以仿生設計減緩低成本台灣點型市場的登革熱複製和演化風險 Biomimicry design to mitigate dengue fever duplication and development risks at a low cost T
This thesis examines the evolution of traditional market patterns in the current urban environment through the habits of mosquitoes in the urban environment, and finds that the point-based development market is an important site for the larvae and eggs of vector mosquitoes to spread to the city through its drainage system, resulting in the concentration of infected people.
本研究通過蚊子於都市環境中的習性,檢視目前都市中傳統市場型態的演變後,發現點型發展市場是病媒蚊幼蟲與卵藉由其排水系統向都市傳播的重要據點,導致感染者集中,加快登革熱病毒的複製速度,也增加化學藥劑噴灑,促使病媒蚊發展承受能力。
It may eventually lead to large-scale infections that are difficult to control in the city and cause the medical system to be overwhelmed. Therefore, in the strategy, the main design task is to slow down the replication and development risk of dengue virus. Taking the Kaohsiung Jinshi Lake point development market as an example. In this market, through urban design, space syntax and biomimicry, new models of epidemic prevention, public health knowledge dissemination, and future life models are constructed.
其最終可能造成都市難以控制的大規模感染,導致醫療系統不堪負荷,因此在策略中,以減緩登革熱病毒的複製與發展風險為主要設計任務,以高雄金獅湖點型發展市場為例,在該市場中透過都市設計、空間構法以及仿生學,構築新的防疫模式、公衛知識傳播,與未來生活模式。
Reviewing the market environment analysis, in order to address the market as the starting point of dengue transmission in urban areas, two tasks of mitigating dengue duplication and development risks risks were formulated and analyzed. After analysis, it was decided to optimize the drainage system as the main design method, thereby reducing the potential breeding environment and slowing down the generation rate of mosquitoes, both of which will be slowed down due to lack of elements.
回顧市場環境分析,為了解決市場作為城市地區登革熱傳播的起點,擬定了減緩登革熱複製和演化風險兩個任務,並進行分析,分析後決定以優化排水系統為主要設計方法,從而減少潛在的滋生環境, 和減緩蚊子的世代更新速度,兩者的傳播作用都會因缺乏要素而減緩。