https://evlachos.space/tags/thz/THzHugo Blox Builder (https://hugoblox.com)enMon, 01 Jun 2026 00:00:00 +0000https://evlachos.space/media/icon_hu_2beab1606e98fa9.pnghttps://evlachos.space/tags/thz/https://evlachos.space/post/papers/paper-submitted-isac26-sensing-thz-xlmimo/Mon, 01 Jun 2026 00:00:00 +0000https://evlachos.space/post/papers/paper-submitted-isac26-sensing-thz-xlmimo/<p>We submitted a new paper to the <strong>2026 IEEE International Symposium on Joint Communications and Sensing (ISAC 2026)</strong>:</p> <h3 id="sensing-aided-thz-xl-mimo-channel-estimation-via-biconvex-admm">Sensing-Aided THz XL-MIMO Channel Estimation via Biconvex ADMM</h3> <p><em>Evangelos Vlachos and George C. Alexandropoulos</em></p> <p>Terahertz XL-MIMO systems face a dual-wideband fading challenge: ultra-wide bandwidth introduces simultaneous spatial beam squint and temporal multipath spread, coupling angle and delay estimation across hundreds of antenna pairs. This work proposes a sensing-aided framework that exploits the base station&rsquo;s monostatic radar output to warm-start a biconvex ADMM algorithm, jointly recovering the channel matrix and the binary delay-support vector at no additional pilot overhead.</p> <p>Key contributions:</p> <ul> <li><strong>Binary delay-support structure</strong>: We show that the THz XL-MIMO dual-wideband channel concentrates onto a shared binary delay support of drastically reduced dimension, and develop a biconvex ADMM where iterative hard thresholding (IHT) exactly enforces this structure.</li> <li><strong>Sensing-aided warm start</strong>: The monostatic radar output initialises the delay-support estimate, yielding provably exact support recovery beyond a pilot-length threshold — with no extra pilot cost and simultaneously delivering the delay profile as a sensing output.</li> <li><strong>CRB proximity</strong>: The proposed estimator closely approaches the Cramér-Rao Bound, strictly outperforming sparse recovery and oracle-LS baselines in the barely-determined regime.</li> </ul>https://evlachos.space/publication/vlachos-sensing-thz-xlmimo-2026/Mon, 01 Jun 2026 00:00:00 +0000https://evlachos.space/publication/vlachos-sensing-thz-xlmimo-2026/<h2 id="key-contributions">Key Contributions</h2> <ul> <li><strong>Biconvex ADMM with binary support enforcement</strong>: We show that the THz XL-MIMO dual-wideband channel concentrates onto a shared binary delay support of drastically reduced dimension, and develop a biconvex ADMM where iterative hard thresholding (IHT) exactly enforces this structure — outperforming continuous-valued sparse recovery and oracle-LS baselines in the barely-determined regime.</li> <li><strong>Sensing-aided warm start at no pilot cost</strong>: The base station&rsquo;s monostatic radar output initialises the delay-support estimate, yielding provably exact support recovery beyond a pilot-length threshold, with no additional pilot overhead.</li> <li><strong>CRB proximity</strong>: The proposed estimator closely approaches the Cramér-Rao Bound and closes the ISAC sensing loop by delivering the recovered delay profile as a radar output.</li> </ul>