Information Extraction of Urban Environments with Remotely Sensed Data

利用遥感数据提取城市环境信息

• 批准号: RGPIN-2016-04741
• 负责人: Wang, Jinfei
• 金额: $ 1.75万
• 依托单位: University of Western Ontario
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=709026
• 关键词: Information; Extraction; Urban; Environments; Remotely

Remote sensing of urban areas is probably the most challenging compared with other natural landscapes, because of the complexity of land use and land cover patterns, the 3D man-made and natural features and the need for very detailed information. Currently more people live in urban areas than rural areas in the world. Acquiring detailed information in urban areas is important for sustainable urban development and adaptation to global environmental change, for example sea level changes and emergency response to disasters. With the increasing availability of aerial and spaceborne remotely sensed data that record information from different wavelength ranges, with much higher spatial resolution, it is now possible to effectively extract useful land surface information in urban areas. Although remote sensing has been successful in many urban applications, there are still some challenging issues on automatic extraction of difficult to obtain information using remote sensing. New and improved methods and algorithms are required to process and integrate the multi-sensor data to extract the land surface information accurately and automatically. In this proposal, I will focus on filling the gaps in the automatic extraction of land surface information using remote sensing. Specifically, in this proposal, I will develop methodology for three dimensional (3D) urban building modelling based on multi-view image matching; urban road surface condition information extraction using linear feature detection and analysis from aerial images and surface roughness estimation using the airborne lidar; and urban tree species classification by adding structural and shape information to the colour information in order to improve the accuracy. During this grant funding period, five PhDs, six Master's and additional Honours undergraduate students will be trained. The proposed research will contribute new algorithms and ideas to the knowledge of remote sensing, and contribute towards the operational use of remote sensing products in urban environmental applications. Urban planners, municipal government managers and decision makers, urban transportation authorities, urban disaster management teams, urban foresters, hydrologists and ecologists will benefit from the research results of 3D building models, road condition evaluation and urban tree species classification. Researchers in urban climate, hydrology, energy consumption and environmental changes can use the resultant information as inputs to their models. The research will benefit Canada in terms of sustainable urban development, improving urban transportation management, improving the quality of life of Canadians, adapting to global climate change and natural disaster management.

与其他自然景观相比，城市地区的遥感可能是最具挑战性的，因为土地利用和土地覆盖模式的复杂性，三维人为和自然特征以及对非常详细的信息的需求。目前，世界上居住在城市地区的人口多于农村地区。获取城市地区的详细信息对于可持续城市发展和适应全球环境变化，例如海平面变化和对灾害的应急反应，十分重要。随着记录不同波长范围信息的航空和空间遥感数据的日益增多，空间分辨率大大提高，现在可以有效地提取城市地区有用的地表信息。虽然遥感在城市中的应用已经取得了很大的成功，但在遥感信息的自动提取方面仍然存在一些挑战性的问题。因此，需要新的和改进的方法和算法来处理和集成多传感器数据，以准确和自动地提取地表信息。在本提案中，我将着重于填补利用遥感自动提取地表信息方面的空白。具体而言，在本提案中，我将开发三维（3D）城市建筑物建模的方法，基于多视图图像匹配;城市路面状况信息提取使用线性特征检测和分析从航空图像和表面粗糙度估计使用机载激光雷达;和城市树种分类通过添加结构和形状信息的颜色信息，以提高准确性。在此赠款资助期间，将培养五名博士，六名硕士和其他荣誉本科生。拟议的研究将有助于新的算法和想法的遥感知识，并有助于在城市环境应用中的遥感产品的业务使用。城市规划者、市政府管理者和决策者、城市交通主管部门、城市灾害管理团队、城市林业人员、水文学家和生态学家将受益于3D建筑模型、道路状况评估和城市树种分类的研究成果。城市气候、水文、能源消耗和环境变化方面的研究人员可以将由此产生的信息作为其模型的输入。该研究将使加拿大在可持续城市发展、改善城市交通管理、提高加拿大人的生活质量、适应全球气候变化和自然灾害管理等方面受益。