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1. Quantum Spread-Spectrum CDMA Communication Systems: Mathematical Foundations

Author

Dastgheib, Mohammad Amir, Salehi, Jawad A., and Rezai, Mohammad

Subjects
Quantum Physics, Computer Science - Networking and Internet Architecture, Mathematics - Quantum Algebra
Abstract

This paper describes the fundamental principles and mathematical foundations of quantum spread spectrum code division multiple access (QCDMA) communication systems. The evolution of quantum signals through the direct-sequence spread spectrum multiple access communication system is carefully characterized by a novel approach called the decomposition of creation operators. In this methodology, the creation operator of the transmitted quantum signal is decomposed into the chip-time interval creation operators each of which is defined over the duration of a chip. These chip-time interval creation operators are the invariant building blocks of the spread spectrum quantum communication systems. With the aid of the proposed chip-time decomposition approach, we can find closed-form relations for quantum signals at the receiver of such a quantum communication system. Further, the paper details the principles of narrow-band filtering of quantum signals required at the receiver, a crucial step in designing and analyzing quantum communication systems. We show that by employing coherent states as the transmitted quantum signals, the inter-user interference appears as an additive term in the magnitude of the output coherent (Glauber) state, and the output of the quantum communication system is a pure quantum signal. On the other hand, if the transmitters utilize particle-like quantum signals (Fock states) such as single photon states, entanglement and a spread spectrum version of the Hong-Ou-Mandel effect can arise at the receivers. The important techniques developed in this paper are expected to have far-reaching implications for various applications in the exciting field of quantum communication and signal processing.

Published
2024

2. Quantum Computation via Multiport Quantum Fourier Optical Processors

Author

Rezai, Mohammad and Salehi, Jawad A.

Subjects
Quantum Physics
Abstract

The light's image is the primary source of information carrier in nature. Indeed, a single photon's image possesses a vast information capacity that can be harnessed for quantum information processing. Our scheme for implementing quantum information processing via universal multiport processors employs a class of quantum Fourier optical systems composed of spatial phase modulators and 4f-processors with phase-only pupils having a characteristic periodicity that reduces the number of optical resources quadratically as compared to other conventional path encoding techniques. In particular, this paper employs quantum Fourier optics to implement some key quantum logical gates that can be instrumental in optical quantum computations. For instance, we demonstrate the principle by implementing the single-qubit Hadamard and the two-qubit controlled-NOT gates via simulation and optimization techniques. Due to various advantages of the proposed scheme, including the large information capacity of the photon wavefront, a quadratically reduced number of optical resources compared with other conventional path encoding techniques, and dynamic programmability, the proposed scheme has the potential to be an essential contribution to linear optical quantum computing and optical quantum signal processing., Comment: 11 pages, 4 figures

Published
2023

3. Fundamentals of Quantum Fourier Optics

Author

Rezai, Mohammad and Salehi, Jawad A.

Subjects
Quantum Physics
Abstract

All-quantum signal processing techniques are at the core of the successful advancement of most information-based quantum technologies. This paper develops coherent and comprehensive methodologies and mathematical models to describe Fourier optical signal processing in full quantum terms for any input quantum state of light. We begin this paper by introducing a spatially two-dimensional quantum state of a photon, associated with its wavefront and expressible as a two-dimensional creation operator. Then, by breaking down the Fourier optical processing apparatus into its key components, we strive to acquire the quantum unitary transformation or the input/output quantum relation of the two-dimensional creation operators. Subsequently, we take advantage of the above results to develop and obtain the quantum analogous of a few essential Fourier optical apparatus, such as quantum convolution via a 4f-processing system and a quantum 4f-processing system with periodic pupils. Moreover, due to the importance and widespread use of optical pulse shaping in various optical communications and optical sciences fields, we also present an analogous system in full quantum terms, namely quantum pulse shaping with an 8f-processing system. Finally, we apply our results to two extreme examples of the quantum state of light. One is based on a coherent (Glauber) state and the other on a single-photon number (Fock) state for each of the above optical systems. We believe the schemes and mathematical models developed in this paper can impact many areas of quantum optical signal processing, quantum holography, quantum communications, quantum radars and multiple-input/multiple-output antennas, and many more applications in quantum computations and quantum machine learning algorithms., Comment: 23 pages, 6 figures

Published
2022

4. Quantum CDMA Communication Systems

Author

Rezai, Mohammad and Salehi, Jawad A.

Subjects
Quantum Physics, Physics - Optics
Abstract

Barcoding photons can provide a host of functionalities that could benefit future quantum communication systems and networks beyond today's imagination. As a significant application of barcoding photons, we introduce code division multiple-access (CDMA) communication systems for various applications. In this context, we introduce and discuss the fundamental principles of a novel quantum CDMA (QCDMA) technique based on spectrally encoding and decoding of continuous-mode quantum light pulses. In particular, we present the mathematical models of various QCDMA modules that are fundamental in describing an ideal and typical QCDMA system, such as quantum signal sources, quantum spectral encoding phase operators, M$\times$M quantum broadcasting star-coupler, quantum spectral phase decoding operators, and the quantum receivers. In describing a QCDMA system, this paper considers a unified approach where the input continuous-mode quantum light pulses can take on any form of pure states such as Glauber states and quantum number states. For input number states, one can observe features like entanglement and quantum interference. More interestingly, due to Heisenberg's uncertainty principle, the quantum signals sent by photon number states obtain complete phase uncertainty at the time of measurement. Therefore, at the receiver output, the multiaccess inter-signal interference vanishes. Due to Heisenberg's uncertainty principle, the received signal intensity at the photodetector's output changes from a coherent detection scheme for input Glauber states to an incoherent detection scheme for input number states. Our mathematical model is valuable in the signal design and data modulations of point-to-point quantum communications, quantum pulse shaping, and quantum radar signals and systems where the inputs are continuous mode quantum signals., Comment: 22 pages, 8 figures, to be published in IEEE Transactions on Information Theory

