Design Implementation And Testing Of Node Control Function In Skin Optical Network

With the rapid development of smart skin technology,the demand for the performance of radar systems continues to increase,including higher bandwidth,higher resolution,and faster data transmission rates.Among them,researching how to use fiber optics and optoelectronic devices to build high bandwidth,low latency,and efficient communication and control systems has become a key challenge.Skin optical network,as an emerging radar data transmission technology,has broad application prospects and is of great significance in the field of smart skin systems.The design and implementation of a skin optical network system,as well as its efficient control and testing,contribute to the performance improvement of the entire intelligent skin.The focus of this thesis is on the control and testing techniques in the skin optical network.This thesis first provides a comprehensive background review and theoretical research to gain a deeper understanding of the principles and technical characteristics of smart skinning,including its high-speed,low latency,and anti-interference characteristics.Based on these theories,a basic architecture solution for skin optical networks based on WDM implementation is formed.Firstly,considering the initial power on operation and control requirements for the skin optical network nodes,a control and operation scheme for the skin optical network nodes based on FPGA was designed.Then,in order to achieve efficient control of nodes and divide the control tasks that nodes need to complete,the control system structure,control frames,and control function modules in network operation control were designed.Based on the hardware platform,the implementation and execution of the FPGA control module running program were implemented,enabling it to effectively manage and control the operation of the skin optical network array platform.In addition,in order to achieve resource simulation and skin optical network control and management requirements,a skin optical network control software program has been designed and developed,which can simulate and control the skin optical network array platform on a computer.This software is developed using advanced programming technology and has the functions of array design simulation and control testing,providing a user-friendly interface for the design simulation and operation control functions of the skin optical network.Subsequently,key technical tests were conducted on the designed simulation module,as well as systematic testing of the entire operating system.The test results show that the simulation module can effectively complete the topology design and simulation optimization of the optical network,and the control system can achieve efficient node control and communication.This verifies the feasibility and effectiveness of the developed FPGA program control module and skin optical network simulation and control program,providing valuable reference for further research and development in this field.Finally,this thesis looks into the future development of this technology and proposes some improvement and optimization ideas to further enhance its application value in the field of smart skinning.