Evaluation of global digital elevation model for flood risk management in Perlis
In flood modelling process, Digital Elevation Models (DEMs) is a valuable tool in topographic parameterization of hydrological models. The release of the free-of-charge satellite based DEMs such as SRTM and ASTER prompted the accurate flood modelling process especially to propose flood mitigation in...
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Springer Nature Singapore Pte Ltd
2018
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my.utm.965742022-07-28T06:50:20Z http://eprints.utm.my/id/eprint/96574/ Evaluation of global digital elevation model for flood risk management in Perlis Pa’suya, Muhammad Faiz Md. Din, Ami Hassan Mat Amin, Zulkarnaini Mohd. Omar, Kamaludin Omar, Amir Hamzah Rusli@Ruslik, Noradila G Geography (General) In flood modelling process, Digital Elevation Models (DEMs) is a valuable tool in topographic parameterization of hydrological models. The release of the free-of-charge satellite based DEMs such as SRTM and ASTER prompted the accurate flood modelling process especially to propose flood mitigation in the Perlis region. In this research, the accuracy of SRTM DEM of spatial resolution 1 arc-sec and 3 arc-sec, as well as ASTER DEM are evaluated. The reference levels produced from GNSS observation and Earth Gravitational Model 1996 (EGM96), as well as local mean sea level are used to analyse the vertical accuracy of each GDEMs in Perlis, Malaysia. The total of 38 Benchmark (BM) and Standard Benchmark (SBM) around the Perlis region were observed by GNSS using static method and processed using TOPCON Tool software. A comparison with the local mean sea level height indicated that SRTM 1″ is the much greater absolute vertical accuracy with an RMSE of ±3.752 m and continued by SRTM 3″ and ASTER GDEMs where the obtained accuracy was ±4.100 and ±5.647 m, respectively. Also, by using orthometric height form the GNSS and EGM96 as reference elevation, the obtained accuracy was ±3.220, ±3.597, and ±5.832 m for SRTM 1″, SRTM 3″ and ASTER, respectively. Statistical results have also shown that SRTM 1″ has a good correlation with Hmsl and HGNSS where both correlations values are 0.9925, while the SRTM 3″ and ASTER show the correlation of 0.9873 and 0.9375. Springer Nature Singapore Pte Ltd 2018-05-13 Book Section PeerReviewed Pa’suya, Muhammad Faiz and Md. Din, Ami Hassan and Mat Amin, Zulkarnaini and Mohd. Omar, Kamaludin and Omar, Amir Hamzah and Rusli@Ruslik, Noradila (2018) Evaluation of global digital elevation model for flood risk management in Perlis. In: Global Civil Engineering Conference 2017. Lecture Notes in Civil Engineering, 9 (NA). Springer Nature Singapore Pte Ltd, Singapore, pp. 1007-1017. ISBN 978-981-10-8015-9 http://dx.doi.org/10.1007/978-981-10-8016-6_70 DOI:10.1007/978-981-10-8016-6_70 |
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G Geography (General) Pa’suya, Muhammad Faiz Md. Din, Ami Hassan Mat Amin, Zulkarnaini Mohd. Omar, Kamaludin Omar, Amir Hamzah Rusli@Ruslik, Noradila Evaluation of global digital elevation model for flood risk management in Perlis |
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In flood modelling process, Digital Elevation Models (DEMs) is a valuable tool in topographic parameterization of hydrological models. The release of the free-of-charge satellite based DEMs such as SRTM and ASTER prompted the accurate flood modelling process especially to propose flood mitigation in the Perlis region. In this research, the accuracy of SRTM DEM of spatial resolution 1 arc-sec and 3 arc-sec, as well as ASTER DEM are evaluated. The reference levels produced from GNSS observation and Earth Gravitational Model 1996 (EGM96), as well as local mean sea level are used to analyse the vertical accuracy of each GDEMs in Perlis, Malaysia. The total of 38 Benchmark (BM) and Standard Benchmark (SBM) around the Perlis region were observed by GNSS using static method and processed using TOPCON Tool software. A comparison with the local mean sea level height indicated that SRTM 1″ is the much greater absolute vertical accuracy with an RMSE of ±3.752 m and continued by SRTM 3″ and ASTER GDEMs where the obtained accuracy was ±4.100 and ±5.647 m, respectively. Also, by using orthometric height form the GNSS and EGM96 as reference elevation, the obtained accuracy was ±3.220, ±3.597, and ±5.832 m for SRTM 1″, SRTM 3″ and ASTER, respectively. Statistical results have also shown that SRTM 1″ has a good correlation with Hmsl and HGNSS where both correlations values are 0.9925, while the SRTM 3″ and ASTER show the correlation of 0.9873 and 0.9375. |
| format |
Book Section |
| author |
Pa’suya, Muhammad Faiz Md. Din, Ami Hassan Mat Amin, Zulkarnaini Mohd. Omar, Kamaludin Omar, Amir Hamzah Rusli@Ruslik, Noradila |
| author_facet |
Pa’suya, Muhammad Faiz Md. Din, Ami Hassan Mat Amin, Zulkarnaini Mohd. Omar, Kamaludin Omar, Amir Hamzah Rusli@Ruslik, Noradila |
| author_sort |
Pa’suya, Muhammad Faiz |
| title |
Evaluation of global digital elevation model for flood risk management in Perlis |
| title_short |
Evaluation of global digital elevation model for flood risk management in Perlis |
| title_full |
Evaluation of global digital elevation model for flood risk management in Perlis |
| title_fullStr |
Evaluation of global digital elevation model for flood risk management in Perlis |
| title_full_unstemmed |
Evaluation of global digital elevation model for flood risk management in Perlis |
| title_sort |
evaluation of global digital elevation model for flood risk management in perlis |
| publisher |
Springer Nature Singapore Pte Ltd |
| publishDate |
2018 |
| url |
http://eprints.utm.my/id/eprint/96574/ http://dx.doi.org/10.1007/978-981-10-8016-6_70 |
| _version_ |
1739828098963079168 |
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13.2014675 |