Published
2021
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5. Mobility-Aware Resource Allocation in VLC Networks Using T-Step Look-Ahead Policy

Author

Dastgheib, Mohammad Amir, Beyranvand, Hamzeh, Salehi, Jawad A., and Maier, Martin

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Information Theory
Abstract

Visible light communication (VLC) uses huge license-free spectral bandwidth of visible light for high-speed wireless communication. Since each VLC access point covers a small area, handovers of mobile users are inevitable. In order to deal with these handovers, developing fast and effective resource allocation algorithms is a challenge. This paper introduces the problem of mobility-aware optimization of resources in VLC networks using the T-step look-ahead policy and employing the notion of handover efficiency. It is shown that the handover efficiency can correlate the overall performance of the network with future actions based on the mobility of users. Due to the stationary nature of indoor optical wireless channels, future channel state information (CSI) can be predicted by anticipating the future locations of users. A resource allocation algorithm is thus proposed, which uses CSI to dynamically allocate network resources to users. To solve this mathematically intractable problem, a novel relaxation method is proposed, which proves to be a useful tool to develop efficient algorithms for network optimization problems with a proportional fairness utility function. The resulting algorithm is extremely faster than the previous method and awareness of mobility enhances the overall performance of the network in terms of rate and fairness utility function., Comment: 13 pages and 9 figures, Journal of Lightwave Technology, 2018

Published
2018
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6. Ultra-Dense 5G Small Cell Deployment for Fiber and Wireless Backhaul-Aware Infrastructures

Author

Rezaabad, Ali Lotfi, Beyranvand, Hamzeh, Salehi, Jawad A., and Maier, Martin

Subjects
Computer Science - Networking and Internet Architecture, Electrical Engineering and Systems Science - Signal Processing
Abstract

In this paper, we study the cell planning problem for a two-tier cellular network containing two types of base stations (BSs)-- i.e. with fiber backhaul, referred to as wired BSs (W-BSs), and BSs with wireless backhaul, referred to as unwired-BSs (U-BSs). In-band full-duplex wireless communications is used to connect U-BSs and W-BSs. We propose an algorithm to determine the minimum number of W-BSs and U-BSs to satisfy given cell and capacity coverage constraints. Furthermore, we apply our proposed non-dominated sorting genetic algorithm II (NSGA-II) to solve both cell planning and joint cell and backhaul planning problem to minimize the cost of planning, while maximizing the coverage simultaneously. Additionally, the considered cell planning program is developed into an optimization by including the problem of minimizing the cost of fiber backhaul deployment. In order to analyze the performance of the proposed algorithm, we study three different deployment scenarios based on different spatial distributions of users and coverage areas. The results show the superiority of our proposed NSGA-II algorithm for both cell planning and joint cell and backhaul planning to other well-known optimization algorithms. The results also reveal that there is a trade-off between cell deployment costs and SINR/rate coverage, and W-BSs are placed in congested areas to consume less resources for wireless backhauls. Similarly, a trade-off between cell and fiber deployment costs and SINR/rate coverage is observed in planning. We show that for realistic scenarios desirable solutions can be selected from the Pareto front of the introduced multi-objective problem based on given cellular operator policies.

Published
2018

7. GOPA: Geometrical Optics Positioning Algorithm Using Spatial Color Coded LEDs (Extended Version)

Author

Hosseinianfar, Hamid, Chizari, Ata, and Salehi, Jawad A.

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

In this paper, we propose an accurate visible light indoor localization system for a smartphone using the existing commercial light-emitting diode (LED) luminaries. The proposed technique, called geometrical optics positioning algorithm (GOPA), uses spatial color code landmarks alongside angle of arrival (AOA)-based geometrical algorithm on smartphones to locate the device, and reserves LED's time-frequency domain modulation to increase the throughput of the visible light network broadcast from the same luminaries infrastructure. GOPA algorithm is developed with practical considerations such as flexible hand gesture and handshake, and it enables both positioning robustness and on-device processing. By introducing the idea of virtual plane, field of view (FOV) issue of AOA-based positioning systems is addressed in GOPA. The embedded accelerometer and front-facing camera of the smartphone are used at the receiver side to measure the smartphone inclination and acquire the image. Experimental results show robust two-dimensional ($2$-D) and three-dimensional ($3$-D) positioning. The experimental mean positioning error for $2$-D positioning is $0.54$ cm, in case one ignoring the tilt. The experimental mean positioning errors for $3$-D positioning are respectively $1.24$ cm, $1.85$ cm, and $6.02$ cm for ideal non-tilted and non-oriented, non-tilted but orientated, and both tilted and orientated scenarios., Comment: 10 pages, 11 figures, and 2 tables

Published
2018

8. Statistical Studies of Fading in Underwater Wireless Optical Channels in the Presence of Air Bubble, Temperature, and Salinity Random Variations (Long Version)

Author

Jamali, Mohammad Vahid, Mirani, Ali, Parsay, Alireza, Abolhassani, Bahman, Nabavi, Pooya, Chizari, Ata, Khorramshahi, Pirazh, Abdollahramezani, Sajjad, and Salehi, Jawad A.

