Offloading method, of satellite-to-ground edge computing task, assisted by satellite and high-altitude platform

What is claimed is: 1. An offloading method, of a satellite-to-ground edge computing task, assisted by a satellite and a high-altitude platform, wherein comprising the following steps: step A: acquiring, by a low earth-orbit satellite (LEO SAT), a related information in a system; step B: selecting, by the LEO SAT according to an acquired related information, a proper high-altitude platform for a ground user to associate with according to a method for associating the ground user with the high-altitude platform; step C: offloading a computing task to an associated platform according to an association result between the ground user and the high-altitude platform by using a multi-input and multi-output (MIMO) transmission method; step D: dividing, by the high-altitude platform according to a result of a computing task allocation method after receiving the computing task of the ground user, the computing task of the ground user into two parts, that is, a task processed by the high-altitude platform and a task offloaded to the LEO SAT for processing; for the task processed by the high-altitude platform, allocating, by the high-altitude platform, a proper computing resource according to a computing resource allocation method to process the computing task of the ground user; and for the computing task offloaded to the LEO SAT, offloading, by the high-altitude platform, the computing task to the LEO SAT by using the MIMO transmission method; and step E: allocating, by the LEO SAT after receiving a task offloaded by the high-altitude platform, a computing resource to each of the computing task according to the computing resource allocation method, to complete the computing task. 2. The offloading method, of the satellite-to-ground edge computing task, assisted by the satellite and the high-altitude platform according to claim 1 , wherein the related information in the system that is acquired by the LEO SAT in the step A comprises: a computing task size, a task computing strength, a computing latency requirement that are of a ground user equipment (GUE), a wireless channel information from the ground user to the high-altitude platform, and a channel information from the high-altitude platform to the LEO SAT, a computing power information of the high-altitude platform, and a requirement of the ground user for an energy consumption. 3. The offloading method, of the satellite-to-ground edge computing task, assisted by the satellite and the high-altitude platform according to claim 2 , wherein the acquiring, by the LEO SAT, the related information in the system in the step A specifically comprises the following steps: step A1: selecting, by the ground user, the high-altitude platform of a best channel link gain for association according to a channel link gain from the ground user to the high-altitude platform, and transmitting the related information of local equipment to an associated high-altitude platform; and step A2: forwarding, by the high-altitude platform, the related information to the LEO SAT. 4. The offloading method, of the satellite-to-ground edge computing task, assisted by the satellite and the high-altitude platform according to claim 1 , wherein the step B specifically comprises the following steps: step B1: establishing MIMO transmission models for associating the ground user with different high-altitude platforms, and a latency computing model and an energy consumption model when the computing task of the ground user is forwarded on the different high-altitude platforms and computing is performed; and step B2: loading an algorithm for associating the ground user with the high-altitude platform, determining an association relationship between the ground user and the high-altitude platform, and selecting the proper high-altitude platform for the ground user to associate with. 5. The offloading method, of the satellite-to-ground edge computing task, assisted by the satellite and the high-altitude platform according to claim 4 , wherein the step C specifically comprises the following steps: step C1: loading a MIMO pre-coding design algorithm from the ground user to the high-altitude platform to obtain a MIMO pre-coding matrix between the ground user and an associated high-altitude platform; and step C2: offloading the computing task of the ground user to the high-altitude platform by using the MIMO pre-coding design algorithm from the ground user to the high-altitude platform. 6. The offloading method, of the satellite-to-ground edge computing task, assisted by the satellite and the high-altitude platform according to claim 4 , wherein the offloading, by the high-altitude platform, the computing task to the LEO SAT specifically comprises the following steps: step D1: establishing, by the high-altitude platform, the MIMO transmission models from the high-altitude platform to the LEO SAT according to a computing task information of the ground user associated therewith, and providing a latency model and the energy consumption model when the high-altitude platform offloads the computing task to the LEO SAT; step D2: loading a MIMO pre-coding design algorithm from the high-altitude platform to the LEO SAT to obtain a MIMO pre-coding matrix between the high-altitude platform and the LEO SAT; and step D3: offloading the computing task of the high-altitude platform to the LEO SAT by using the MIMO pre-coding design algorithm from the high-altitude platform to the LEO SAT. 7. The offloading method, of the satellite-to-ground edge computing task, assisted by the satellite and the high-altitude platform according to claim 1 , wherein the ground user offloads the computing task in the following manners: step 1: offloading, by a ground user equipment (GUE) equipped with multiple antennas, the computing task to an associated high-altitude platform by using a MIMO technology, and receiving, by the high-altitude platform, a data by using the multiple antennas; step 2: offloading, by the high-altitude platform equipped with the multiple antennas, the computing task to the LEO SAT by using the MIMO technology, and receiving, by the LEO SAT, the data by also using the multiple antennas; and step 3: forwarding, by the high-altitude platform as a relay, the computing task offloaded by the ground user, and processing the computing task. 8. The offloading method, of the satellite-to-ground edge computing task, assisted by the satellite and the high-altitude platform according to claim 1 , being suitable for a satellite network, a Wi-Fi network with a relay, a wireless heterogeneous network, a wireless sensor network, and a cellular communication network.