Collaborative Research: Leveraging domain repositories in Flyover Country, a mobile app for geoscience outreach, data discovery, and visualization

协作研究：利用 Flyover Country 中的域存储库，这是一款用于地球科学推广、数据发现和可视化的移动应用程序

• 批准号: 1550913
• 负责人: Shane Loeffler
• 金额: $ 57.43万
• 依托单位: University of Minnesota-Twin Cities
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-01-15 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1550913&HistoricalAwards=false
• 关键词: Collaborative; Research; Leveraging; domain; repositories

This project will continue to develop a mobile app, Flyover Country (FC), that will bring information about relevant points of interest (POI) and map data to the user while flying, and also driving or hiking, without the need for in-flight Wi-Fi, by downloading a strip of data based on the flightpath before the user boards the plane. GPS (Global Positioning System), which functions in airplane mode, allows precise flight tracking, making prompts for POI viewing timely and relevant. With around 4.5 million people flying every day, the potential audience for FC is huge, as is its potential for geoscience outreach. The app will directly feed high-quality geoscience information to the user at the very point when curiosity is stimulated, and could thus improve public science literacy as well as inspiring and supporting the development of a generation of geoscientists. FC could also readily be adapted for use in STEM education, and will be structured so as to provide a platform for the exposure of all types of geospatial geoscience data, forming new infrastructure for education and research.Flyover Country (FC) is an open-source Android and iOS mobile application for geoscience outreach and education. Its key features are (1) delimitation of an area of interest to a traveler (e.g., a flight path, driving route, or hiking trail); (2) selection of georeferenced data within the delimited area via API calls to data repositories; (3) caching of these datasets on the user?s smartphone local storage; (4) exposure and promotion of points of interest (POI) by a location-aware service as the user approaches the POI. Work proposed here extends FC?s functionality to the geoscience research community as a data discovery tool that can be readily used in the field to instantly and dynamically provide context to new measurements. Novel visualization strategies for stratigraphic and multivariate data, as well as authorship and provenance networks, will further enhance researcher efficiency.

该项目将继续开发一款名为Flyover Country （FC）的移动应用程序，通过在用户登机前下载基于飞行路径的数据条，在飞行、驾驶或徒步旅行时，为用户提供有关相关兴趣点（POI）和地图数据的信息，而无需使用机上Wi-Fi。GPS（全球定位系统）在飞行模式下运行，可以精确跟踪飞行，并及时提示POI查看。每天大约有450万人乘坐飞机，FC的潜在受众是巨大的，它在地球科学推广方面的潜力也是巨大的。该应用程序将在激发用户好奇心的时候直接向用户提供高质量的地球科学信息，从而提高公众的科学素养，并激励和支持一代地球科学家的发展。FC也可以很容易地用于STEM教育，其结构将为所有类型的地理空间地球科学数据提供一个平台，形成新的教育和研究基础设施。Flyover Country （FC）是一个开源的Android和iOS移动应用程序，用于地球科学推广和教育。它的主要特征是(1)划定旅行者感兴趣的区域（例如，飞行路线，驾驶路线或徒步旅行路线）；(2)通过对数据存储库的API调用，在划定的区域内选择地理参考数据；(3)在用户上缓存这些数据集？S智能手机本地存储；(4)当用户接近兴趣点（POI）时，通过位置感知服务暴露和推广兴趣点（POI）。这里提出的工作扩展了FC？作为一种数据发现工具，它可以很容易地在现场使用，即时动态地为新测量提供背景。新的地层和多元数据可视化策略，以及作者和物源网络，将进一步提高研究人员的效率。