Open Access
E3S Web Conf.
Volume 94, 2019
International Symposium on Global Navigation Satellite System 2018 (ISGNSS 2018)
Article Number 04005
Number of page(s) 9
Section Geodynamics and Natural Hazard
Published online 08 May 2019
  1. Murdohardono, D dan Tirtomihardjo, H., Penurunan tananh di Jakarta dan rencana pemantauannya, In: Proceedings of the 22nd annual convention of the indonesian association of geologists, Bandung, 6–9 December, pp 346–354 (1993) [Google Scholar]
  2. Murdohardono, D and Sudarsono, U., Land subsidence monitoring system in Jakarta, In: Proceedings of symposium on Japan-Indonesia IDNDR Project: Volcanology, tectonics, flood and sediment hazards, Bandung, 21–23 September, pp 243–256 (1998) [Google Scholar]
  3. Rajiyowiryono, H. Groundwater and Land subsidence Monitoring along the North Coastal Plain of Java Island (CCOP Newsl 24 (3):19 July-September 1999) [Google Scholar]
  4. Abidin, H.Z., R. Djaja, D. Darmawan, S. Hadi, A. Akbar, H. Rajiyowiryono, Y. Sudibyo, I. Meilano, M. A. Kusuma, J. Kahar, C. Subarya, Land Subsidence of Jakarta (Indonesia) and its Geodetic-Based Monitoring System, Natural Hazards. Journal of the International Society of the Prevention and Mitigation of Natural Hazards, Vol. 23, No. 2/3, March, pp. 365 – 387 (2001) [CrossRef] [Google Scholar]
  5. Abidin, H.Z., R. Djaja, H. Andreas, M. Gamal, K. Hirose, Y. Maruyama, Capabilities and Constraints of Geodetic Techniques for Monitoring Land Subsidence in the Urban Areas of Indonesia, Geomatics Research Australia. No.81, December, pp. 45-58 (2004) [Google Scholar]
  6. Abidin, H.Z., Suitability of levelling, GPS and INSAR for monitoring land subsidence in urban areas of Indonesia, GIM Int 19 (7):12–15 (2005) [Google Scholar]
  7. Abidin, H.Z., H. Andreas, R. Djaja, D. Darmawan and M. Gamal, Land subsidence characteristics of Jakarta between 1997 and 2005, as estimated using GPS surveys, GPS Solutions, Springer Berlin / Heidelberg, Vol. 12, No. 1, pp. 23-32 (2008) [CrossRef] [Google Scholar]
  8. Abidin, H.Z., H. Andreas, I. Gumilar, Y. Fukuda, Y.E. Pohan, T. Deguchi, Land subsidence of Jakarta (Indonesia) and its relation with urban development, Natural Hazards, Volume 59, Issue 3, pp. 1753-1771 (2011) [Google Scholar]
  9. Koudogbo, F.N., Duro, J., Arnaud, A., Bally, P., Abidin, H.Z., and Andreas, H., Combined X and L-band PSI analyses for assessment of land subsidence in Jakarta, Proc. SPIE, Remote Sensing for Agriculture, Ecosystems, and Hydrology XIV, 8531, 853107, doi:10.1117/12.974821, 2012 (2012) [Google Scholar]
  10. Ng, A.H.-M., L. Ge, X. Li, H.Z. Abidin, H. Andreas, K. Zhang, Mapping land subsidence in Jakarta, Indonesia using persistent scatterer interferometry (PSI) technique with ALOS PALSAR. Int. J. Appl. Earth Observ. Geoinf. 18, 232–242 (2012) [Google Scholar]
  11. Chaussard Estelle, Amelung F, Abidin HZ, SanHoon Hong,Sinking cities in Indonesia: ALOS PALSAR detects rapid subsidence due to groundwater and gas extraction. Remote Sensing of Environment 128 (2013) 150 -161 [Google Scholar]
  12. Marfai, M.A., Almohamad, H., Dey, S., Susanto, B and King, L., Coastal dynamic and shoreline mapping: multi-sources spatial data analysis in Semarang Indonesia. Environmental Monitoring and Assessment, 142, pp. 297-308 (2008) [Google Scholar]
  13. Murdohardono, D., Sudradjat, G.M., Wirakusumah, A.D., Kuhn, F and Mulyasari, F., Land Subsidence Analysis through Remote Sensing and Implementation on Municipality Level; Case Study: Semarang Municipality, Central Java Province, Indonesia. Paper presented at the BGR-GAI-CCOP Workshop on Management of Georisks, 23-25 June, Yogyakarta (2009) [Google Scholar]
