The ability to locate an RF transmitter is a topic of growing interest for civilian and military users alike. Geolocation can provide critical information for the intelligence community, search and rescue operators, and the war ghter. The technology required for geolocation has steadily improved over the past several decades, allowing better performance at longer baseline distances between transmitter and receiver. The expansion of geolocation missions from aircraft to spacecraft has necessitated research into how emerging geolocation methods perform as baseline distances are increased beyond what was previously considered. The Cubesat architecture is a relatively new satellite form which could enable small-scale, low-cost solutions to USAF geolocation needs. This research proposes to use Cubesats as a vehicle to perform geolocation missions in the space domain. The Cubesat form factor considered is a 6-unit architecture that allows for 6000 cm3 of space for hardware. There are a number of methods which have been developed for geolocation applications. This research compares four methods with various sensor con gurations and signal properties. The four methods' performance are assessed by simulating and modeling the environment, signals, and geolocation algorithms using Matlab. The simulations created and run in this research show that the angle of arrival method outperforms the instantaneous received frequency method, especially at higher SNR values. These two methods are possible for single and dual satellite architectures. When three or more satellites are available, the direct position determination method outperforms the three other considered methods.
Radio Frequency Emitter Geolocation Using Cubesats
2014
101 pages
Report
No indication
English
Radiofrequency Detection , Physics , Radiofrequency Waves , Emitters , Radiofrequency , Synthetic aperture radar , Angle of arrival , Artificial satellites , Simulation , Theses , Transmitters , Geolocation , Cubesat , Direct position determination , Instantaneous received frequency , Time di erence of arrival
Online Contents | 2017
|CUBESATS: MEASURING OPPORTUNITY
TIBKAT | 2021
|Elsevier | 2017
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