Repository Universitas Pakuan

Detail Karya Ilmiah Dosen

Amin Widada Lestariya, Dadan Ramdani

Judul : ANALISIS KOMPARATIF PENENTUAN TINGGI DENGAN GPS DAN SIPAT DATAR

Abstrak :
PS heighting merupakan isu yang tetap menarik untuk dikaji. Tinggi (elipsoid) yang
dihasilkan dari pengukuran GPS diharapkan bisa menggantikan atau setidaknya memberikan
alternatif metode pengukuran tinggi konvensional sipat datar (levelling) yang mahal, time-
consuming, dan tergantung pada ketersediaan infrastruktur jalan. Paper ini mencoba memberikan
gambaran perbandingan teknis dan non-teknis kedua metode penentuan tinggi tersebut, baik
pada jaringan yang bersifat lokal maupun regional. Mengingat data geoid di Indonesia masih
sangat terbatas kualitasnya, maka metode perbandingan yang dipakai dalam studi ini tidak
menggunakan data tersebut.

Tahun : 2006 Media Publikasi : Jurnal Nasional Terakreditasi B

Kategori : Jurnal No/Vol/Tahun : 12 / 1 / 2006

ISSN/ISBN : 25022180

PTN/S : Universitas Pakuan Program Studi : TEKNIK GEODESI

Bibliography :
Abidin, H.A. (1999): Monitoring Sea Level using GPS , Proceeding International Seminar
on Application of Seawatch Indonesia Information System for Indonesian Marine
Resources Development, March 10-11, 1999, BPPT, Jakarta.
Angelakis, N. (1999): Mt. Kilimanjaro Expedition 1999 GPS Data Processing and
Evaluation of the ITRF-Position and Height of Mt. Kilimanjaro , Paper presented at the
First Workshop on GPS and Mathematical Geodesy in Tanzania (Kilimanjaro
Expedition 1999), October 4, 1999.
Brondeel, M., Experiences with Atmospheric Pressure Loading and GPS Vertical
Estimates , Ghent University, Ghent, Belgium.
Dennis, M.L. and W.E. Featherstone (2002): Evaluation of Orthometric and Related
Height Systems Using a Simulated Mountain Gravity Field , Proceedings of
Third Meeting of the International Gravity and Geoid Commission, Thessaloniki,
Greece, August 26-30, 2002.
Featherstone, W.E., K. Alexander (1996): An Analysis of GPS Height Determination in
Western Australia , the Australian Surveyor.
Featherstone, W.E, M.C. Dentith, J.F. Kirby (1998): Strategies for the Accurate
Determination of Orthometric Height from GPS , Survey Review, 34, 267.
Featherstone, W.E. (2002): Toward the Unification of the Australian Height Datum
between the Mainland and Tasmania Using GPS and AUSGeoid98, Geomatics
Research Australasia (in press) .
Fotopoulos G. and M.G. Sideris, On the Estimation of Variance Components Using GPS,
Geoid and Levelling Data , Department of Geomatics Engineering, University of
Calgary, Calgary, Alberta, Canada
Fotopoulos G. (2003): An Analysis on the Optimal Combination of Geoid, Orthometric
and Ellipsoidal Height Data , PhD thesis, Department of Geomatics Engineering
Calgary, Alberta,
Hatjidakis, N. and D. Rossikopoulos (2002): Orthometric Heights from GPS: The
Integrated Approach , Proceedings of Third Meeting of the International Gravity and
Geoid Commission, Thessaloniki, Greece, August 26-30, 2002.
Inter-governmental Committee on Surveying and Mapping/ICSM (2002): Standards and
Practices for Control Surveys (SP1) Version 1.5 , ICSM Publication No. 1, May 2002.
Jäger R. (1999 ): State of The Art and Present Developments of a General Concept for
GPS-Based Height Determination , Paper presented at the First Workshop on GPS and
Mathematical Geodesy in Tanzania (Kilimanjaro Expedition 1999).

