The Complicate Observations and Multi-Parameter Land Information Constructions on Allied Telemetry Experiment (COMPLICATE)

The Complicate Observations and Multi-Parameter Land Information Constructions on Allied Telemetry Experiment (COMPLICATE) comprises a network of remote sensing experiments designed to enhance the dynamic analysis and modeling of remotely sensed information for complex land surfaces. Two types of ex...

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Veröffentlicht in:PloS one 2015-09, Vol.10 (9), p.e0137545-e0137545
Hauptverfasser: Tian, Xin, Li, Zengyuan, Chen, Erxue, Liu, Qinhuo, Yan, Guangjian, Wang, Jindi, Niu, Zheng, Zhao, Shaojie, Li, Xin, Pang, Yong, Su, Zhongbo, van der Tol, Christiaan, Liu, Qingwang, Wu, Chaoyang, Xiao, Qing, Yang, Le, Mu, Xihan, Bo, Yanchen, Qu, Yonghua, Zhou, Hongmin, Gao, Shuai, Chai, Linna, Huang, Huaguo, Fan, Wenjie, Li, Shihua, Bai, Junhua, Jiang, Lingmei, Zhou, Ji
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Sprache:eng
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Zusammenfassung:The Complicate Observations and Multi-Parameter Land Information Constructions on Allied Telemetry Experiment (COMPLICATE) comprises a network of remote sensing experiments designed to enhance the dynamic analysis and modeling of remotely sensed information for complex land surfaces. Two types of experimental campaigns were established under the framework of COMPLICATE. The first was designed for continuous and elaborate experiments. The experimental strategy helps enhance our understanding of the radiative and scattering mechanisms of soil and vegetation and modeling of remotely sensed information for complex land surfaces. To validate the methodologies and models for dynamic analyses of remote sensing for complex land surfaces, the second campaign consisted of simultaneous satellite-borne, airborne, and ground-based experiments. During field campaigns, several continuous and intensive observations were obtained. Measurements were undertaken to answer key scientific issues, as follows: 1) Determine the characteristics of spatial heterogeneity and the radiative and scattering mechanisms of remote sensing on complex land surfaces. 2) Determine the mechanisms of spatial and temporal scale extensions for remote sensing on complex land surfaces. 3) Determine synergist inversion mechanisms for soil and vegetation parameters using multi-mode remote sensing on complex land surfaces. Here, we introduce the background, the objectives, the experimental designs, the observations and measurements, and the overall advances of COMPLICATE. As a result of the implementation of COMLICATE and for the next several years, we expect to contribute to quantitative remote sensing science and Earth observation techniques.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0137545