Either after being artificially placed or occuring naturally, surfaces or volumes that resemble an apertured plane only allow a fraction of the molecules to pass. Contrary to intuition, it is observed that such topology may improve communication performance, given the molecules that can pass through the aperture are the ones that take more directed paths towards the receiver. Furthermore, through both computer simulations and a theoretical cost function named signal-to-interference and noise amplitude ratio (SINAR), it is found that the size of the aperture imposes a trade-off between the received signal power and the ISI combating capability of an MCvD system, hinting to an optimal aperture size that minimizes the bit error rate (BER). In addition, it is shown that the optimal aperture size is affected by the location of the aperture and the bit rate. Lastly, the paper analyzes the effects of a radial offset in the placement of the apertured plane, and finds that a reduction in BER is still in effect up to a certain offset value. Overall, our results imply that apertured plane-like surfaces may actually help communication efficiency, even though they reduce the received signal power.Index Terms-Molecular communication via diffusion, nanonetworks, apertured plane, inter-symbol interference, bit error rate.

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Orthogonal frequency division multiplexing with index modulation by using multiple constellation sets

Acar

2021

Trans Emerging Tel Tech

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In this article, a new transmission method named enhanced orthogonal frequency division multiplexing (E-OFDM) is proposed to increase the spectral efficiency (SE) of the OFDM. The proposed method conveys information bits not only by the M-ary symbols but also by the multiple different constellation sets. In the proposed method, we build the sub-blocks by splitting the whole OFDM into pieces. Then, we use different constellation sets in each sub-block and we assign the extra bits to them to increase the SE of the OFDM systems.Consequently, at the same modulation level, the proposed method has higher SE than the conventional OFDM system. The simulation results also show that the proposed method achieves better bit error rate (BER) performance than the conventional OFDM system with tolerable complexity. For example, the proposed method with a sub-block size 2 doubles the SE of the conventional OFDM method with BPSK modulation, and also it has approximately 1.6 dB better BER performance than the conventional OFDM at BER =10 −4 . New constellation designs and receiver algorithm for the detection of additional bits are also presented.

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Index Modulation for Molecular Communication via Diffusion Systems

Cited by 65 publications

References 39 publications

An ILI Mitigating Modulation Scheme for Molecular MIMO Communications

An ILI Mitigating Modulation Scheme for Molecular MIMO Communications

Simulation Study and Analysis of Diffusive Molecular Communications With an Apertured Plane

Orthogonal frequency division multiplexing with index modulation by using multiple constellation sets

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