Subjects
Computer Science - Information Theory
Abstract

Optical signal propagation through underwater channels is affected by three main degrading phenomena, namely absorption, scattering, and fading. In this paper, we experimentally study the statistical distribution of intensity fluctuations in underwater wireless optical channels with random temperature and salinity variations as well as the presence of air bubbles. In particular, we define different scenarios to produce random fluctuations on the water refractive index across the propagation path, and then examine the accuracy of various statistical distributions in terms of their goodness of fit to the experimental data. We also obtain the channel coherence time to address the average period of fading temporal variations. The scenarios under consideration cover a wide range of scintillation index from weak to strong turbulence. Moreover, the effects of beam-collimator at the transmitter side and aperture averaging lens at the receiver side are experimentally investigated. We show that the use of a transmitter beam-collimator and/or a receiver aperture averaging lens suits single-lobe distributions such that the generalized Gamma and exponential Weibull distributions can excellently match the histograms of the acquired data. Our experimental results further reveal that the channel coherence time is on the order of $10^{-3}$ seconds and larger which implies to the slow fading turbulent channels.

Published
2018

9. Femtosecond CDMA Using Dielectric Metasurfaces: Design Procedure and Challenges

Author

Rajabzadeh, Taha, Mousavi, Mohammad Hosein, Abdollahramezani, Sajjad, Jamali, Mohammad Vahid, and Salehi, Jawad A.

Subjects
Physics - Applied Physics, Electrical Engineering and Systems Science - Signal Processing, Physics - Optics
Abstract

Inspired by the ever-increasing demand for higher data transmission rates and the tremendous attention toward all-optical signal processing based on miniaturized nanophotonics, in this paper, for the first time, we investigate the integrable design of coherent ultrashort light pulse code-division multiple-access (CDMA) technique, also known as femtosecond CDMA, using all-dielectric metasurfaces (MSs). In this technique, the data bits are firstly modulated using ultrashort femtosecond optical pulses generated by mode-locked lasers, and then by employing a unique phase metamask for each data stream, in order to provide the multiple access capability, the optical signals are spectrally encoded. This procedure spreads the optical signal in the temporal domain and generates low-intensity pseudo-noise bursts through random phase coding leading to minimized multiple access interference. This paper comprehensively presents the principles and design approach to realize fundamental components of a typical femtosecond CDMA encoder, including the grating, lens, and phase mask, by employing high-contrast CMOS-compatible MSs. By controlling the interference between the provided Mie and Fabry-Perot resonance modes, we tailor the spectral and spatial responses of the impinging light locally and independently. Accordingly, we design a MS-based grating with the highest possible refracted angle and, in the meantime, the maximized efficiency which results in a reasonable diameter for the subsequent lens. Moreover, to design our MS-based lens commensurate with the spot size and distance requirements of the pursuant phase mask, we leverage a new optimization method which splits the lens structure into central and peripheral parts, and then design the peripheral part using a collection of gratings converging the impinging at the subsequent phase mask.

Published
2017

10. MIMO Underwater Visible Light Communications: Comprehensive Channel Study, Performance Analysis, and Multiple-Symbol Detection

Author

Jamali, Mohammad Vahid, Nabavi, Pooya, and Salehi, Jawad A.

Subjects
Computer Science - Information Theory
Abstract

In this paper, we analytically study the bit error rate (BER) performance of underwater visible light communication (UVLC) systems with binary pulse position modulation (BPPM). We simulate the channel fading-free impulse response (FFIR) based on Monte Carlo numerical method to take into account the absorption and scattering effects. Additionally, to characterize turbulence effects, we multiply the aforementioned FFIR by a fading coefficient which for weak oceanic turbulence can be modeled as a lognormal random variable (RV). Moreover, to mitigate turbulence effects, we employ multiple transmitters and/or receivers, i.e., spatial diversity technique over UVLC links. Closed-form expressions for the system BER are provided, when equal gain combiner (EGC) is employed at the receiver side, thanks to Gauss-Hermite quadrature formula and approximation to the sum of lognormal RVs. We further apply saddle-point approximation, an accurate photon-counting-based method, to evaluate the system BER in the presence of shot noise. Both laser-based collimated and light emitting diode (LED)-based diffusive links are investigated. Since multiple-scattering effect of UVLC channels on the propagating photons causes considerable inter-symbol interference (ISI), especially for diffusive channels, we also obtain the optimum multiple-symbol detection (MSD) algorithm to significantly alleviate ISI effects and improve the system performance. Our numerical analysis indicates good matches between the analytical and photon-counting results implying the negligibility of signal-dependent shot noise, and also between analytical results and numerical simulations confirming the accuracy of our derived closed-form expressions for the system BER. Besides, our results show that spatial diversity significantly mitigates fading impairments while MSD considerably alleviates ISI deteriorations.

Published
2017

11. Wavelength Assignment in Hybrid Quantum-Classical Networks

Author

Bahrani, Sima, Razavi, Mohsen, and Salehi, Jawad A.

Subjects
Quantum Physics
Abstract

Optimal wavelength assignment in dense-wavelength-division-multiplexing (DWDM) systems that integrate both quantum and classical channels is studied. In such systems, weak quantum key distribution (QKD) signals travel alongside intense classical signals on the same fiber, where the former can be masked by the background noise induced by the latter. Here, we investigate how optimal wavelength assignment can mitigate this problem. We consider different DWDM structures and various sources of crosstalk and propose several near-optimal wavelength assignment methods that maximize the total secret key rate of the QKD channels. Our numerical results show that the optimum wavelength assignment pattern is commonly consisted of several interspersed quantum and classical bands. Using our proposed techniques, the total secret key rate of quantum channels can substantially be improved, as compared to conventional assignment methods, in the noise dominated regimes. Alternatively, we can maximize the number of QKD users supported under certain key rate constraints., Comment: 13 pages, 7 figures

Published
2017

13. Circulant Matrix Representation of PN-sequences with Ideal Autocorrelation Property

Author

Khojasteh, Mohammad J., Shoreh, Morteza H., and Salehi, Jawad A.

