Research On Perceptual Computing And Networking Technology Based On New Mobile Network Computing Model

The new mobile network in this article refers to a network model with dispressed computing as its core.The focus of dispressed computing is that it does not treat various mobile devices on the network as nodes for information transmission,but treats them as computing resources.The computing power can be borrowed at any time according to changes in task requirements.That is to say,each of us will be able to provide computing power for specific computing tasks when our mobile phones,computers and other intelligent devices are idle.In current technology,users with significant computing needs often rely on accessing large,highly shared data centers to which they return their data(for example,images,videos,or web log files)for processing.However,the cost and latency of this backhaul can be problematic in many operational scenarios,especially when network throughput is severely constrained or when user applications require near-real-time responses.In this case,the user’s ability to leverage the computing power available "locally"(in terms of latency,available throughput,or similar metrics related to the user or task)can significantly improve application performance while reducing task risk.Dispressed computing provides an opportunity to revolutionize the Internet.A new mobile network architecture based on dispressed computing is innovatively proposed.The architecture is divided into three layers,including the physical hardware layer,the middle layer,and the application and support layer.Designed a prototype architecture to guide the implementation of this new mobile network.The prototype architecture includes schedulers,executors,overlay network layers and storage related to the entire dispressed new mobile network technology.This article will focus on the communication networking in the overlay network layer and the realization of resource awareness.In order to solve the verification of the related technologies of networking and resource awareness in the dispressed computing model,this thesis intends to use the application layer Overlay network as a virtual network and perform resource awareness based on this network.The communication networking and resource perception can be understood as the networking controller of the entire distributed new mobile network.In the implementation process,in order to achieve network conversion at the network level,improve task scheduling and execution efficiency,first research and implement related strategies for networking through overlay technology in new mobile networks to provide a basis for continuous resource-aware computing;secondly,it is realized In the network environment,the location environment,index topology characteristics and routine business characteristics of resource awareness;then,combined with the perception calculation analysis to study the relevant mechanisms of resource consumption to provide business services for realizing DAG tasks in the execution environment of the new mobile network computing model Foundation;Finally,based on the previous research,the communication module and networking module in the high-availability network framework of a new mobile network based on dispressed computing are designed and implemented,which ensures the possibility of implementing the connection technology based on the network framework.The test results of the system show that the virtual network constructed by Overlay can effectively provide network topology for new mobile networks and form global topology links in a certain area.On this basis,the link conditions can be eliminated to achieve link optimization between nodes,and it is effective at the same time.Verify the resource perception of surrounding nodes,such as CPU load,bandwidth,disk usage,and memory usage,to provide effective support for scheduling tasks.