高寒地区夜间文化旅游艺术照明系统配送路线优化研究

Tong-lu Li, Hanxi Wang
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摘要

高寒地区艺术照明系统是一套可用于高寒地区夜间旅游的智能夜光设备。为了保证艺术照明系统正常、稳定地输送到实际的高海拔冰雪地区,采用理论研究、实验分析、建模、算法改进、案例研究等方法,对高海拔寒冷条件下艺术照明系统的输送进行了研究。根据高海拔冰雪地区艺术照明系统的实际需求,提出了模糊时间窗约束;设计了最大限度地提高客户对艺术灯光表演的满意度和最大限度地降低照明系统交付总成本的目标函数;将顾客对灯光秀的满意转化为约束,建立单一目标函数。在单目标函数的基础上,构造了带时间窗约束的静态初始模型。选取湖北省神农架国际滑雪场进行实证分析。基于静态初始模型和采用非线性规划遗传算法建立的动态模型,完成了三种分析。根据分析,使用艺术照明系统的单场演出成本相对较低,并且随着需要照明系统的场所的增加,艺术照明系统的成本将越来越低于固定光源。
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A Study of Delivery Route Optimization for Artistic Lighting Systems for Cultural Tourism in High-altitude Cold Areas at Night
The artistic lighting system for high-altitude cold areas is a set of intelligent night-lighting equipment that can be used for night tourism in high-altitude cold areas. In order to ensure the normal and stable delivery of artistic lighting systems to the actual high-altitude icy/snowy areas, methods such as theoretical research, experimental analysis, modeling, algorithm improvement, and case study are adopted to study the delivery of artistic lighting systems in high-altitude cold conditions. Based on the actual demand for the delivery of artistic lighting systems to high-altitude icy/snowy areas, the Fuzzy Time-Windows constraint is formulated; the objective functions for maximizing customer satisfaction with artistic light shows and minimizing the total cost of the delivery of lighting systems are designed; customer satisfaction with light shows is converted into a constraint and thus a single objective function is established. Based on the single objective function, a static initial model with time window constraints is constructed. The Shennongjia International Ski Resort in Hubei Province is selected for empirical analysis. Based on the static initial model and dynamic model constructed by using the genetic algorithms for nonlinear programming, three analyses are completed. According to the analyses, the cost of a single light show using the artistic lighting systems is relatively low, and as the places in need of lighting systems increase, the cost of artistic lighting systems will be increasingly lower than that of fixed light sources.
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