Subjects
Computer Science - Information Theory, Mathematics - Rings and Algebras
Abstract

In this paper, we investigate PN-sequences with ideal autocorrelation property and the consequences of this property on the number of +1s and -1s and run structure of sequences. We begin by discussing and surveying about the length of PNsequences with ideal autocorrelation property. From our discussion and survey we introduce circulant matrix representation of PN-sequence. Through circulant matrix representation we obtain system of non-linear equations that lead to ideal autocorrelation property. Rewriting PN-sequence and its autocorrelation property in {0,1} leads to a definition based on Hamming weight and Hamming distance and hence we can easily prove some results on the PN-sequences with ideal autocorrelation property., Comment: Communication and Information Theory (IWCIT), 2015 Iran Workshop on. IEEE, 2015

Published
2016
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14. On the Capacity of Discrete-Time Laguerre Channel

Author

Esmaeili, Hossein and Salehi, Jawad

Subjects
Computer Science - Information Theory
Abstract

In this paper, new upper and lower bounds are proposed for the capacity of discrete-time Laguerre channel. Laguerre behavior is used to model various types of optical systems and networks such as optical amplifiers, short distance visible light communication systems with direct detection and coherent code division multiple access (CDMA) networks. Bounds are derived for short distance visible light communication systems and coherent CDMA networks. These bounds are separated in three main cases: when both average and peak power constraints are imposed, when peak power constraint is inactive and when only peak power constraint is active.

Published
2016

15. Analog Optical Computing Based on Dielectric Meta-reflect-array

Author

Chizari, Ata, AbdollahRamezani, Sajjad, Jamali, Mohammad Vahid, and Salehi, Jawad A.

Subjects
Physics - Optics
Abstract

In this paper, we realize the concept of analog computing using an array of engineered gradient dielectric meta-reflect-array. The proposed configuration consists of individual subwavelength silicon nanobricks in combination with fused silica spacer and silver ground plane realizing a reflection beam with full phase coverage $2\pi$ degrees as well as amplitude range $0$ to $1$. Spectrally overlapping electric and magnetic dipole resonances, such high-index dielectric metasurfaces can locally and independently manipulate the amplitude and phase of the incident electromagnetic wave. This practically feasible structure overcomes substantial limitations imposed by plasmonic metasurfaces such as absorption losses and low polarization conversion efficiency in the visible range. Using such CMOS-compatible and easily integrable platforms promises highly efficient ultrathin planar wave-based computing systems which circumvent the drawbacks of conventional bulky lens-based signal processors. Based on these key properties and general concept of spatial Fourier transformation, we design and realize broadband mathematical operators such as differentiator and integrator in the telecommunication wavelengths.

Published
2016
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16. Analytical Studies of Fragmented-Spectrum Multi-Level OFDM-CDMA Technique in Cognitive Radio Networks

Author

Akhoundi, Farhad, Sharifi-Malvajerdi, Saeed, Poursaeed, Omid, and Salehi, Jawad A.

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Information Theory
Abstract

In this paper, we present a multi-user resource allocation framework using fragmented-spectrum synchronous OFDM-CDMA modulation over a frequency-selective fading channel. In particular, given pre-existing communications in the spectrum where the system is operating, a channel sensing and estimation method is used to obtain information of subcarrier availability. Given this information, some real-valued multi-level orthogonal codes, which are orthogonal codes with values of $\{\pm1,\pm2,\pm3,\pm4, ... \}$, are provided for emerging new users, i.e., cognitive radio users. Additionally, we have obtained a closed form expression for bit error rate of cognitive radio receivers in terms of detection probability of primary users, CR users' sensing time and CR users' signal to noise ratio. Moreover, simulation results obtained in this paper indicate the precision with which the analytical results have been obtained in modeling the aforementioned system., Comment: 6 pages and 3 figures

Published
2016

17. Mining DNA Sequences Based on Spatially Coded Technique Using Spatial Light Modulator

Author

Fazelian, Masoome, AbdollahRamezani, Sajjad, Bahrani, Sima, Chizari, Ata, Jamali, Mohammad Vahid, Khorramshahi, Pirazh, Tashakori, Arvin, Shahsavari, Shadi, and Salehi, Jawad A.

Subjects
Computer Science - Information Theory
Abstract

In this paper, we present an optical computing method for string data alignment applicable to genome information analysis. By applying moire technique to spatial encoding patterns of deoxyribonucleic acid (DNA) sequences, association information of the genome and the expressed phenotypes could more effectively be extracted. Such moire fringes reveal occurrence of matching, deletion and insertion between DNA sequences providing useful visualized information for prediction of gene function and classification of species. Furthermore, by applying a cylindrical lens, a new technique is proposed to map two-dimensional (2D) association information to a one-dimensional (1D) column of pixels, where each pixel in the column is representative of superposition of all bright and dark pixels in the corresponding row. By such a time-consuming preprocessing, local similarities between two intended patterns can readily be found by just using a 1D array of photodetectors and postprocessing could be performed on specified parts in the initial 2D pattern. We also evaluate our proposed circular encoding adapted for poor data alignment condition. Our simulation results together with experimental implementation verify the effectiveness of our dynamic proposed methods which significantly improve system parameters such as processing gain and signal to noise ratio (SNR).

Published
2016

18. Statistical Distribution of Intensity Fluctuations for Underwater Wireless Optical Channels in the Presence of Air Bubbles

Author

Jamali, Mohammad Vahid, Khorramshahi, Pirazh, Tashakori, Arvin, Chizari, Ata, Shahsavari, Shadi, AbdollahRamezani, Sajjad, Fazelian, Masoome, Bahrani, Sima, and Salehi, Jawad A.

