Nâng cao độ chính xác mô hình số độ cao DEM bằng mạng NƠ RON HOPFIELD với tập dữ liệu điểm độ cao bổ sung.

Quang Minh Nguyen; Thi Thu Huong Nguyen; Thi Thuy Hoang; Phu Hien La; Van Chuc Nguyen; Van Duong Do

doi:10.54491/jgac.2023.56.681

Original research | No. 56 (2023)

Improvement of DEM accuracy using Hopfield Neural Network downscaling with additional point elevation data

DOI: 10.54491/jgac.2023.56.681

10.54491/jgac.2023.56.681

Published 2023-06-25

Quang Minh Nguyen⁺⁻
Thi Thu Huong Nguyen⁺⁻
Thi Thuy Hoang⁺⁻
Phu Hien La⁺⁻
Van Chuc Nguyen⁺⁻
Van Duong Do⁺⁻

Quang Minh Nguyen

Faculty of Geomatics and Land Administration, Hanoi University of Mining and Geology

Thi Thu Huong Nguyen

Faculty of Geomatics and Land Administration, Hanoi University of Mining and Geology

Thi Thuy Hoang

Faculty of Geomatics and Land Administration, Hanoi University of Mining and Geology

Phu Hien La

Faculty of Water Resource Engineering, Thuyloi University

Van Chuc Nguyen

The Viet Nam Institute of Surveying and Mapping

Van Duong Do

Faculty of Surveying and Mapping, Hanoi University of Natural Resources and Environment

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Keywords

Mô hình số độ cao
Mạng nơ ron Hopfield
Nâng cao độ phân giải DEM
Hopfield Neural Network
Downscaling

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How to Cite

Nguyen, Q. M., Nguyen, T. T. H., Hoang, T. T., La, P. H., Nguyen, V. C., & Do, V. D. (2023). Improvement of DEM accuracy using Hopfield Neural Network downscaling with additional point elevation data. Journal of Geodesy and Cartography, (56), 17–24. https://doi.org/10.54491/jgac.2023.56.681

Abstract

The paper proposes a method to accurately approve the digital elevation model (DEM) using additional point elevation data. Although the resampling methods such as bilinear, bi-cubic, Kriging and especially the Hopfield Neural Network downscaling showed the improvement in accuracy of the DEM, the additional data such as point elevation data is useful for DEM's accuracy increase for the free global DEM data such as SRTM, ASTER and so on. The proposed approach used a new elevation gain function and a modified elevation constraint for the HNN. This newly proposed model was tested using SRTM 30 m DEM in Cao Bang, Vietnam, in an area of 1650 m × 1344 m with 130 elevation points for accuracy improvement and 64 elevation points for validation. The result showed that the accuracy has increased by 30% regarding Root Mean Square Error (RMSE) compared with the original DEM and the downscaled DEM by HNN (without additional elevation data). It means that the new methods can be applicable after further evaluation

https://doi.org/10.54491/jgac.2023.56.681

PDF (Tiếng Việt) | Download: 71

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Improvement of DEM accuracy using Hopfield Neural Network downscaling with additional point elevation data

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