TechScout/analyses/step_search_ec180d48.json

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    "understanding": "The capability need is for a technology that enhances Space Domain Awareness by enabling the detection and tracking of objects beyond the diffraction limit. This requires improving resolution, sensitivity, or other innovative approaches to overcome current limitations.",
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        "criterion": "Secondary capability that would be valuable is the ability to distinguish between different types of space objects (e.g., debris, satellites, etc.).",
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      "title": "A Comparable Study of CNN-Based Single Image Super-Resolution for Space ...",
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      "title": "Single-pixel super-resolution with a space-time ... - ResearchGate",
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      "snippet": "This work presents super - resolution (SR) tactile sensor arrays with sparsely distributed taxels powered by a universal intelligent framework. Such smart sensor sys-tems involve a general topological optimization strategy for taxel layout design and a deep learning model called self- attention-assisted tactile SR.",
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      "title": "Multiscale aperture synthesis imager - Nature Communications",
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      "title": "Terahertz radiation - Wikipedia",
      "snippet": "To overcome low resolution of the terahertz systems near-field terahertz imaging systems are under development. In nearfield imaging the detector ... Missing: LiFi | Show results with: LiFi",
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      "title": "Terahertz's silent revolution in physics, engineering, and ...",
      "snippet": "Sep 1, 2025 \u00b7 The four review articles systematically review critical advancements in Coherent detection of pulsed terahertz waves, Terahertz channels in atmospheric conditions, beam-scanning antenna technologies, and Terahertz metamaterial biosensors, establishing a unified framework for cross-domain research.",
      "url": "https://www.sciencedirect.com/science/article/pii/S2667325825002195",
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      "title": "Large-area photonic circuits for terahertz detection and beam ...",
      "snippet": "Jan 1, 2026 \u00b7 Here, we demonstrate an integrated photonic architecture in thin-film lithium niobate that addresses these challenges by exploiting the electro-optic modulation induced by a terahertz signal onto...",
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      "title": "Terahertz Radar: Piercing the Veil on Stealth, Space Debris ...",
      "snippet": "Jan 8, 2026 \u00b7 In practice, this allows terahertz systems to deliver fine-grained images of objects while remaining safe for human exposure. Combined with the vast bandwidth available at these frequencies, THz technology is creating entirely new possibilities for detection , identification, and communication.",
      "url": "https://idstch.com/strategy-policy-governance/geopolitics-strategy-technological-rivalries/terahertz-radar-detecting-stealth-aircrafts-imaging-objects-behind-walls-detect-hidden-militants-tanks-behind-thick-cloud-smoke-dust/",
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      "title": "UCLA Engineers Develop Terahertz Imaging System Capable of ...",
      "snippet": "Jan 16, 2024 \u00b7 A research team led by Mona Jarrahi, and Aydogan Ozcan, both electrical and computer engineering professors at the UCLA Samueli School of Engineering, has invented a new terahertz focal-plane array to solve this problem.",
      "url": "https://samueli.ucla.edu/ucla-engineers-develop-terahertz-imaging-system-capable-of-capturing-real-time-3d-multi-spectral-images-for-the-first-time/",
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      "title": "Terahertz (THz) Wireless Systems for Space Applications",
      "snippet": "In this study, the THz wireless systems for potential space applications were investigated. The applicability of THz systems for space applications was analyzed. The link analysis indicates that MGbps data rates are achievable with compact sized high gain antennas.",
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      "title": "Terahertz communication: detection and signal processing",
      "snippet": "Jun 12, 2024 \u00b7 As submillimeter radiation, signal transportation via terahertz waves has several superior properties, including non-ionizing and easy penetration of non-metallic materials. This paper provides an overview of different terahertz detectors based on various mechanisms.",
      "url": "https://iopscience.iop.org/article/10.1088/1361-6528/ad4dad",
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      "title": "Research Advances and Perspectives on Terahertz Detection ...",
      "snippet": "Aug 22, 2024 \u00b7 Terahertz (THz) detection offers unique advantages in penetrating materials opaque to visible light and infrared radiation, which is crucial for applications in security, medical imaging, and material analysis.",
      "url": "https://advanced.onlinelibrary.wiley.com/doi/full/10.1002/apxr.202400094",
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      "title": "UCLA-developed terahertz sensors work at room temperature, unlike current technology that needs extreme cold",
      "snippet": "Jul 8, 2019 \u00b7 Researchers at the UCLA Samueli School of Engineering have developed an ultra-sensitive light-detecting system that could enable astronomers to view galaxies, ... Missing: LiFi | Show results with: LiFi",
