Organizational Unit:
Daniel Guggenheim School of Aerospace Engineering
Daniel Guggenheim School of Aerospace Engineering
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1 - 10 of 64
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ItemSpace Object Tracking from CubeSats utilizing Low-Cost Software Defined Radios(Georgia Institute of Technology, 2023-12) Mealey, Alex
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ItemSatellite Orbit Classification through Machine Learning(Georgia Institute of Technology, 2023-08) Kalidindi, Lakshmi Kundana
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ItemDevelopment of an Open Source Data Visualization and Automated Testing Platform for CubeSat Subsystems(Georgia Institute of Technology, 2023-08) Bustos, Alexander
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ItemA Survey and 3LE Generation Model of Megaconstellations in the Future LEO Environment(Georgia Institute of Technology, 2023-05) Schweiger, Gerald Anton
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ItemWireless Energy from Beamed Signals: A Case Study in Rapid CubeSat Design(Georgia Institute of Technology, 2023-05-01) Lawver, LukeThis paper focuses on the mission design and trade studies performed in the development of the Wireless Energy from Beam Signals (WEBS) CubeSat, a power-receiving target in the Space Solar Power Incremental Demonstrations and Research (SSPIDR) wireless space-to-space power transmission technology demonstration mission supporting the Arachne primary spacecraft. The development process of the mission is discussed in detail, with an emphasis on the rapid development of a robust, low-cost mission. Power, attitude knowledge, and communications trade studies that ultimately influenced the final spacecraft and mission design are discussed in detail, along with sensor selection and operational design. The trade studies explored focus primarily on the challenges associated with the operation of a tumbling spacecraft with limited attitude control regarding both power generation and attitude estimation. Additionally, the dual communications systems design is discussed along with a unique power inhibit system that allows for system checkouts and charging to occur prior to and leading up to deployment. Further discussed are the custom spacecraft bus design and manufacturing considerations. The successful demonstration of the wireless power transmission technology to WEBS will represent an important step toward enabling a new method of powering spacecraft on orbit.
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ItemModal Analysis and GEO Simulation of Large Space Structures(Georgia Institute of Technology, 2023-05) Kapoor, Ananya
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ItemWireless Energy from Beamed Signals - A Case Study in Rapid CubeSat Design(Georgia Institute of Technology, 2023-05) Lawver, Luke
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ItemLine of Sight Observational and Inertial Sensing Requirements for Multi-UAV Tracking subject to GNSS Denial(Georgia Institute of Technology, 2022-08) Bouhall, Matthew M.
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ItemImpacts of Altitude on Expectation Maximization-based Data Association and Orbit Estimation(Georgia Institute of Technology, 2022-08) Sakson, Daniel
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ItemThe Attitude and Determination Control System (ADCS) for the Orbital Calibration 2 Mission (OrCa2)(Georgia Institute of Technology, 2022-06) DiStasio, Luke