Application of low-carbon design concept of network energy consumption based on SDN architecture in high-rise residential building design

Abstract

In the past, the network environment usually adopted a distributed design, which often caused a series of problems such as cumbersome performance adjustment and high energy consumption. The software-defined network adopts a new design method that is different from the traditional network environment, which is hierarchical management and centralized control. This design method can achieve overall planning and can adjust the network structure in a comprehensive and flexible manner. In order to solve the disadvantages of distributed design, this paper innovatively proposes the use of sleep heuristic algorithm to realize dynamic adjustment of WAN energy consumption and performance in SDN network environment, and defines a new network evaluation method. This mechanism flexibly adjusts the network structure through users' attention and feedback on network performance, which can not only ensure network performance, but also effectively reduce network energy consumption. At the same time, the mechanism was verified using a simulation environment. Experimental results show that the mechanism is universal and can be easily implemented in various scenarios. The close integration of low-carbon design concepts with high-rise residential buildings can fully improve the energy-saving effect of buildings, reduce energy consumption, and help build a green and environmentally friendly residential city. Based on this, this article combines theoretical practice, first analyzes the definition of low-carbon design concepts, and then discusses the reasons why high-rise residential buildings need low-carbon design concepts, and proposes specific applications of low-carbon design concepts in high-rise residential building design. There will be some reference and help for the design of similar projects in the future.