Direction-of-Arrival Estimation With Virtual Antenna Array: Observability Analysis, Local Oscillator Frequency Offset Compensation, and Experimental Results

Cheng, Jianqiao; Guan, Ke; Quitin, François

doi:10.1109/tim.2021.3088434

Cited by 12 publications

(4 citation statements)

References 43 publications

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“…6. It can be observed that when we rise the value of the time difference ∆t from 0 to 4 s, we notice that the correlation properties in time domain decrease obviously, which nicely match with the results in [47] very well. Furthermore, we can notice that the temporal correlation of the RIS propagation link is obviously lower than that of the NLoS propagation link, which shows the superiority of the adoption of the RIS into high-speed railway communication systems.…”

Section: B Temporal Acfssupporting

confidence: 84%

A Novel 3D Geometry-Based Propagation Model for RIS-Aided Macrocell High-Speed Railway Communication Environments

Zhou,

Zhao,

Zhao

et al. 2023

Preprint

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Reconfigurable intelligence surface (RIS) consists of a large number of low-cost passive reflecting elements has attracted significant attention from communication communities, which is mainly due to its ability to substantially improve the communication performance. In light of this, we develop a three-dimensional (3D) geometry-based multiple-input multiple-output (MIMO) propagation model in this article, which is mainly suitable for describing the high-speed railway communications assisted by RIS in macrocell environments, such as train-to-train scenarios. In such propagation model, the waves emitted from the mobile transmitter experience non line of sight (NLoS) propagation links before reaching the mobile receiver, as well as the RIS propagation links before reaching the receiver. We compute the expressions of the RIS-assisted high-speed railway channel propagation properties, for example, spatial-time (ST) cross-correlation functions (CCFs), between different propagation links. Then, we study the temporal auto-correlation functions (ACFs) of the propagation links in the provided propagation model for distinct movement time instants. Analysis shows that the communication performance can be enhanced by rising the number and the size of RIS reflecting elements, and it is validated by numerical simulation results.

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Section: B Temporal Acfssupporting

confidence: 84%

A Novel 3D Geometry-Based Propagation Model for RIS-Aided Macrocell High-Speed Railway Communication Environments

Zhou,

Zhao,

Zhao

et al. 2023

Preprint

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“…Real-world applications face complications from nonidentical clock frequencies in transmitters (Tx) and receivers (Rx), due to factors like manufacturing tolerances, temperature fluctuations, and random frequency drifts [20]. This CFO subsequently introduces time errors into the derived ToF.…”

Section: Device Calibrationmentioning

confidence: 99%

Ultra-Wideband Localization: Advancements in Device and System Calibration for Enhanced Accuracy and Flexibility

Yudanto,

Cheng,

Hostens

et al. 2023

J. Ind. Sea. Pos. Nav.

Self Cite

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We show how the state of use of Ultra-Wide-Band (UWB) system is improved by removing systematic errors (bias) on device-level to improve accuracy and apply simple procedure to automate calibration process on the system-level to reduce manual efforts. On device-level, we discern the different sources of bias and establish a method that determines their values, for specific hardware and for individual devices. Our comprehensive approach includes simple, easy-to-implement methodologies for compensating these biases, resulting in a significant improvement in ranging accuracy. The mean ranging error has been reduced from 0.15m to 0.007m, and the 3-sigma error margin has decreased from 0.277m to approximately 0.103m. To demonstrate this, a dedicated test setup was built. On system-level, we developed a method that avoids measuring all anchor positions one by one by exploiting increased redundancy from anchor-to-anchor and anchorto-tag ranges, and automatically calculating the anchors topology (relative positions between each other). Nonlinear least squares (NLS) provides the maximum likelihood estimate (MLE) of the anchor positions and their uncertainty. This approach not only refines the accuracy of tag localization but also offers a predictive measure of its uncertainty, giving users a clearer understanding of the system's capabilities in real-world scenarios. This system-level enhancement is further complemented by the integration of a ranging protocol called Automatic UWB Ranging Anyto-any (AURA), which offers additional layers of flexibility, reliability and ease of deployment to the UWB localization process.

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“…We believe the solution is to implement the MIMO system with a virtual antenna array (VAA) [13][14][15][16]. Compared to traditional antenna arrays (TAA), VAA use fewer radiators to generate a more focused beam pattern as though it was generated from a much larger array.…”

Section: Introductionmentioning

confidence: 99%

Virtual antenna array for reduced energy per bit transmission at Sub-5 GHz mobile wireless communication systems

Alibakhshikenari¹,

Virdee²,

Mariyanayagam³

et al. 2023

Alexandria Engineering Journal

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Direction-of-Arrival Estimation With Virtual Antenna Array: Observability Analysis, Local Oscillator Frequency Offset Compensation, and Experimental Results

Cited by 12 publications

References 43 publications

A Novel 3D Geometry-Based Propagation Model for RIS-Aided Macrocell High-Speed Railway Communication Environments

A Novel 3D Geometry-Based Propagation Model for RIS-Aided Macrocell High-Speed Railway Communication Environments

Ultra-Wideband Localization: Advancements in Device and System Calibration for Enhanced Accuracy and Flexibility

Virtual antenna array for reduced energy per bit transmission at Sub-5 GHz mobile wireless communication systems

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