Performance Analysis of Joint Radar and Communication using OFDM and OTFS

@article{Gaudio2019PerformanceAO,
  title={Performance Analysis of Joint Radar and Communication using OFDM and OTFS},
  author={Lorenzo Gaudio and Mari Kobayashi and Bj{\"o}rn Bissinger and G. Caire},
  journal={2019 IEEE International Conference on Communications Workshops (ICC Workshops)},
  year={2019},
  pages={1-6}
}
We consider a joint radar estimation and communication system using orthogonal frequency division multiplexing (OFDM) and orthogonal time frequency space (OTFS) modulations. The scenario is motivated by vehicular applications where a vehicle equipped with a mono-static radar wishes to communicate data to its target receiver, while estimating parameters of interest related to this receiver. By focusing on the case of a single target, we derive the maximum likelihood (ML) estimator and the Cramér… 
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References

SHOWING 1-10 OF 13 REFERENCES

Orthogonal Time Frequency Space (OTFS) Modulation Based Radar System

This paper proposes a novel efficient OTFS-based matched filter algorithm for target range and velocity estimation in radar systems, and demonstrates the performance of the proposed algorithm using numerical results under different system settings.

Delay and Doppler processing for multi-target detection with IEEE 802.11 OFDM signaling

  • D. NguyenR. Heath
  • Business
    2017 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)
  • 2017
The feasibility of extending IEEE 802.11p short-range communication in vehicles to automotive radio detection and ranging (radar) functionality is studied and the estimation of signal parameters via rotational invariance technique (ESPRIT) for concurrent multi-target detection and range/velocity estimation is applied.

IEEE 802.11ad-Based Radar: An Approach to Joint Vehicular Communication-Radar System

The proposed IEEE 802.11ad-based radar meets the minimum accuracy/resolution requirement of range and velocity estimates for LRR applications and exploits the preamble of a single-carrier physical layer frame, which consists of Golay complementary sequences with good correlation properties that make it suitable for radar.

OFDM Radar Algorithms in Mobile Communication Networks

OfDM-based radar has been suggested several times independently in the last decade, but many important questions remain unanswered, so one solution is to use OFDM waveforms, which nowadays are commonly used in communications standards already.

Orthogonal Time Frequency Space Modulation

Results show that even at very high Dopplers (500 km#x002F;h), OTFS approaches channel capacity through linear scaling of throughput with the MIMO order, whereas the performance of OFDM under typical design parameters breaks down completely.

Interference Cancellation and Iterative Detection for Orthogonal Time Frequency Space Modulation

This paper derives the explicit input–output relation describing OTFS modulation and demodulation (mod/demod) and analyzes the cases of ideal pulse-shaping waveforms that satisfy the bi-orthogonality conditions and those which do not.

Joint State Sensing and Communication: Optimal Tradeoff for a Memoryless Case

The capacity-distortion tradeoff is defined as the best achievable rate below which a message can be conveyed reliably while satisfying some distortion constraint on state sensing, and an iterative algorithm is proposed to optimize the input probability distribution.

Automotive Radars: A review of signal processing techniques

Various aspects of automotive radar signal processing techniques are summarized, including waveform design, possible radar architectures, estimation algorithms, implementation complexity-resolution trade off, and adaptive processing for complex environments, as well as unique problems associated with automotive radars such as pedestrian detection.

MIMO Radar with Colocated Antennas

It is shown that the waveform diversity offered by such a MIMO radar system enables significant superiority over its phased-array counterpart, including much improved parameter identifiability, direct applicability of adaptive techniques for parameter estimation, as well as superior flexibility of transmit beampattern designs.

Ieee 802.11ad: introduction and performance evaluation of the first multi-gbps wifi technology

Multi-Gbps communication is the next frontier in high-speed local and personal wireless technologies, which will offer the necessary foundation for a new wave of applications such as wireless