Chen Zhi-Hua1, Zhu Yi-Sheng1, Xue Zhi-Qiang2, Li Xue-Bing2, Ding Yi-Min1, Bi Li-Jun1, Gao Kai-Min3, Zhang You4. 1. Zhonglou District Center for Disease Control and Prevention, Jiangsu Province, Changzhou 213002, China. 2. Yixing Center for Disease Control and Prevention, China. 3. Changzhou Baizhong Technology Co. Ltd, China. 4. Xinbei District Center for Disease Control and Prevention, China.
Abstract
OBJECTIVE: To study the application of Geographic Information System (GIS) electronic fence technique in Oncomelania hupensis snail monitoring. METHODS: The electronic fence was set around the history and existing snail environments in the electronic map, the information about snail monitoring and controlling was linked to the electronic fence, and the snail monitoring information system was established on these bases. The monitoring information was input through the computer and smart phone. RESULTS: The electronic fence around the history and existing snail environments was set in the electronic map (Baidu map), and the snail monitoring information system and smart phone APP were established. The monitoring information was input and upload real-time, and the snail monitoring information was demonstrated in real time on Baidu map. CONCLUSIONS: By using the electronic fence technology based on GIS, the unique "environment electronic archives" for each snail monitoring environment can be established in the electronic map, and real-time, dynamic monitoring and visual management can be realized.
OBJECTIVE: To study the application of Geographic Information System (GIS) electronic fence technique in Oncomelania hupensis snail monitoring. METHODS: The electronic fence was set around the history and existing snail environments in the electronic map, the information about snail monitoring and controlling was linked to the electronic fence, and the snail monitoring information system was established on these bases. The monitoring information was input through the computer and smart phone. RESULTS: The electronic fence around the history and existing snail environments was set in the electronic map (Baidu map), and the snail monitoring information system and smart phone APP were established. The monitoring information was input and upload real-time, and the snail monitoring information was demonstrated in real time on Baidu map. CONCLUSIONS: By using the electronic fence technology based on GIS, the unique "environment electronic archives" for each snail monitoring environment can be established in the electronic map, and real-time, dynamic monitoring and visual management can be realized.
Entities:
Keywords:
Electronic fence; Environmental electronic archives; Geographic Information System (GIS); Oncomelania hupensis; Smart phone