  14. Kuehn, F., Albiol, D., Cooksley, G., Duro, J., Granda, J., Haas, S., Hoffmann-Rothe, A and Murdohardono, D., Detection of land subsidence in Semarang, Indonesia, using stable point’s network (SPN) technique. Environmental Earth Sciences, DOI 10.1007/s12665-009-0227-x (2009) [Google Scholar]
  15. Lubis, A.M., Sato, T., Tomiyama, N., Isezaki, N and Yamanokuchi, T., Ground subsidence in Semarang-Indonesia investigated by ALOS–PALSAR satellite SAR interferometry, Journal of Asian Earth Sciences, 40, 5, 30 March, pp. 1079-1088 (2011) [Google Scholar]
  16. Andreas, H., Abidin, H.Z., I. Gumilar and Teguh, P.S.,Recent land subsidence in Semarang (Indonesia) as estimated using GPS Surveys. ISGNSS 2016 Conference Proceeding. Taiwan (2016) [Google Scholar]
  17. Sutanta, H., Rachman. A., Sumaryo and Diyono, Predicting Land Use Affected by Land Subsidence in Semarang Based on Topographic Map of Scale 1:5.000 and Leveling Data. (Proceedings of the Map Asia 2005 Conference (in CDRom), Jakarta, 22-25 August 2005) [Google Scholar]
  18. Mazzotti, S., Lambert, A., Van der Kooij, M., & Mainville, A., Impact of anthropogenic subsidence on relative sea-level rise in the Fraser River delta. Geology, 37 (9), 771–774 (2009) [Google Scholar]
  19. Andreas, H., Abidin, H.Z., Gumilar, I., Sidiq, T.P., Yuwono, B, Adaptation and mitigation of land subsidence in Semarang, AIP Conference Proceeding 1857, 4987088 (2017) [Google Scholar]
  20. Andreas, H., Zainal Abidin, H., Pradipta, D., Anggreni Sarsito, D., Gumilar, I, Insight look the subsidence impact to infrastructures in Jakarta and Semarang area; Key for adaptation and mitigation. MATEC Web of Conference 147, 08001 (2018) [Google Scholar]
  21. Hudnut K.W., Earthquake Geodesy and Hazard Monitoring. U.S. National Report to IUGG 1991-1994. Rev.Geophys, vol 33 Suppl.,@ 1995 American Geophysical Union (1994) [Google Scholar]
  22. Bock Y, Prawirodirdjo L, Genrich JF, Stevens CW, McCaffrey R, Subarya C, Puntodewo SSO, and Calais E, Crustal motion in Indonesia from global positioning system measurements. J Geophys Res 108 (2367). doi:10.1029/2001JB000324 (2003) [PubMed] [Google Scholar]
  23. Okada, Y., Surface deformation due to shear and tensile fault, Bulletin of Seismological Society of America (1985) [Google Scholar]
  24. Hanifa, N.R., Sagiya, T., Kimata, F., Efendi, J., Abidin, H.Z. and Meilano, I., Interplate Coupling Model Off The Southwestern Coast of Java, Indonesia, Based on Continuous GPS Data in 2008-2010. Earth and Planetary Science Letters (2014) [Google Scholar]
  25. Hayes, G.P., Wald, D.J., & Johnson, R.L., Slab1.0: A three‐dimensional model of global subduction zone geometries,Journal of Geophysical Research: Solid Earth (2012) [Google Scholar]
  26. Holzer and Thomas L., Land subsidence caused by groundwater withdrawal in Urban areas, GeoJournal 11.3 245-255. (Reidel Publishing Company 1985) [Google Scholar]
  27. Abidin, H.Z., H. Andreas, M. Gamal, I. Gumilar, M. Napitupulu, Y. Fukuda, T. Deguchi, Y. Maruyama, E. Riawan, Land subsidence characteristics of the Jakarta Basin (Indonesia) and its relation with groundwater extraction and sea level rise, in Groundwater Response to Changing Climate, IAH Selected Papers on Hydrogeology No. 16, ed. by M. Taniguchi, I.P. Holman, chap. 10 (CRC Press, London, 2010a), pp. 113–130, ISBN: 978-0-415-54493-1 (2010a) [Google Scholar]
  28. JICA, Lesson learn from land subsidence in Tokyo Japan. Presentation on “high Level Meeting on Subsidence”. Balai Kota DKI Jakarta Indonesia 2014 (2014) [Google Scholar]

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