Your search keyword '"Seyyed Mohammad Karbasi"' showing total 7 results

1. MIMO radar signal design to improve the MIMO ambiguity function via maximizing its peak

Author

Mohammad Mahdi Nayebi, Seyyed Mohammad Karbasi, Mojtaba Radmard, Mohammad Mahdi Chitgarha, and Mohammad Nazari Majd

Subjects

3G MIMO, Engineering, Ambiguity function, media_common.quotation_subject, MIMO, 02 engineering and technology, law.invention, 0203 mechanical engineering, law, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Electrical and Electronic Engineering, Radar, Computer Science::Information Theory, media_common, 020301 aerospace & aeronautics, Signal design, business.industry, Detector, 020206 networking & telecommunications, Ambiguity, Control and Systems Engineering, Signal Processing, Computer Vision and Pattern Recognition, Performance improvement, business, Software

Abstract

One of the important obstacles in MIMO (Multiple Input Multiple Output) radars is the issue of designing proper transmit signals. Indeed, the capability of signal design is a significant advantage in MIMO radars, through which, the system can achieve much better performance. Many different aspects of this performance improvement have been considered yet, and the transmit signals have been designed to attain such goal, e.g., getting higher SNR or better detector's performance at the receiver. However, an important tool for evaluating the radar's performance is its ambiguity function. In this paper, we consider the problem of transmit signal design, in order to optimize the ambiguity function of a distributed MIMO radar system via maximizing its peak. HighlightsTransmit signals are designed to maximize the ambiguity function's peak of a WS-MIMO radar.Signal design is done for three cases of single target, multi-target, and prioritized ambiguity function.It is shown that in spite of increasing the number of antennas of MIMO radar, signal design does not provide diversity gain.Through simulations, it is shown that better performance can be achieved by the proposed signal design to maximize the AF's peak.

Published

2016

2. Knowledge‐based design of space–time transmit code and receive filter for a multiple‐input–multiple‐output radar in signal‐dependent interference

Author

Mohammad Hassan Bastani, Augusto Aubry, Mohammad Mahdi Naghsh, Vincenzo Carotenuto, Seyyed Mohammad Karbasi, Karbasi, Seyyed Mohammad, Aubry, Augusto, Carotenuto, Vincenzo, Naghsh, Mohammad Mahdi, and Bastani, Mohammad Hassan

Subjects

Computational complexity theory, Single-input single-output system, Iterative method, Control theory, MIMO, Convex optimization, Signal-to-interference-plus-noise ratio, Filter (signal processing), Electrical and Electronic Engineering, Interference (wave propagation), Algorithm, Computer Science::Information Theory, Mathematics

Abstract

The authors deal with the robust design of multiple-input–multiple-output (MIMO) space–time transmit code (STTC) and space–time receive filter (STRF) for a point-like target embedded in signal-dependent interference. Specifically, they assume that the radar exploits knowledge provided by dynamic environmental database, to roughly predict the actual scattering scenario. Then, they devise an iterative method to optimise the (constrained) STTC and the (constrained) STRF which sequentially improves the worst-case (over interfering scatterers statistics) signal-to-interference-plus-noise ratio (SINR). Each iteration of the algorithm is handled via solving two (hidden) convex optimisation problems. The resulting computational complexity is linear with the number of iterations and polynomial with the sizes of the STTC and the STRF. At the analysis stage, they assess the performance of the proposed algorithm in terms of the achieved SINR. They show that properly exploiting the spatial degrees of freedom offered by the MIMO system, it is possible to obtain considerable SINR gains with respect to the conventional single-input–single-output system. Moreover, their results highlight the capability of the proposed method to robustify the performance of the designed system against possible knowledge inaccuracies.

Published

2015

3. Data Fusion in MIMO DVB-T-Based Passive Coherent Location

Author

Mojtaba Radmard, Mohammad Mahdi Nayebi, and Seyyed Mohammad Karbasi

Subjects

3G MIMO, Computer science, Diversity gain, Transmitter, MIMO, Electronic engineering, Aerospace Engineering, DVB-T, Data_CODINGANDINFORMATIONTHEORY, Electrical and Electronic Engineering, Antenna diversity, Multi-user MIMO, Computer Science::Information Theory

Abstract

Efficient combination of MIMO (multiple-input multiple-output) and PCL (passive coherent location) ideas is expected to improve performance of localization schemes. While, in general, adding the number of transmit and receive antennas provides spatial diversity, it is possible to obtain similar effects by using multiple transmitters that are already transmitting standard signals (such as digital TV (DTV) transmission) in the environment (also known as illuminators of opportunity). However, in the case of passive schemes, it is not always possible to ensure that signals of different transmitters are orthogonal to each other. In such cases in which nonorthogonal transmitter signals are to be used, resolving signals of multiple transmitters reflected from multiple objects is not a trivial problem. One such scenario arises when transmitters of a single frequency network (SFN) are used. Consequently, in order to obtain the desired diversity gain and maintain the correct localization, it is necessary to develop proper techniques to assign each echo that arrives at the receivers to a given transmitter and a specific object that is to be localized. We propose a scheme that addresses the association problem in an efficient way.

