Litcius/Paper detail

Low-Dimensional Subspace Estimation of Continuous-Doppler-Spread Channel in OTFS Systems

Huiyang Qu, Guanghui Liu, Lei Zhang, Muhammad Ali Imran, Shan Wen

2021IEEE Transactions on Communications48 citationsDOI

Abstract

Orthogonal time frequency space (OTFS) has shown to be a promising modulation technology that achieves the robust wireless transmission in high-mobility environments. The high mobility incurred Doppler effect in OTFS system, is represented as a continuous and relatively large band in the Doppler frequency. It yields the equivalent channel responses (ECRs) in the system change significantly within one symbol block, posing a challenge to channel estimation (CE) or tracking. In order to tackle this issue, in this paper, a set of transform-domain basis functions is designed to span a low-dimensional subspace for modeling the OTFS channel. Then, the CE can be performed by estimating a few projection coefficients of ECRs in the developed subspace, with training pilots. According to the individual transmission characteristic of OTFS signal, we propose a corner-inserted pilot pattern, which targets the low pilot overhead and satisfactory CE performance. Moreover, an OTFS signal detector, leveraging the time-domain channel equalization, linear-complexity interference cancellation and delay-Doppler domain maximal ratio combining detection, is developed to retrieve the transmitted data symbols. The simulations show the precisely estimated ECRs enable the detector to ideally demodulate 256-ary quadrature amplitude modulation signaling, under a velocity of 550 km/h at 5.9 GHz carrier frequency.

Topics & Concepts

Electronic engineeringChannel (broadcasting)SC-FDETransmission (telecommunications)DetectorSubspace topologyComputer scienceAlgorithmDoppler effectOrthogonal frequency-division multiplexingEngineeringTelecommunicationsArtificial intelligencePhysicsAstronomyPAPR reduction in OFDMOptical Wireless Communication TechnologiesAdvanced Power Amplifier Design