2019
DOI: 10.1186/s13638-019-1577-z
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Data compression in ViSAR sensor networks using non-linear adaptive weighting

Abstract: Nowadays, industrial video synthetic aperture radars (ViSARs) are widely used for aerial remote sensing and surveillance systems in smart cities. A main challenge of a group of networked ViSAR sensors in an IoT-based environment is low bandwidth of wireless links for communicating big video data. In this research, we propose a non-linear statistical estimator for adaptive reconstruction of compressed ViSAR data. Our proposed reconstruction filter is based on an adaptively generated non-linear weight mask of sp… Show more

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Cited by 11 publications
(8 citation statements)
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“…Sending the video data instead of the raw data can be performed subject to hardware/physical facilities in the radar platforms to generate videos, and also management of the issue of overlapping to not have more data size in the video format compared to the raw data when both are uncompressed (some examples of the facilities are high-performance onboard processing devices, highcapacity memory, and required electrical power). In such a condition, we can select video data and benefit from all advantages of multimedia onboard computing and communications over a distributed mobile network [1,[11][12][13] . Onboard processing should be done in many remote sensing sensors towards data communications, for example, onboard processing of satellite Hyper-Spectral Imaging (HSI) data in spaceborne remote sensing is a crucial requirement.…”
Section: Video-sar Data Transmission and Real-time Monitoringmentioning
confidence: 99%
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“…Sending the video data instead of the raw data can be performed subject to hardware/physical facilities in the radar platforms to generate videos, and also management of the issue of overlapping to not have more data size in the video format compared to the raw data when both are uncompressed (some examples of the facilities are high-performance onboard processing devices, highcapacity memory, and required electrical power). In such a condition, we can select video data and benefit from all advantages of multimedia onboard computing and communications over a distributed mobile network [1,[11][12][13] . Onboard processing should be done in many remote sensing sensors towards data communications, for example, onboard processing of satellite Hyper-Spectral Imaging (HSI) data in spaceborne remote sensing is a crucial requirement.…”
Section: Video-sar Data Transmission and Real-time Monitoringmentioning
confidence: 99%
“…As final point, there is a need to design stronger 2D processing techniques for the situation, such that more information around 2D and 3D Video-SAR data processing can be found in Refs. [1,[11][12][13][14][41][42][43]. 4.1.5 Machine intelligence: Detection, recognition, and tracking…”
Section: Single-and Multi-frame Computing Architecturementioning
confidence: 99%
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