Jäger R. and J. Kaminski (2003): GPS-Heighting Based on the Concept of a Digital Height
Reference Surface (DFHRS) and Related Topics , 2nd Common Baltic Symposium ,
GPS Heighting and National-wide Permanent GPS Reference Systems, Riga, June 12
– 13, 2003.
King M., P. Clarke and C. Allinson (2003): The Ups and Downs of GPS Heighting in
Britain – part 1: Ocean Tide Loading , School of Civil Engineering and Geosciences,
University of Newcastle upon Tyne, Engineering Surveying Showcase October 2003,
pp. 20-21.
Moore T., G. W. Roberts (2001): River Level Monitoring Using GPS Heighting - Phase 2 ,
BNSC Space Foresight Programme, Science Systems (Space) Ltd., the Centre for
Ecology and Hydrology, London.
Mulcare D.M, Introduction to Geodesy with an emphasis on GPS for Height
Determinations , document of National Geodetic Survey State Advisor to Maryland.
Prikryl M., Comparing Trigonometric Determining of Height Differences (TDHD) and GPS
(Global Positioning System) in Local Networks,
Phillips H. A., G. Hyland, P. Morgan, R. Coleman, N. Young (1997): Comparison of ERS
altimeter and GPS heights on the Amery Ice Shelf, East Antarctica , Proceedings of
the 3rd ERS Scientific Symposium, Florence, Italy, ESA Publication ESA SP-414, 3
Volumes, May 1997.
Poutanen, M. (1999): Use of GPS in Unification of Vertical Datums and Detection of
Levelling Errors , In: Geodesy and Surveying in the Future - the Importance of
Heights, Proceedings of the Seminar, March 15-17, 1999. (Ed. M. Lilje) Reports in
Geodesy and Geographical Information Systems, 1999:3. Lantmäteriverket, Gävle.
301-312.
Poutanen, M. (2000): Sea Surface Topography and Vvertical Datums Using Space
Geodetic Techniques , Dissertation and Report No.128, Publications of the Finnish
Geodetic Institute, Helsinki.
Schöne, T., M. Pohl, H.W. Schenke (2000): GPS and Tide Gauge Measurements: A
Contribution for the Vertical Datum Determination in Antarctica , Alfred Wegener
Institute for Polar and Marine Research, Bremerhaven, Germany.
Zilkoski D. B., J. D. D'Onofrio, S. J. Frakes (1997): Guidelines for Establishing GPS-
Derived Ellipsoid Heights (Standards: 2 cm and 5 cm) Version 4.3 , NOAA Technical
Memorandum NOS NGS-58, Silver Spring, MD.

