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◾ The first four digits correspond to the SPIE volume number. ◾ The last two digits indicate publication order within the volume using a Base 36 numbering system employing both numerals and letters. These two-number sets start with 00, 01, 02, 03, 04, 05, 06, 07, 08, 09, 0A, 0B ... 0Z, followed by 10-1Z, 20-2Z, etc.
The CID Number appears on each page of the manuscript. The complete citation is used on the first page, and an abbreviated version on subsequent pages. Numbers in the index correspond to the last two digits of the six-digit CID Number. Contents| SESSION 1 | PERVASIVE TECHNOLOGIES SUPPORTING RESPONSIVE SPACE | | 9085 02 | Effects of star crossings on the detection of dim objects in orbit and mitigation strategies for improving detection [9085-1] | | B. Gessel, S. Cain, Air Force Institute of Technology (United States) | | 9085 03 | Using ATCOM to enhance long-range imagery collected by NASA's flight test tracking cameras at Armstrong Flight Research Center [9085-2] | | A. Paolini, EM Photonics, Inc. (United States); D. Tow, NASA Armstrong Flight Research Ctr. (United States); E. Kelmelis, EM Photonics, Inc. (United States) | | 9085 04 | FalconSAT-7: a membrane space telescope [9085-3] | | G. Andersen, O. Asmolova, T. Dickinson, U.S. Air Force Academy (United States) | | 9085 05 | Design and operation of SUCHI: the space ultra-compact hyperspectral imager for a small satellite [9085-5] | | S. T. Crites, P. G. Lucey, R. Wright, J. Chan, H. Garbeil, K. A. Horton, A. Imai, E. J. Pilger, M. Wood, L. Yoneshige, Univ. of Hawai'i at Manoa (United States) | | SESSION 2 | RADIATION HARDENING AND SPACE WEATHER EFFECTS MITIGATION | | 9085 07 | Chalcogenide glass thin-film optics for infrared applications [9085-7] | | J. Nath, D. Panjwani, R. E. Peale, Univ. of Central Florida (United States); J. D. Musgraves, P. Wachtel, J. McKinley, IRradiance Glass, Inc. (United States) | | 9085 08 | AE9/AP9/SPM: new models for radiation belt and space plasma specification [9085-8] | | W. R. Johnston, Air Force Research Lab. (United States); T. P. O'Brien, The Aerospace Corp. (United States); G. P. Ginet, MIT Lincoln Lab. (United States); S. L. Huston, Atmospheric and Environmental Research, Inc. (United States); T. B. Guild, The Aerospace Corp. (United States); J. A. Fennelly, Air Force Research Lab. (United States) | | SESSION 3 | DUAL-USE CIVIL-MILITARY SENSORS AND SYSTEMS I | | 9085 0A | Development of a spherical aerial vehicle for urban search [9085-10] | | K. Hou, H. Sun, Q. Jia, Y. Zhang, Beijing Univ. of Posts and Telecommunications (China) | | 9085 0B | Using atmospheric polarization patterns for Azimuth sensing [9085-11] | | A. Lompado, T. M. Aycock, Polaris Sensor Technologies, Inc. (United States); B. M. Wheeler, Naval Surface Warfare Ctr. Dahlgren Div. (United States) | | 9085 0C | Membrane based thermoelectric sensor array for space debris detection [9085-12] | | F. Haenschke, E. Kessler, A. Ihring, Institut für Photonische Technologien e.V. (Germany); K. D. Bunte, C. Herbst, etamax space GmbH (Germany); M. Mohaupt, Fraunhofer-Institut für Angewandte Optik und Feinmechanik (Germany); T. Fichna, Technische Univ. Braunschweig (Germany); D. Hagedorn, Physikalisch-Technische Bundesanstalt (Germany); H.-G. Meyer, Institut für Photonische Technologien e.V. (Germany) | | 9085 0E | Constrained orbital intercept-evasion [9085-14] | | A. Zatezalo, Scientific Systems Co., Inc. (United States); D. Stipanović, Univ. of Illinois at Urbana-Champaign (United States); R. K. Mehra, Scientific Systems Co., Inc. (United States); K. Pham, Air Force Research Lab. (United States) | | 9085 0F | The art and science of missile defense sensor design [9085-15] | | B. K. McComas, Raytheon Missile Systems (United States) | | SESSION 4 | RESILIENT AND SECURE ARCHITECTURES AND PROCESSES FOR DUAL MILITARY-CIVIL SPACE OPERATIONS | | 9085 0I | SecureCPS: defending a nanosatellite cyber-physical system [9085-18] | | L. Forbes, H. Vu, Global InfoTek, Inc. (United States); B. Udrea, H. Hagar, Embry-Riddle Aeronautical Univ. (United States); X. D. Koutsoukos, Vanderbilt Univ. (United States); M. Yampolskiy, Vanderbilt Univ. (United States) and Univ. of South Alabama (United States) | | 9085 0J | A resilient and secure software platform and architecture for distributed spacecraft [9085-19] | | W. R. Otte, A. Dubey, G. Karsai, Vanderbilt