Journal
GEOSCIENTIFIC INSTRUMENTATION METHODS AND DATA SYSTEMS
Volume 5, Issue 1, Pages 241-251Publisher
COPERNICUS GESELLSCHAFT MBH
DOI: 10.5194/gi-5-241-2016
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Funding
- Ministero degli Affari Esteri project Italy-USA [PGR00175]
- UNESCO Chair in Water Resources Management and Culture
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Flow monitoring of riverine environments is crucial for hydrology and hydraulic engineering practice. Besides few experimental implementations, flow gauging relies on local water level and surface-flow velocity measurements through ultrasonic meters and radars. In this paper, we describe a novel permanent gauge-cam station for large-scale and continuous observation of surface flows, based on remote acquisition and calibration of video data. Located on the Tiber River, in the center of Rome, Italy, the station captures 1 min videos every 10 min over an area oriented along the river cross section of up to 20.6 x 15.5m(2). In a feasibility study, we demonstrate that accurate surface-flow velocity estimations can be obtained by analyzing experimental images via particle tracking velocimetry (PTV). In medium illumination conditions (70-75 lux), PTV leads to velocity estimations in close agreement with radar records and is less affected by uneven lighting than large-scale particle image velocimetry. Future efforts will be devoted to the development of a comprehensive test bed infrastructure for investigating the potential of multiple optics-based approaches for surface hydrology.
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