Subjects
Computer Science - Information Theory
Abstract

In this paper, we experimentally investigate the statistical distribution of intensity fluctuations for underwater wireless optical channels under different channel conditions, namely fresh and salty underwater channels with and without air bubbles. To do so, we first measure the received optical signal with a large number of samples. Based on the normalized acquired data the channel coherence time and the fluctuations probability density function (PDF) are obtained for different channel scenarios. Our experimental results show that salt attenuates the received signal while air bubbles mainly introduce severe intensity fluctuations. Moreover, we observe that log-normal distribution precisely fits the acquired data PDF for scintillation index ($\sigma^2_I$) values less than $0.1$, while Gamma-Gamma and K distributions aptly predict the intensity fluctuations for $\sigma^2_I>1$. Since neither of these distributions are capable of predicting the received irradiance for $0.1<\sigma^2_I<1$, we propose a combination of an exponential and a log-normal distributions to perfectly describe the acquired data PDF for such regimes of scintillation index.

Published
2016

19. Performance Analysis of Multi-Hop Underwater Wireless Optical Communication Systems (Extended Version)

Author

Jamali, Mohammad Vahid, Chizari, Ata, and Salehi, Jawad A.

Subjects
Computer Science - Information Theory
Abstract

In this paper, we evaluate the end-to-end bit error rate (BER) of point-to-point underwater wireless optical communication (UWOC) systems with multi-hop transmission. To do so, we analytically derive the BER expression of a single-hop UWOC link as the building block for end-to-end BER evaluation. We also apply photon-counting method to evaluate the system BER in the presence of shot noise. Moreover, we use Gauss-Hermite quadrature formula to obtain the closed-form solutions for the system BER in the case of log-normal underwater fading channels. Our analytical treatment involves all the impairing effects of the underwater optical channel, namely absorption, scattering and fading. Numerical results demonstrate that multi-hop transmission by alleviating the aforementioned impairing effects of the channel, can significantly improve the system performance and extend the viable end-to-end communication distance. For example, dual-hop transmission in $22.5$ m and $45$ m coastal water links can provide $17.5$ dB and $39$ dB performance enhancement at the BER of $10^{-6}$, respectively.

Published
2016

20. Designing A Dimmable OPPM-Based VLC System Under Channel Constraints

Author

Chizari, Ata, Jamali, Mohammad Vahid, Salehi, Jawad A., and Dargahi, Akbar

Subjects
Computer Science - Information Theory
Abstract

In this paper, we design a dimming compatible visible light communication (VLC) system in a standard office room according to illumination standards under channel constraints. We use overlapping pulse position modulation (OPPM) to support dimming control by changing the code weights. The system parameters such as a valid interval for dimming together with an upper bound for bit rate according to the channel delay spread are investigated. Moreover, considering the dispersive VLC channel and using Monte Carlo (MC) simulations, a method is proposed to determine the minimum code length in different dimming levels in order to achieve a valid bit error rate (BER). Finally, trellis coded modulation (TCM) is suggested to be applied to OPPM in order to take advantage of consequent coding gain which could be up to $3$ dB.

Published
2016

21. Cellular Underwater Wireless Optical CDMA Network: Potentials and Challenges

Author

Akhoundi, Farhad, Jamali, Mohammad Vahid, Banihassan, Navid, Beyranvand, Hamzeh, Minoofar, Amir, and Salehi, Jawad A.

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Underwater wireless optical communications is an emerging solution to the expanding demand for broadband links in oceans and seas. In this paper, a cellular underwater wireless optical code division multiple-access (UW-OCDMA) network is proposed to provide broadband links for commercial and military applications. The optical orthogonal codes (OOC) are employed as signature codes of underwater mobile users. Fundamental key aspects of the network such as its backhaul architecture, its potential applications and its design challenges are presented. In particular, the proposed network is used as infrastructure of centralized, decentralized and relay-assisted underwater sensor networks for high-speed real-time monitoring. Furthermore, a promising underwater localization and positioning scheme based on this cellular network is presented. Finally, probable design challenges such as cell edge coverage, blockage avoidance, power control and increasing the network capacity are addressed., Comment: 11 pages, 10 figures

Published
2016

22. On the BER of Multiple-Input Multiple-Output Underwater Wireless Optical Communication Systems

Author

Jamali, Mohammad Vahid and Salehi, Jawad A.

Subjects
Computer Science - Information Theory
Abstract

In this paper we analyze and investigate the bit error rate (BER) performance of multiple-input multiple-output underwater wireless optical communication (MIMO-UWOC) systems. In addition to exact BER expressions, we also obtain an upper bound on the system BER. To effectively estimate the BER expressions, we use Gauss-Hermite quadrature formula as well as approximation to the sum of log-normal random variables. We confirm the accuracy of our analytical expressions by evaluating the BER through photon-counting approach. Our simulation results show that MIMO technique can mitigate the channel turbulence-induced fading and consequently, can partially extend the viable communication range, especially for channels with stronger turbulence.

Published
2015

23. Performance Characterization of Relay-Assisted Wireless Optical CDMA Networks in Turbulent Underwater Channel

Author

Jamali, Mohammad Vahid, Akhoundi, Farhad, and Salehi, Jawad A.

Subjects
Computer Science - Information Theory
Abstract

In this paper, we characterize the performance of relay-assisted underwater wireless optical code division multiple access (OCDMA) networks over turbulent channels. In addition to scattering and absorption effects of underwater channels, we also consider optical turbulence as a log-normal fading coefficient in our analysis. To simultaneously and asynchronously share medium among many users, we assign a unique optical orthogonal code (OOC) to each user in order to actualize OCDMA-based underwater network. The most significant challenge in underwater optical communication is in the ability to extend the short range of its coverage. In order to expand the viable communication range, we consider multi-hop transmission to the destination. Moreover, we evaluate the performance of a relay-assisted point-to-point UWOC system as a special case of the proposed relay-assisted OCDMA network. Our numerical results indicate significant performance improvement by employing intermediate relays, e.g., one can achieve $32$ {dB} improvement in the bit error rate (BER) of $10^{-6}$ using only a dual-hop transmission in a $90$ {m} point-to-point clear ocean link.

