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Performance Analysis of Hybrid SAG-FSO/RF Satellite Communication System
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Satellite constellations have become a promising solution for future Terabits/s connectivity. However,
conventional radio frequency (RF) communication links are unable to achieve such high throughput due
to the limited spectrum available. Free-space optical (FSO) communication has recently acquired a growing interest in the satellite communication (Satcom) community as a potential solution. Nonetheless, FSO
communication is sensitive to the adverse effects of beam scintillation, beam-wander-induced pointing
errors, free-space loss, and weather conditions. To mitigate these effects, we present a new space-air-ground (SAG) FSO transmission system with a strategically deployed high-altitude platform relay. It
can effectively remedy the effect of atmospheric impairments on FSO transmission, particularly at high
zenith angles. Then, we integrate the proposed SAG-FSO link and traditional space-ground FSO/RF links
to further improve system performance and reliability. We carry out a thorough performance analysis
of the resulting hybrid SAG-FSO/RF communication systems. Tractable analytical expressions for the
symbol error and outage probabilities are derived. The numerical results highlight the significant potential
of the proposed, highly innovative Satcom systems over existing solutions. Furthermore, Monte-Carlo
simulations are performed to validate the accuracy of the analytical results.
Title: Performance Analysis of Hybrid SAG-FSO/RF Satellite Communication System
Description:
Satellite constellations have become a promising solution for future Terabits/s connectivity.
However,
conventional radio frequency (RF) communication links are unable to achieve such high throughput due
to the limited spectrum available.
Free-space optical (FSO) communication has recently acquired a growing interest in the satellite communication (Satcom) community as a potential solution.
Nonetheless, FSO
communication is sensitive to the adverse effects of beam scintillation, beam-wander-induced pointing
errors, free-space loss, and weather conditions.
To mitigate these effects, we present a new space-air-ground (SAG) FSO transmission system with a strategically deployed high-altitude platform relay.
It
can effectively remedy the effect of atmospheric impairments on FSO transmission, particularly at high
zenith angles.
Then, we integrate the proposed SAG-FSO link and traditional space-ground FSO/RF links
to further improve system performance and reliability.
We carry out a thorough performance analysis
of the resulting hybrid SAG-FSO/RF communication systems.
Tractable analytical expressions for the
symbol error and outage probabilities are derived.
The numerical results highlight the significant potential
of the proposed, highly innovative Satcom systems over existing solutions.
Furthermore, Monte-Carlo
simulations are performed to validate the accuracy of the analytical results.
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