{ "id": "bd16a98c", "capability_gap": "Need a technology that improves Space Domain Awareness for objects beyond the diffraction limit", "timestamp": "2026-01-13T12:55:17.423360", "decomposition": { "original_query": "Need a technology that improves Space Domain Awareness for objects beyond the diffraction limit", "understanding": "The capability gap requires a technology that improves Space Domain Awareness (SDA) for objects beyond the diffraction limit, which is typically achieved through optical or radar-based methods. However, these traditional approaches have limitations in terms of resolution and sensitivity. 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(NYSE: BKSY) signed a seven-figure Gen-2 space domain awareness expansion contract with HEO to provide fully-automated low-latency non-Earth imaging (NEI) services for defense, intelligence and ...", "source_type": "news", "source": "DuckDuckGo", "url": "https://www.businesswire.com/news/home/20250819468601/en/BlackSky-Signs-Seven-Figure-Space-Domain-Awareness-Expansion-Contract-with-HEO-for-Fully-Automated-Non-Earth-Imaging-Missions", "score": 0.6660165798384056, "relevance_score": 0.8, "trl_estimate": null, "award_amount": null, "published_date": "2025-08-19T08:30:00+00:00", "award_id": null, "patent_number": null }, { "id": "bd16a98c-1", "title": "Far-field Imaging beyond Diffraction Limit Using Single Radar", "organization": "Unknown", "description": "Here, we propose to solve this challenging problem using a single radar system consisting of a spatial-temporal resonant aperture antenna (referred to as the slavery antenna) and a broadband horn antenna (referred to as the master antenna).", "source_type": "academic", "source": "DuckDuckGo", "url": "https://arxiv.org/pdf/1406.2168", "score": 0.6425, "relevance_score": 0.8, "trl_estimate": null, "award_amount": null, "published_date": null, "award_id": null, "patent_number": null }, { "id": "bd16a98c-2", "title": "Optical superoscillation technologies beyond the diffraction ...", "organization": "Optical superoscillation technologies", "description": "Oct 25, 2021 \u00b7 Numerical experiments on imaging of a dimer have demonstrated resolving powers better than \u03bb /200 \u2014 two orders of magnitude beyond the conventional \u2018 diffraction limit \u2019 of \u03bb /2.", "source_type": "academic", "source": "DuckDuckGo", "url": "https://www.nature.com/articles/s42254-021-00382-7", "score": 0.6425, "relevance_score": 0.8, "trl_estimate": null, "award_amount": null, "published_date": null, "award_id": null, "patent_number": null }, { "id": "bd16a98c-3", "title": "Over-the-horizon radar - Wikipedia", "organization": "Wikipedia Over-the-horizon", "description": "Over-the-horizon radar (OTH), sometimes called beyond the horizon radar (BTH), is a type of radar system with the ability to detect targets at very long ranges, typically hundreds to thousands of kilometres, beyond the radar horizon, which is the distance limit for ordinary radar.", "source_type": "web", "source": "DuckDuckGo", "url": "https://en.wikipedia.org/wiki/Over-the-horizon_radar", "score": 0.605, "relevance_score": 0.8, "trl_estimate": null, "award_amount": null, "published_date": null, "award_id": null, "patent_number": null }, { "id": "bd16a98c-4", "title": "Optical super-resolution imaging: A review and perspective", "organization": "Unknown", "description": "Dec 1, 2024 \u00b7 In this comprehensive review, we delve into super-resolution optical imaging techniques and their diverse applications.", "source_type": "web", "source": "DuckDuckGo", "url": "https://www.sciencedirect.com/science/article/pii/S0143816624005141", "score": 0.605, "relevance_score": 0.8, "trl_estimate": null, "award_amount": null, "published_date": null, "award_id": null, "patent_number": null }, { "id": "bd16a98c-5", "title": "Super-resolution diffractive neural network for all-optical ... Seven decades of image super-resolution: achievements ... Optical super-resolution imaging: A review and perspective Far-field Imaging beyond Diffraction Limit Using Single Radar Over-the-horizon radar - Wikipedia BoostRad: Enhancing Object Detection by Boosting Radar ... Optical superoscillation technologies beyond the diffraction ...", "organization": "Over-the-horizon", "description": "Jul 10, 2024 \u00b7 To address these challenges, we propose to construct super-resolution diffractive neural networks (S-DNN) for the all-optical DOA estimation over the broadband frequency range with angular... Jul 18, 2024 \u00b7 Super-resolution imaging has, for more than seventy years, gradually evolved to produce advanced methods for enhancing the resolution of images beyond the diffraction limits . Notwithstanding its foreseeable practical capabilities, we noted that this technology has received undeserved attention. Dec 1, 2024 \u00b7 In this comprehensive review, we delve into super-resolution optical imaging techniques and their diverse applications. Here, we propose to solve this challenging problem using a single radar system consisting of a spatial-temporal resonant aperture antenna (referred to as the slavery antenna) and a broadband horn antenna (referred to as the master antenna). Over-the-horizon radar (OTH), sometimes called beyond the horizon radar (BTH), is a type of radar system with the ability to detect targets at very long ranges, typically hundreds to thousands of kilometres, beyond the radar horizon, which is the distance limit for ordinary radar. Automotive radars play an important role in autonomous driving systems, offering extended detection range and re-silience to adverse weather and lighting conditions. These radars emit RF signals, which interact with objects and bounce back to the receiving antennas as echoes. 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Interest in such techniques comes from the fact that there usually is a physical limit on the highest possible resolution a sensing system can achieve. To be concrete, the spatial resolution of an imaging device may be measured by how closely ...", "source_type": "academic", "source": "DuckDuckGo", "url": "https://math.nyu.edu/~cfgranda/pages/stuff/super-res.pdf", "score": 0.4325, "relevance_score": 0.2, "trl_estimate": null, "award_amount": null, "published_date": null, "award_id": null, "patent_number": null }, { "id": "bd16a98c-13", "title": "PDF Super-Resolution Ultrasound Imaging: The Quest for Microvessels", "organization": "SES S.A.", "description": "One potential approach to solve this critical imag-ing issue is a technique referred to as super resolution ultrasound imaging , often referred to as ultrasound localization microscopy (ULM). 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Recommendation systems can precisely target propaganda and misinformation for maximum effect.", "source_type": "web", "source": "DuckDuckGo", "url": "https://en.wikipedia.org/wiki/Artificial_intelligence", "score": 0.395, "relevance_score": 0.2, "trl_estimate": null, "award_amount": null, "published_date": null, "award_id": null, "patent_number": null }, { "id": "bd16a98c-23", "title": "Domain - Aware Quantum Circuits (DAQC) Set New QML Records", "organization": "Aware Quantum Circuits", "description": "Domain - Aware Quantum Circuits DAQC reach new performance the power of domain -specific quantum architectures in machine learning .You can also read Amaravati CRDA Launches Quantum Valley with \u20b9103.96 Crore. 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Scalable quantum technologies such as quantum computers will require vast numbers of quantum devices to be characterized and tuned.", "source_type": "web", "source": "DuckDuckGo", "url": "https://www.techexplorist.com/machine-learning-helps-measure-quantum-dots-automatically/26698/", "score": 0.395, "relevance_score": 0.2, "trl_estimate": null, "award_amount": null, "published_date": null, "award_id": null, "patent_number": null }, { "id": "bd16a98c-30", "title": "7 Types of AI and Their Crucial Role in Shaping Technology", "organization": "Crucial Role in Shaping Technology", "description": "Explore the types of artificial intelligence shaping industries today, including computer vision and object recognition . 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