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標題: | 基於加權 SPICE 架構發展單位元超寬頻雷達系統的距離及增益估測 Range and Gain Estimation of One-Bit Ultra-Wideband Radar Systems via the Weighted SPICE Framework |
作者: | Hou-Min Wang 王厚閔 |
指導教授: | 劉俊麟(Chun-Lin Liu) 劉俊麟(Chun-Lin Liu | chunlinliu@ntu.edu.tw | 0000-0003-3135-9684), |
關鍵字: | 減少無線頻率干擾,單位元超寬頻雷達,復原稀疏雷達回波,距離估測,回波增益估測,網格細化,單位元加權 SPICE 架構, RFI mitigation,one-bit UWB radar,sparse radar echo recovery,range estimation,echo gain estimation,grid refinement,one-bit weighted SPICE framework, |
出版年 : | 2022 |
學位: | 碩士 |
摘要: | 超寬頻(Ultrawideband, UWB)雷達系統是指發射訊號為極短脈衝且具有大頻寬特性的雷達系統。與具有高解析度量化水平的傳統超寬頻雷達系統相比,單位元超寬頻雷達系統具有一些優勢,包括降低計算時間和空間儲存成本、易於電路實現以及功耗更低。因此,在本論文中,我們主要討論單位元超寬頻雷達系統。 然而,在超寬頻雷達系統中應適當處理強射頻干擾 (Radio Frequency Interference, RFI)。 射頻干擾的存在大幅降低接收訊號的訊號與干擾加雜訊比(Signal-to-Interference-plus-Noise Ratio, SINR),且增加雷達回波恢復的難度。為了有效降低傳統超寬頻雷達系統中射頻干擾的影響,已經開發了許多方法,例如利用射頻干擾估計方法來提取射頻干擾來源和使用濾波技術抑制射頻干擾的來源。直到最近幾年,Tianyi Zhang 等人分別提出了兩種演算法來解決超寬頻雷達中如何抑制射頻干擾和恢復雷達回波的問題,特別是應用了單位元加權 SPICE 框架的演算法。與以往的 1bMMRELAX-1bBIC 和稀疏方法相結合的演算法相比,該演算法不僅可以有效減少計算時間,而且可以更準確地恢復雷達回波訊號。 本論文旨在估計單位元超寬頻雷達系統中期望目標的距離和相應回波訊號的增益。我們開發了一個基於單位元加權 SPICE 框架演算法的估計過程。此外,正如我們所觀察到的,單位元加權 SPICE 演算法的參數估計是利用均勻和精細的網格點來實現目的。因此,我們提出了一種動態網格細化方法,不僅有效地減少計算時間,而且保持恢復回波訊號的性能。在某些情況下,它的性能甚至優於原始架構。 此外,在單位元加權 SPICE 框架下,我們可以分別採用 IAA、LIKES、SLIM 和 SPICE 的權重使其具有不同的性能。在這裡,我們還找到一個新的權重具有更好恢復回波訊號的性能。我們稱這個新的權重選擇為1bCREEP。模擬結果中可以發現利用1bCREEP權重於新提出的架構中,總體上可以具有更好的距離和增益估計效果。 Ultra-wideband (UWB) radar systems refer to radar systems whose transmitted signals are extremely short pulses and have large bandwidth properties. One-bit UWB radar systems have some advantages compared to conventional UWB radar systems with high-resolution quantization levels. These advantages include reduced computation time and space storage cost, more straightforward circuit implementation, and less power consumption. Therefore, in this thesis, we mainly discuss one-bit UWB radar systems. However, strong radio frequency interference (RFI) should be handled appropriately in UWB radar systems. The existence of RFI significantly reduces the signal-to-interference-plus-noise ratio (SINR) of the received signals and increases the difficulty of recovering radar echo. Many ways have been developed, such as extracting RFI sources based on RFI estimation methods and using filtering techniques to suppress RFI sources, to effectively reduce the impact of RFI in conventional UWB radar systems. In recent years, Tianyi Zhang et al. proposed two algorithms for RFI mitigation and radar echo recovery in one-bit UWB radar systems, especially the one-bit weighted SPICE framework algorithm. Compared to the previous algorithm that combined the 1bMMRELAX-1bBIC and the sparse method, the one-bit weighted SPICE framework algorithm can effectively reduce the computation time and recover radar echoes more accurately. This thesis aims to estimate the range of the desired target and the gain of the corresponding echo signal for one-bit UWB radar systems. We develop an estimation process based on the one-bit weighted SPICE framework-based algorithm. Besides, as we observed, the parameter estimation of the one-bit weighted SPICE framework-based algorithm utilizes uniform and fine grid points to achieve the goal. As a result, we propose a dynamic grid refinement method to effectively reduce computation time and maintain echo recovery performance. In some cases, it outperforms the original architecture. Furthermore, under the one-bit weighted SPICE framework, we can separately adopt the weight of IAA, LIKES, SLIM, and SPICE to make it perform differently. Here, we also obtain a new weight with better echo recovery performance. We call this new weight choice 1bCREEP. The simulation results show that the proposed architecture that uses the 1bCREEP weight can have a better range and gain estimation effect. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/86125 |
DOI: | 10.6342/NTU202203001 |
全文授權: | 同意授權(全球公開) |
電子全文公開日期: | 2027-09-07 |
顯示於系所單位: | 電信工程學研究所 |
文件中的檔案:
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U0001-3108202209113300.pdf 此日期後於網路公開 2027-09-07 | 16.03 MB | Adobe PDF |
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