Research And Application Of Environmental Vision System Design In Natural Resource Type 5A Scenic Spots

The tourism industry is iteratively upgraded with the diversified needs of people.The Central Committee of the Communist Party of China and the State Council issued the "Guiding Opinions on Promoting the Development of Global Tourism" to promote the transformation and upgrading of the tourism industry,improve quality and efficiency,and comprehensively optimize the tourism development environment.The "Opinions" will strengthen tourism services;strengthen basic supporting facilities,improve public services;implement systematic marketing and shape brand image as key tasks.Environmental visual system design is closely related to basic facilities,public services and brand marketing.Starting from the actual project of the environmental visual system design of the Beili Lake area of the Nanbei Lake Scenic Area,the thesis explores the specific path for the environmental visual system design of natural resource-based scenic spots to meet the 5A standard under the background of global tourism.Located in the southeast corner of Hangzhou Bay,Nanbei Lake is composed of four major resource elements: ponds,mountains,seashores,and ancient cities.Beili Lake belongs to the lakes and ponds section.Combining the characteristics of natural resource-based tourist attractions in the Lihu area of North and South Hubei,the team explored the goals and content of the environmental visual system design in this area,emphasized system efficacy and ecology,and established the level of environmental visual system design in this area.In the process of implementing it to a specific space carrier for presentation,material technology,cost accounting and other content are taken into consideration,and finally summarized and evaluated.Strive to improve the problems of weak environmental visual design system,obstacles in information dissemination,unreasonable point layout,and lack of later maintenance in similar tourist attractions.It is hoped that this design practice will inject impetus into the sustainable development of natural resource-based environmental visual systems in the future.