Daniel H SchaubertHolland, Steven S2024-04-262024-04-2620082008-0510.7275/493517https://hdl.handle.net/20.500.14394/44646The desire to incorporate multiple frequency bands of operation into personal communication devices has led to much research on reducing the size of antennas while maintaining adequate performance. GPS is one such application, where dual frequency operation, bandwidth and circular polarization pose major challenges when using traditional miniaturization techniques. Various loading methods have been studied to reduce the resonant frequency of the antenna – high permittivity dielectric loading, slot loading and cavity loading – while examining their effects on bandwidth and gain. The objective of this thesis is to provide guidelines on what is achievable using these miniaturization methods and insight into how to implement them effectively.Electrical engineeringMicrostrip antennasGlobal Positioning SystemSmall Antenna TheoryHigh Permittivity DielectricCavity BackingSlot LoadingSignal ProcessingElectromagnetismMiniaturization of Microstrip Patch Antennas for Gps Applicationsthesis