HYPSTAR:用于陆地和水生辐射测量的高光谱可定点系统

Joel Kuusk, Alexandre Corizzi, D. Doxaran, Kim Duong, Kenneth Flight, Joosep Kivastik, Kaspars Laizāns, E. Leymarie, Silvar Muru, Christophe Penkerc’h, Kevin G. Ruddick
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引用次数: 2

摘要

光学地球观测卫星每天提供大量数据。这些卫星测得的大气层顶辐射率通常被转换成大气层底辐射率或反射率,然后用于推导出许多用于监测环境状况、气候变化、自然资源存量等的更高级产品。可用遥感数据的增加对区域和全球范围的决策都有影响,因此需要适当的质量控制和验证程序。用于陆地和水域辐射测量的 HYperspectral Pointable 系统(HYPSTAR®)的设计目的是对陆地和水域目标进行自动、现场多角度反射率测量。HYPSTAR-SR 覆盖 380-1020 nm 光谱范围,光谱分辨率为 3 nm,用于水域站点。陆地站点使用 HYPSTAR-XR 变体,光谱范围扩展到 1680 nm,光谱分辨率为 10 nm。分光辐射计有复用辐射度和辐照度入口、内部机械快门和用于捕捉目标快照的集成成像相机。分光辐射计安装在双轴指向系统上,双轴可 360° 自由移动。该系统还集成了一个稳定的发光二极管作为光源,用于在长期无人值守的野外部署期间监测辐射校准的稳定性。自主运行由一个主机系统管理,该系统负责数据采集、存储,并根据预先编排的时间表将数据传输到中央 WATERHYPERNET 或 LANDHYPERNET 服务器。该系统可通过互联网远程访问,以进行配置更改和软件更新。HYPSTAR 系统已在 10 个水上站点和 11 个陆地站点部署,部署时间从几天到几年不等。数据由 HYPERNETS 处理器在中央服务器上自动处理,得出的辐照度、辐照度和反射率产品以及相关的测量不确定性在 WATERHYPERNET 和 LANDHYPERNET 数据门户网站上发布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
HYPSTAR: a hyperspectral pointable system for terrestrial and aquatic radiometry
Optical Earth observation satellites provide vast amounts of data on a daily basis. The top-of-atmosphere radiance measured by these satellites is usually converted to bottom-of-atmosphere radiance or reflectance which is then used for deriving numerous higher level products used for monitoring environmental conditions, climate change, stock of natural resources, etc. The increase of available remote sensing data impacts decision-making on both regional and global scales, and demands appropriate quality control and validation procedures. A HYperspectral Pointable System for Terrestrial and Aquatic Radiometry (HYPSTAR®) has been designed to provide automated, in-situ multiangular reflectance measurements of land and water targets. HYPSTAR-SR covers 380–1020 nm spectral range at 3 nm spectral resolution and is used at water sites. For land sites the HYPSTAR-XR variant is used with the spectral range extended to 1680 nm at 10 nm spectral resolution. The spectroradiometer has multiplexed radiance and irradiance entrances, an internal mechanical shutter, and an integrated imaging camera for capturing snapshots of the targets. The spectroradiometer is mounted on a two-axis pointing system with 360° range of free movement in both axes. The system also incorporates a stable light emitting diode as a light source, used for monitoring the stability of the radiometric calibration during the long-term unattended field deployment. Autonomous operation is managed by a host system which handles data acquisition, storage, and transmission to a central WATERHYPERNET or LANDHYPERNET server according to a pre-programmed schedule. The system is remotely accessible over the internet for configuration changes and software updates. The HYPSTAR systems have been deployed at 10 water and 11 land sites for different periods ranging from a few days to a few years. The data are automatically processed at the central servers by the HYPERNETS processor and the derived radiance, irradiance, and reflectance products with associated measurement uncertainties are distributed at the WATERHYPERNET and LANDHYPERNET data portals.
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