A Space-Based Deep Space Relay Communication Satellite Networking System

Abstract

The invention discloses a space-based deep space relay communication satellite networking system, the system includes: a spacecraft and a ground station, the spacecraft includes: UNICON heliocentric constellation and geosynchronous orbit constellation; the heliocentric constellation includes 6 UNICON communication satellites in heliocentric orbit through constellation layout, the geosynchronous orbit constellation includes 3 GEO satellites in geosynchronous orbit; user deep space probe transmits data to UNICON heliocentric constellation, and then through the earth The synchronous orbit constellation is sent to the ground station; two laser communication telescopes are set on the top of each UNICON communication satellite, and each laser communication telescope can rotate 180 degrees along the vertical axis to achieve 360-degree scanning, so that every two communication satellites Capable of laser communication. The satellite system of the present invention can provide high-speed data uplink and downlink access services for multiple deep space exploration tasks with different data rates and different orbits.

Description

technical field [0001] The invention relates to the field of laser communication relay satellite constellation networking, in particular to a space-based deep space relay communication satellite networking system, which is used to provide continuous communication relay services for interstellar missions between Venus orbits and Jupiter orbits. Background technique [0002] Since the first artificial satellite was launched on October 4, 1957, human beings have never stopped their curiosity to explore the entire solar system. So far, more than 150 probes have been sent into deep space to explore our solar system. Still, we've explored a tiny fraction of the solar system. At the same time, only traditional large countries and organizations (such as China, the United States, Russia, ESA, Japan, India, etc.) are capable of carrying out deep space projects. [0003] In recent years, there have been two new development directions for deep space exploration: [0004] The first de...

AI Technical Summary

Problems solved by technology

With the gradual increase of the distance of deep space missions and the miniaturization of deep space probes, it is increasingly difficult for the existing ordinary tracking stations built for near-Earth missions to complete the tracking tasks of deep space probes

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