Ionospheric Scintillation Monitoring

Ho, Yih Hwa and Muhammad Syahrir, Johal (2005) Ionospheric Scintillation Monitoring. Project Report. UTeM, Melaka, Malaysia. (Submitted)

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Abstract

The earth's ionosphere can cause serious problems for many radio applications: navigation systems and commercial applications such as communications. radio astronomy and navigation. They can all be serious!_ affected by ionospheric disturbances. Disturbance effects such as amplitude fading and phase scintillation limit the ability to coherently integrate weak signals. One solution. which reduces the effective data capacity of the channel. is the use of time-interleaved modulation schemes in which data is sent repeatedly to ensure its error-free reception. Another solution is to use alternate resources during the times of predicted signal outages due to scintillation fading. However. these predictions are generally based on monthly climatology and are poor for a specific time in a particular region due to the variability and dynamics of the earth's ionosphere. A more real-time and local solution is required GPS signals provide an excellent means for measuring scintillation effects on a disperse global basis because they are continuously available and can be measured through many points of the ionosphere simultaneously. GPS signals are themselves affected. but because of the spread spectrum properties of the signal. tracking through disturbances with a GPS receiver is usually possible with reasonably wide bandwidth tracking loops. And scintillation parameters can be extracted There are GPS applications. however. such as surveying where integrated carrier phase measurements are used. in which scintillation can easily disrupt operational activities. This project is aim to study and testing of a modified commercial CIA code receiver to perform this function.

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