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      "title": "Credit card-sized device focuses terahertz energy to generate high-resolution images",
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      "title": "With innovative tracking technology, SRI is addressing the hazard of space debris particles - SRI",
      "snippet": "February 5, 2025 - The SOTERIA team plans to collect and study data from multiple radar instruments to see how radar signals already being beamed into space from large transmitter antennas could incidentally bounce off small space debris and return to different receiver antennas, thus boosting tracking potential. To this end, SRI researchers plan to run a test using SRI\u2019s steerable radio telescope \u2014 nicknamed the Dish and housed on Stanford University land \u2014 as the receiver.",
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      "title": "Space Debris Mapping: AI Solutions for Tracking & Management",
      "snippet": "December 13, 2024 - These algorithms are capable of identifying small objects, predicting their trajectories, and detecting potential collisions, providing critical insights that can help avoid future space accidents. AI-driven image recognition systems can analyze data from space-based cameras and telescopes, distinguishing between actual debris and other objects in space, such as asteroids or meteoroids.",
      "url": "https://flypix.ai/blog/space-debris-mapping/",
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      "title": "Space Surveillance payload camera breadboard: Star tracking and debris detection algorithms - ScienceDirect",
      "snippet": "August 23, 2023 - ASTRiDE and the Hybrid time-index algorithm were evaluated for debris detection. The chosen algorithms were tested using the breadboard camera observations done at Observat\u00f3rio do Parque E\u00f3lico de Vila Nova de Gaia, Miranda do Corvo, Portugal.",
      "url": "https://www.sciencedirect.com/science/article/abs/pii/S0273117723006816",
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      "title": "Space Debris Detection and Positioning Technology Based on Multiple Star Trackers",
      "snippet": "April 1, 2022 - In this paper, we propose a multi-star space debris detecting and positioning method with constant geocentric observation. Using the multi-star tracker joint positioning method, the angle measurement data of the star tracker is converted into the spatial coordinates of the target. In addition, the Gaussian MMSE difference correction algorithm is used to realize the target positioning of multiple optical observations, and the spatial target position information of the multi-frame images is fused, thus completing the solution of the orbit equation.",
      "url": "https://www.mdpi.com/2076-3417/12/7/3593",
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      "title": "Role of Radio Telescopes in Space Debris Monitoring: Current Insights and Future Directions - PMC",
      "snippet": "The authors further validated the algorithm by applying it to a real measurement campaign at MWA conducted in 2018 and comparing it with the standard IOD method, such as Herrick-Gibbs, demonstrating the practical implementation of the algorithm, which further enhances the accuracy of debris detection [82]. While the authors proposed ways to constrain the search space, it may still require significant processing power for practical implementation. Another measurement campaign was conducted in December 2019 using four transmitters (Geraldton, Perth, Albany, Mount Gambier) [17], and one of the detected targets, COSMOS 1707, was tracked for almost 90 s.",
      "url": "https://pmc.ncbi.nlm.nih.gov/articles/PMC12074451/",
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      "title": "Deep learning\u2010based space debris detection for space situational awareness: A feasibility study applied to the radar processing - Massimi - 2024 - IET Radar, Sonar & Navigation - Wiley Online Library",
      "snippet": "March 6, 2024 - Therefore, it is crucial to be aware of the space situation and to develop new algorithms for the defence of space infrastructures such as satellite constellations. In this context, this paper proposed a feasibility study about the adoption of DL techniques for small debris detection in monostatic pulse-Doppler radar and radio-telescopes. We modelled the European TIRA radio-telescope in tracking mode to produce training and testing data.",
      "url": "https://ietresearch.onlinelibrary.wiley.com/doi/10.1049/rsn2.12547",
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      "title": "Space-based debris trajectory estimation using vision sensors and track-based data fusion techniques - ScienceDirect",
      "snippet": "January 18, 2025 - This study proposes and rigorously compares three distinct data fusion methodologies\u2014 Measurement Fusion-1 (MF-1), Measurement Fusion-2 (MF-2), and Track-to-Track (T2T) fusion \u2014examining their impact on tracking accuracy across varying ...",
      "url": "https://www.sciencedirect.com/science/article/pii/S0094576525000396",
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      "title": "A Robust Vision-based Algorithm for Detecting and ...",
      "snippet": "Moreover, we optimize and validate the performance of the algorithm using testing capabilities and space debris \u00b7 images provided by the MSFC. The MSFCs one-of-a-kind Dynamic Star Field Simulator (DSFS) uses a high resolution \u00b7 large monochrome display and a custom collimator capable of projecting realistic star images with simple orbital \u00b7 debris spots (down to star magnitude 11-12) into a passive orbital detection and tracking ...",
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