Published

2013

4. MIMO ambiguity function optimization through waveform design

Author

Mojtaba Radmard, Seyyed Mohammad Karbasi, Mohammad Mahdi Nayebi, Mohammad Mahdi Chitgarha, and Mohammad Nazari Majd

Subjects

Scheme (programming language), 3G MIMO, Engineering, Ambiguity function, business.industry, MIMO, law.invention, Radar engineering details, law, Electronic engineering, Benchmark (computing), Waveform, Radar, business, computer, Physics::Atmospheric and Oceanic Physics, Computer Science::Information Theory, computer.programming_language

Abstract

An important tool for assessing a radar's performance is the ambiguity function. On the other hand, many different schemes have been designed for the transmit waveforms of a MIMO radar. For each one, a criterion has been chosen to improve the performace, e.g. achieving better missed detection. In this paper, considering the ambiguity function as the benchmark, we propose a waveform design scheme, which optimizes the ambiguity function of the MIMO radar system.

Published

2015

5. Optimal MIMO waveform design with controlled characteristics

Author

Mojtaba Radmard, M. H. Bastani, Mohammad Mahdi Nayebi, and Seyyed Mohammad Karbasi

Subjects

Engineering, Ambiguity function, business.industry, MIMO, Filter (signal processing), Passive radar, Filter design, Space-time adaptive processing, Signal-to-noise ratio, Control theory, Electronic engineering, Waveform, business, Computer Science::Information Theory

Abstract

In a MIMO (Multiple Input Multiple Output) radar system, proper design of transmit signal and receive filter is an advantageous tool to improve the detection performance. Thus, in this paper, we consider the problem of transmit code and receive filter design, in order to maximize the Signal to Noise Ratio (SNR) at the receiver while enforcing a similarity constraint between the transmit space-time code (STC) and a reference STC which has a desirable ambiguity function. We will show that by solving such constrained optimization problem through successive iterations, our proposed method leads to satisfactory results.

Published

2015

6. Constant-modulus waveform design for moving target detection in colocated MIMO radar

Author

Seyyed Mohammad Karbasi, M. H. Bastani, Mohammad Mahdi Naghsh, and Mohammad Mahdi Nayebi

Subjects

Space-time adaptive processing, Engineering, business.industry, Pulse-Doppler radar, MIMO, Electronic engineering, Modulus, Waveform, Mimo radar, Joint (audio engineering), business, Constant (mathematics), Computer Science::Information Theory

Abstract

In this paper, we devise a joint code-filter design method to optimize the signal-to-interference-plus-noise ratio (SINR) associated with the colocated MIMO radars. We consider constant-modulus wavefrom design for moving target detection and propose a cyclic algorithm to deal with the design problem.

Published

2015

7. Data association in multi-input single-output passive coherent location schemes

Author

Mojtaba Radmard, Babak Hossein Khalaj, Mohammad Mahdi Nayebi, and Seyyed Mohammad Karbasi

Subjects

Diversity gain, Transmitter, MIMO, Electronic engineering, Single-frequency network, Data_CODINGANDINFORMATIONTHEORY, Electrical and Electronic Engineering, MIMO-OFDM, Antenna diversity, Multi-user MIMO, Computer Science::Information Theory, Passive radar, Mathematics

Abstract

Efficient combination of multiple input multiple output (MIMO) and passive coherent location (PCL) ideas is expected to improve performance of localisation schemes. While using multiple antennas at transmit and receive sides provides spatial diversity, it is possible to obtain similar performance by using multiple transmitters, already transmitting standard signals (such as digital TV) in the environment (also known as illuminators of opportunity). However, in this case, it is not always possible to ensure that signals of different transmitters are orthogonal to each other. In such cases, resolving signals of multiple transmitters reflected from multiple objects is not a trivial problem. One such scenario arises when transmitters of a single frequency network (SFN) are used. Consequently, in order to obtain the desired diversity gain, it is necessary to develop proper techniques to assign each echo arriving at the receiver to a given transmitter and a specific object to be localised. In this paper, we propose a scheme that addresses the association problem in an efficient way. Also, we consider the case of multiple antennas only at the transmit side while using a single receiver, which is the case of a multi-input single-output (MISO) system, a subset of MIMO systems, in general.

Published

2012