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Detail Karya Ilmiah Dosen

Amin Widada Lestariya, Dadan Ramdani

Judul	:	ANALISIS KOMPARATIF PENENTUAN TINGGI DENGAN GPS DAN SIPAT DATAR
Abstrak	:	PS heighting merupakan isu yang tetap menarik untuk dikaji. Tinggi (elipsoid) yang dihasilkan dari pengukuran GPS diharapkan bisa menggantikan atau setidaknya memberikan alternatif metode pengukuran tinggi konvensional sipat datar (levelling) yang mahal, time- consuming, dan tergantung pada ketersediaan infrastruktur jalan. Paper ini mencoba memberikan gambaran perbandingan teknis dan non-teknis kedua metode penentuan tinggi tersebut, baik pada jaringan yang bersifat lokal maupun regional. Mengingat data geoid di Indonesia masih sangat terbatas kualitasnya, maka metode perbandingan yang dipakai dalam studi ini tidak menggunakan data tersebut.
Tahun	:	2006	Media Publikasi	:	Jurnal Nasional Terakreditasi B
Kategori	:	Jurnal	No/Vol/Tahun	:	12 / 1 / 2006
ISSN/ISBN	:	25022180
PTN/S	:	Universitas Pakuan	Program Studi	:	TEKNIK GEODESI
Bibliography	:	Abidin, H.A. (1999): Monitoring Sea Level using GPS , Proceeding International Seminar on Application of Seawatch Indonesia Information System for Indonesian Marine Resources Development, March 10-11, 1999, BPPT, Jakarta. Angelakis, N. (1999): Mt. Kilimanjaro Expedition 1999 GPS Data Processing and Evaluation of the ITRF-Position and Height of Mt. Kilimanjaro , Paper presented at the First Workshop on GPS and Mathematical Geodesy in Tanzania (Kilimanjaro Expedition 1999), October 4, 1999. Brondeel, M., Experiences with Atmospheric Pressure Loading and GPS Vertical Estimates , Ghent University, Ghent, Belgium. Dennis, M.L. and W.E. Featherstone (2002): Evaluation of Orthometric and Related Height Systems Using a Simulated Mountain Gravity Field , Proceedings of Third Meeting of the International Gravity and Geoid Commission, Thessaloniki, Greece, August 26-30, 2002. Featherstone, W.E., K. Alexander (1996): An Analysis of GPS Height Determination in Western Australia , the Australian Surveyor. Featherstone, W.E, M.C. Dentith, J.F. Kirby (1998): Strategies for the Accurate Determination of Orthometric Height from GPS , Survey Review, 34, 267. Featherstone, W.E. (2002): Toward the Unification of the Australian Height Datum between the Mainland and Tasmania Using GPS and AUSGeoid98, Geomatics Research Australasia (in press) . Fotopoulos G. and M.G. Sideris, On the Estimation of Variance Components Using GPS, Geoid and Levelling Data , Department of Geomatics Engineering, University of Calgary, Calgary, Alberta, Canada Fotopoulos G. (2003): An Analysis on the Optimal Combination of Geoid, Orthometric and Ellipsoidal Height Data , PhD thesis, Department of Geomatics Engineering Calgary, Alberta, Hatjidakis, N. and D. Rossikopoulos (2002): Orthometric Heights from GPS: The Integrated Approach , Proceedings of Third Meeting of the International Gravity and Geoid Commission, Thessaloniki, Greece, August 26-30, 2002. Inter-governmental Committee on Surveying and Mapping/ICSM (2002): Standards and Practices for Control Surveys (SP1) Version 1.5 , ICSM Publication No. 1, May 2002. Jäger R. (1999 ): State of The Art and Present Developments of a General Concept for GPS-Based Height Determination , Paper presented at the First Workshop on GPS and Mathematical Geodesy in Tanzania (Kilimanjaro Expedition 1999). Jäger R. and J. Kaminski (2003): GPS-Heighting Based on the Concept of a Digital Height Reference Surface (DFHRS) and Related Topics , 2nd Common Baltic Symposium , GPS Heighting and National-wide Permanent GPS Reference Systems, Riga, June 12 – 13, 2003. King M., P. Clarke and C. Allinson (2003): The Ups and Downs of GPS Heighting in Britain – part 1: Ocean Tide Loading , School of Civil Engineering and Geosciences, University of Newcastle upon Tyne, Engineering Surveying Showcase October 2003, pp. 20-21. Moore T., G. W. Roberts (2001): River Level Monitoring Using GPS Heighting - Phase 2 , BNSC Space Foresight Programme, Science Systems (Space) Ltd., the Centre for Ecology and Hydrology, London. Mulcare D.M, Introduction to Geodesy with an emphasis on GPS for Height Determinations , document of National Geodetic Survey State Advisor to Maryland. Prikryl M., Comparing Trigonometric Determining of Height Differences (TDHD) and GPS (Global Positioning System) in Local Networks, Phillips H. A., G. Hyland, P. Morgan, R. Coleman, N. Young (1997): Comparison of ERS altimeter and GPS heights on the Amery Ice Shelf, East Antarctica , Proceedings of the 3rd ERS Scientific Symposium, Florence, Italy, ESA Publication ESA SP-414, 3 Volumes, May 1997. Poutanen, M. (1999): Use of GPS in Unification of Vertical Datums and Detection of Levelling Errors , In: Geodesy and Surveying in the Future - the Importance of Heights, Proceedings of the Seminar, March 15-17, 1999. (Ed. M. Lilje) Reports in Geodesy and Geographical Information Systems, 1999:3. Lantmäteriverket, Gävle. 301-312. Poutanen, M. (2000): Sea Surface Topography and Vvertical Datums Using Space Geodetic Techniques , Dissertation and Report No.128, Publications of the Finnish Geodetic Institute, Helsinki. Schöne, T., M. Pohl, H.W. Schenke (2000): GPS and Tide Gauge Measurements: A Contribution for the Vertical Datum Determination in Antarctica , Alfred Wegener Institute for Polar and Marine Research, Bremerhaven, Germany. Zilkoski D. B., J. D. D'Onofrio, S. J. Frakes (1997): Guidelines for Establishing GPS- Derived Ellipsoid Heights (Standards: 2 cm and 5 cm) Version 4.3 , NOAA Technical Memorandum NOS NGS-58, Silver Spring, MD.
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