Published
2015

24. Performance Studies of Underwater Wireless Optical Communication Systems with Spatial Diversity: MIMO Scheme

Author

Jamali, Mohammad Vahid, Salehi, Jawad A., and Akhoundi, Farhad

Subjects
Computer Science - Information Theory
Abstract

In this paper, we analytically study the performance of multiple-input multiple-output underwater wireless optical communication (MIMO UWOC) systems with on-off keying (OOK) modulation. To mitigate turbulence-induced fading, which is amongst the major degrading effects of underwater channels on the propagating optical signal, we use spatial diversity over UWOC links. Furthermore, the effects of absorption and scattering are considered in our analysis. We analytically obtain the exact and an upper bound bit error rate (BER) expressions for both optimal and equal gain combining. In order to more effectively calculate the system BER, we apply Gauss-Hermite quadrature formula as well as approximation to the sum of lognormal random variables. We also apply photon-counting method to evaluate the system BER in the presence of shot noise. Our numerical results indicate an excellent match between the exact and upper bound BER curves. Also {a good match} between {the} analytical results and numerical simulations confirms the accuracy of our derived expressions. Moreover, our results show that spatial diversity can considerably improve the system performance, especially for channels with higher turbulence, e.g., a $3\times1$ MISO transmission in a $25$ {m} coastal water link with log-amplitude variance of $0.16$ can introduce $8$ {dB} performance improvement at the BER of $10^{-9}$.

Published
2015

25. Orthogonal Frequency Division Multiplexed Quantum Key Distribution

Author

Bahrani, Sima, Razavi, Mohsen, and Salehi, Jawad A.

Subjects
Quantum Physics
Abstract

We propose orthogonal frequency division multiplexing (OFDM), as a spectrally efficient multiplexing technique, for quantum key distribution (QKD) at the core of trustednode quantum networks. Two main schemes are proposed and analyzed in detail, considering system imperfections, specifically, time misalignment issues. It turns out that while multiple service providers can share the network infrastructure using the proposed multiplexing techniques, no gain in the total secret key generation rate is obtained if one uses conventional all-optical passive OFDM decoders. To achieve a linear increase in the key rate with the number of channels, an alternative active setup for OFDM decoding is proposed, which employs an optical switch in addition to conventional passive circuits. We show that by using our proposed decoder the bandwidth utilization is considerably improved as compared to conventional wavelength division multiplexing techniques., Comment: Equation (23) is fixed

Published
2015
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26. Statistical Modeling and Performance Characterization of an Ultrafast Digital Lightwave Communication System Using a Power-Cubic Optical Nonlinear Preprocessor (Extended Version)

Author

Zefreh, Mahdi Ranjbar and Salehi, Jawad A.

Subjects
Computer Science - Information Theory
Abstract

In this paper, we present an analytical approach in obtaining the probability density function (pdf) of the random decision variable Y, formed at the output of power-cubic all-optical nonlinear preprocessor followed by the photodetector. Our approach can be used to accurately evaluate the performance of ultrafast pulse detection in the presence of Gaussian noise. Through rigorous Monte-Carlo simulation, the accuracy of widely used Gaussian approximation of decision variable Y is refuted. However, in this paper we show that the so called Log-Pearson type-3 probability density function (LP3 pdf) is an excellent representation for the decision variable Y . Three distinguishable parameters of the LP3 pdf are obtained through analytical derivation of three moments of the decision variable Y . Furthermore, toward a more realistic model, in addition to ASE Gaussian noise, the effects of shot and thermal noises are also included. Finally, using the presented analytical approach, it is shown that power-cubic preprocessor outperforms its quadratic counterparts, i.e., Second Harmonic Generation (SHG) and Two Photon Absorption (TPA) devices, in high power regime where shot and thermal noises can be neglected.

Published
2014

34. On Fundamental Limits of Energy-Efficient Signaling in Visible Light Communication Systems

Author

Dastgheib, Mohammad Amir, Zolala, Elahe, Beyranvand, Hamzeh, and Salehi, Jawad A.

Abstract

In this letter, we investigate the fundamental limits of energy efficiency in Visible Light Communication (VLC) systems, which rely on Light Emitting Diodes (LEDs) for both illumination and communication. Despite their promise for indoor wireless communications, VLC systems face challenges due to increased energy consumption compared to illumination-only systems. Our analysis focuses on the electrical behavior of key components in VLC transmitter circuits to address this issue. We introduce the problem of capacity per unit cost in optical intensity channels, aiming to maximize information transmission while minimizing power consumption. Lower and upper bounds for energy efficiency are obtained using channel capacity bounds and capacity-approaching distributions. Furthermore, we explore energy-efficient signaling schemes for class A and class AB VLC systems with discrete input distribution functions, employing the source entropy maximization approach. Our proposed scheme improves achievable energy efficiency by up to 98% at high Signal-to-Noise Ratios (SNRs), offering significant potential for designing sustainable and energy-efficient indoor communication networks.

Published
2023
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40. Spectral classification and multiplicative partitioning of constant-weight sequences based on circulant matrix representation of optical orthogonal codes

Author

Alem-Karladani, Mohammad M. and Salehi, Jawad A.

Subjects
Code Division Multiple Access technology, Technology application, CDMA technology -- Spectra, CDMA technology -- Technology application, Coding theory -- Usage, Matrices -- Analysis, Functions, Orthogonal -- Usage, Functions, Orthogonal -- Models, Sequences (Mathematics) -- Analysis
Published
2010

42. Multiclass, multistage, and multilevel fiber-optic CDMA signaling techniques based on advanced binary optical logic gate elements

Author

Ghaffari, Babak M. and Salehi, Jawad A.