Univ. (United States) | | 9085 0K | Cyber threat impact assessment and analysis for space vehicle architectures [9085-20] | | R. M. McGraw, M. J. Fowler, RAM Labs. (United States); D. Umphress, Auburn Univ. (United States); R. A. MacDonald, RAM Labs. (United States) | | 9085 0L | Building space operations resiliency with a multi-tier mission architecture [9085-21] | | J. Straub, The Univ. of North Dakota (United States) | | 9085 0M | An adaptive process-based cloud infrastructure for space situational awareness applications [9085-22] | | B. Liu, Y. Chen, Binghamton Univ. (United States); D. Shen, G. Chen, Intelligent Fusion Technology, Inc. (United States); K. Pham, E. Blasch, B. Rubin, Air Force Research Lab. (United States) | | 9085 0N | Securing resource constraints embedded devices using elliptic curve cryptography [9085-23] | | T. Tam, M. Alfasi, M. Mozumdar, California State Univ., Long Beach (United States) | | SESSION 5 | CONNECTIVITY AND DISSEMINATION FOR SPACE APPLICATIONS I | | 9085 0O | Simulation study of unmanned aerial vehicle communication networks addressing bandwidth disruptions [9085-24] | | S. Wei, L. Ge, W. Yu, Towson Univ. (United States); G. Chen, Intelligent Fusion Technology, Inc. (United States); K. Pham, E. Blasch, Air Force Research Lab. (United States); D. Shen, Intelligent Fusion Technology, Inc. (United States); C. Lu, Towson Univ. (United States) | | 9085 0P | Dynamic autonomous routing technology for IP-based satellite ad hoc networks [9085-25] | | X. Wang, Foresight Wireless, LLC (United States); J. Deng, Univ. of North Carolina at Greensboro (United States); T. Kostas, G. Rajappan, Foresight Wireless, LLC (United States) | | 9085 0Q | Toward effectiveness and agility of network security situational awareness using moving target defense (MTD) [9085-26] | | L. Ge, W. Yu, Towson Univ. (United States); D. Shen, G. Chen, Intelligent Fusion Technology, Inc. (United States); K. Pham, E. Blasch, Air Force Research Lab. (United States); C. Lu, Towson Univ. (United States) | | SESSION 6 | CONNECTIVITY AND DISSEMINATION FOR SPACE APPLICATIONS II | | 9085 0S | Quantum technology for aerospace applications [9085-28] | | B. Jia, Intelligent Fusion Technology, Inc. (United States); K. Pham, Air Force Research Lab. (United States); G. Chen, D. Shen, Z. Wang, G. Wang, Intelligent Fusion Technology, Inc. (United States); E. Blasch, Air Force Research Lab. (United States) | | 9085 0T | Polarization tracking for quantum satellite communications [9085-29] | | G. Wang, D. Shen, G. Chen, Intelligent Fusion Technology, Inc. (United States); K. Pham, E. Blasch, Air Force Research Lab. (United States) | | 9085 0U | Quantum key distribution for security guarantees over QoS-driven 3D satellite networks [9085-30] | | P. Wang, X. Zhang, Texas A&M Univ. (United States); G. Chen, Intelligent Fusion Technology, Inc. (United States); K. Pham, E. Blasch, Air Force Research Lab. (United States) | | 9085 0V | Resident space object tracking using an interacting multiple model mixing scheme [9085-31] | | Q. M. Lam, LexerdTek Corp. (United States) | | SESSION 7 | DUAL-USE CIVIL-MILITARY SENSORS AND SYSTEMS II | | 9085 0W | Towards large scale multi-target tracking [9085-32] | | B.-N. Vo, B.-T. Vo, Curtin Univ. (Australia); S. Reuter, Univ. Ulm (Germany); Q. Lam, Lexerdtek Corp. (United States); K. Dietmayer, Univ. Ulm (Germany) | | 9085 0X | Space object surveillance using incidental measurements from vehicle-board sensors [9085-33] | | S. Roy, Washington State Univ. (United States) | | 9085 0Y | A nano-satellite to study the Sun and the Earth [9085-34] | | M. Meftah, A. Irbah, A. Hauchecorne, L. Damé, A. Sarkissian, P. Keckhut, Univ. Versailles St-Quentin, LATMOS-IPSL, CNRS (France); P.-O. Lagage, Commissariatà l'Énergie Atomique (France); S. Dewitte, A. Chevalier, Royal Meteorological Institute of Belgium (Belgium) | | 9085 0Z | Dexterous and expedient approach strategies considering non-zero eccentricity orbits and J2 perturbations [9085-35] | | C. Remeikas, Y. Xu, Univ. of Central Florida (United States); K. Pham, Air Force Research Lab. (United States); G. Chen, B. Jia, D. Shen, Intelligent Fusion Technology, Inc. (United States) | | 9085 10 | Low-complexity image compression with scalable quality control [9085-36] | | B. H. Pillman, M. E. Napoli, Exelis Geospatial Systems (United States) | | Author Index |
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