Subjects
Code Division Multiple Access technology, Fiber transmission equipment, CDMA technology -- Methods, Fiber optic networks -- Methods, Signals and signaling -- Methods, Gates (Electronics) -- Usage
Abstract

In this paper we introduce and propose novel signaling methods and receiver structures based on advanced binary optical logic gates for fiber-optic code division multiple access (FO-CDMA) systems using all-optical signal processing. In the proposed system the users of the network are categorized into multiple classes. Users of each class transmit at the same power level but different from the levels of the other classes' users. Using a combination of optical OR, AND and XNOR logic gates for the receiver structure we show that such a network not only takes the full advantages of all-optical signal processing but also demonstrates a considerable throughput efficiency when compared to ordinary FO-CDMA systems. The proposed receiver structure mitigates the effect of interfering users from the other classes by rejecting some specified power level combinations from the other classes. The depth of interference cancellation is a function of the corresponding number of power levels and the number of stages applied to the optical logic gates in use. In our analysis we choose the generalized form of optical orthogonal codes (OOC), i.e., OOCs with cross-correlation value greater than one, as the signature sequence. We begin by emphasizing on two-level systems, that is, when the users can select one out of two power levels for signal transmission. However, for multilevel FO-CDMA we obtain a closed-form relation for the upper bound on the probability of error. We will show that under the ideal case the increase in throughput resulting from the proposed multilevel system is proportional to the number of classes or power levels in use. Our analytical results are compared to the results of an extensive system simulation. The numerical closeness between, the analytical and system simulation, indicates the accuracy with which we have modeled mathematically our proposed signaling using advanced binary optical logic gates in FO-CDMA. Index Terms--Fiber-optic CDMA (FO-CDMA), optical logic gates, optical orthogonal codes (OOC), multilevel signaling, optical and logic gate, optical XNOR logic gate, optical or logic gate, multiclass multistage OCDMA, multilevel OCDMA.

Published
2009

44. UWB Spectrally-Encoded Spread-Time CDMA in the presence of multiple Gaussian Interferences: RAKE receiver and three-level codes

Author

Mashhadi, Saeed and Salehi, Jawad A.

Subjects
Code Division Multiple Access technology, CDMA technology -- Research, Ultra wideband technology -- Research, Electromagnetic interference -- Properties
Abstract

In this paper we study and analyze the performance of the RAKE receiver for a typical Ultrawideband (UWB) Spectrally-Encoded Spread-Time (ST) CDMA in the presence of multiple Gaussian Interference (GI) signals. We demonstrate that by combining useful properties of three-level codes, i.e., codes with values of - 1, 0, + 1, and RAKE receiver, we can introduce a new strategy in which it can result in superior performance when compared to previous results. In particular, following a discussion on three-level codes we can show that RAKE receiver with optimum multiplicative weights achieves a better performance when compared with simple two-level codes. With the help of an example we show various properties of RAKE receiver as well as three-level codes and relate these properties to a number of simple descriptive parameters of the communication media. Simulation results obtained in this paper indicate the precision with which the analytical results have been obtained in modeling the above system. Index Terms--RAKE receiver, SNR, ST-CDMA, two- and three-level codes, UWB.

Published
2008

45. Wireless optical CDMA LAN: digital design concepts

Author

Ghaffari, Babak M., Matinfan, Mehdi D., and Salehi, Jawad A.

Subjects
Code Division Multiple Access technology, LAN, Pre-packaged LAN, Virtual LAN, CDMA technology -- Methods, Local area networks -- Methods, Coding theory -- Research, Optical communications -- Research
Abstract

In this paper we study and present an in-depth analysis on the operability and the viability of a typical wireless optical CDMA (OCDMA) local area network. Three receiver structures for OCDMA systems, using optical orthogonal codes (OOC) with minimum auto and cross-correlations as signature sequence, namely, correlation, correlation with hard-limiter, and chip-level detection are studied and proposed for such a network. For the synchronization circuit design the performance of two algorithms for OOC based OCDMA networks, namely, simple serial-search and multiple-shift in the context of wireless OCDMA LAN are studied. Furthermore, we study a synchronization method based on matched filtering and show that it presents a much better performance in our wireless OCDMA system. The effect of sampling rate and its performance on tracking circuit is analyzed. Bit-error-rate (BER) analysis is performed by photon counting methodology. Multi-user interference (MUI), ambient light, and photodetector dark current are considered in our analysis. Our analysis strongly indicates the viability and practicality of such systems in certain important wireless optical communications systems. Index Terms--OCDMA, wireless optical LAN, optical orthogonal codes, synchronization, acquisition, tracking, sampling effect.

Published
2008

46. Optimum code structures for positive optical CDMA using normalized divergence maximization criterion

Author

Mashhadi, Saeed and Salehi, Jawad A.

Subjects
Code Division Multiple Access technology, CDMA technology -- Research, Codes -- Research
Abstract

In this letter we consider optimum code structure for positive optical code division multiple-access (optical CDMA) systems. Positive systems are a class of systems that operate with positive real numbers only. We consider the effect of multiple-access interference in our model and show that code design for both On-Off Keying (OOK) and Binary PPM optical CDMA systems results in the same solutions. Furthermore, we show that a class of codes known as optical orthogonal codes (OOCs) are the best possible positive codes. In obtaining the results we define normalized divergence based on signal-to-multiple-access interference ratio (SIR) for a multiple-access system in a useful manner and use it as our criterion to maximize the multiple-access capability of the codes. Finally, we demonstrate that BPPM/OOC can be considered as the closest counterpart of [+ or -] 1 pseudorandom sequence in radio CDMA communication systems. Index Terms--Divergence, optical CDMA, optical orthogonal codes (OOC), positive codes and systems, SIR.

Published
2008

47. Atmospheric optical CDMA communication systems via optical orthogonal codes

Author

Jazayerifar, Mahmoud and Salehi, Jawad A.

Subjects
Code Division Multiple Access technology, Turbulence -- Analysis, Pulse modulation (Electronics) -- Analysis, CDMA technology -- Analysis
Abstract

We propose and consider using a class of multiple-access sequences, namely, optical orthogonal codes (OOCs) in atmospheric optical code-division multiple-access systems. We obtain analytical solutions to the error probability for various channel models using positive-intrinsic-negative diode and avalanche photodiode photodetectors. In our analysis, the effects of atmospheric turbulence, ambient light, thermal noise, and multiuser interference are considered, in the context of a semiclassical photon-counting approach. The performance of the systems taking advantage of space diversity and error-correcting codes are also evaluated. Two common and widely used optical modulations, on--off keying and pulse-position modulation, are considered. Receiver structures based on correlator and chip level are used for OOC detection. Unlike the traditional chip-level receiver, here a generalized form of chip-level structure with two threshold levels is considered. Upper and lower bounds on the error probability for the above-chip-level receiver structure is obtained. From our analytical results, we can deduce that the chip-level receiver outperforms a simple correlator in the absence or weak atmospheric fading; however, in a strong fading environment, the simple correlator outperforms the chip-level receiver. Index Terms--Chip-level detector, free-space optical (FSO), optical code-division multiple access (OCDMA), scintillation, turbulence.

Published
2006

48. Code-division multiple-access techniques in optical fiber networks--Part III: optical and logic gate receiver structure with generalized optical orthogonal codes

Author

Mashhadi, Saeed and Salehi, Jawad A.

Subjects
Fiber transmission equipment, Code Division Multiple Access technology, Fiber optic networks -- Methods, CDMA technology -- Analysis
Abstract

In this paper, we present a deep insight into the behavior of optical code-division multiple-access (OCDMA) systems based on an incoherent, intensity encoding/decoding technique using a well-known class of codes, namely, optical orthogonal codes (OOCs). As opposed to parts I and II of this paper, where OOCs with cross-correlation [lambda] = 1 were considered, we consider generalized OOCs with 1 [less than or equal to] [lambda] [less than or equal to] w where w is the weight of the corresponding codes. To enhance the performance of such systems, we propose the use of an optical AND logic gate receiver, which, in an ideal case, e.g., in the absence of any noise source, except the optical multiple-access interference, is optimum. Using some basic laws on probability, we present direct and exact solutions for OOCs with [lambda] = 1, 2.3, ..., w, with the optical AND logic gate as receiver. Using the exact solution, we obtain empirical solutions that can be easily used in optimizing the design criteria of such systems. From our optimization scheme, we obtain some fresh insight into the performance of OOCs with [lambda] [greater than or equal to] 1. In particular, we can obtain some simple relations between [P.sub.e min] (minimum error rate), [L.sub.min] (minimum required OOC length), and [N.sub.max] (maximum number of interfering users to be supported), which are the most desired parameters for any OCDMA system design. Furthermore, we show that in most practical cases, OOCs with [lambda] = 2, 3 perform better than OOCs with [lambda] = 1, while having a much bigger cardinality. Finally, we show that an upper bound on the maximum weight of OOCs are on the order of [square root of 2[lambda]L] where L is the length of the OOCs. Index Terms--Generalized OOCs, optical AND logic gate receiver structure, optical code-division multiple-access (OCDMA), optical orthogonal codes (OOCs), optimum auto- and cross-correlation value, optimum weight.

Published
2006

49. Outer-product matrix representation of optical orthogonal codes

Author

Charmchi, Hossein and Salehi, Jawad A.

Subjects
Code Division Multiple Access technology, Fiber transmission equipment, Circuit designer, Integrated circuit design, CDMA technology -- Analysis, Fiber optic networks -- Analysis, Circuit design -- Analysis
Abstract

In this letter, we introduce a whole new approach in defining and representing optical orthogonal codes (OOCs), namely, outer-product matrix representation. Instead of applying commonly used approaches based on inner product to construct OOC codes, we use the newly defined approach to obtain a more efficient algorithm in constructing and generating OOC codes. The outer-product matrix approach can obtain a family of OOC codes with a cardinality closer to the Johnson upper bound, when compared with the previously defined accelerated greedy algorithm using the inner-product approach. We believe the new look introduced in this letter on OOCs could help to devise new approaches in designing and generating OOC codes, using the rich literature in matrix algebra. Index Terms--Design techniques, optical code-division multiple access (CDMA), optical networks, optical orthogonal codes (OOCs).

Published
2006

50. Multiple-shift code acquisition of optical orthogonal codes in optical CDMA systems

Author

Keshavarzian, Abtin and Salehi, Jawad A.

Subjects
Code Division Multiple Access technology, Synchronous communications -- Research, Functions, Orthogonal -- Usage, CDMA technology -- Research
Abstract

In this paper, we introduce a new and advanced algorithm, namely, multiple-shift algorithm for code acquisition in optical code-division multiple access (CDMA) systems using unipolar optical orthogonal codes (OOCs) as signature sequences. We analyze the performance of the newly proposed algorithm and obtain a bound on its performance and show its advantage in reducing the mean time of synchronization when compared with other synchronization methods. The algorithm can be used with many different receiver structures, like active or passive correlator with or without hardlimiter(s). However, in this paper, we only consider the simple active correlator structure for further discussions and analysis. Index Terms--Code acquisition and synchronization, code-division multiple access (CDMA), optical CDMA, optical orthogonal codes (OOCs).

Published
2005

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