S FIS 0900773 bibliography
DAFTAR PUSTAKA
Alzwar, M., Akbar, N., Bachri, C., (1992). Peta Geologi Garut- Pameungpeuk,
Jawa Barat, Skala 1:250.000, Pusat dan Pengembangan Geologi,
Bandung, lembar 1208-6.
Arlen, Artius. (2010). Susunan Bumi. http://penambang007.blogspot.com/ [23 Maret
2014]
Assalam, Awwaludin. (2008). Pengukuran Sesar Menggunakan Metode CSAMT
di Area Geothermal Kamojang. Program Studi Geofisika, Fakultas
Matematika dan Ilmu Pengetahuan Alam, Universitas Gajah Mada.
Batzle, Michael and Wang, Zhijing. (1992). Seismic Properties of Pore Fluids.
Geophysics, Vol, 57, No. 11 (November 1992): P, 1396-1408.
Bendall, B., D. Love, P. Hough, M. Malavazos, A. Long, and D. Pepicelli, (2012).
beneath the Otake-Hatchobaru geothermal area at Kuju Volcano in
Central Kyushu, Japan: Annuals of Disas. Prev. Res. Inst., 47 (B).
Bronto, S. dan Hartono, U., (2006). Potensi sumber daya geologi di daerah
Cekungan Bandung dan sekitarnya. Jurnal Geologi Indonesia, 1, h.9-18
Cumming, William. (2009). Geothermal Resource Conceptual Models Using
Surface Exploration Data: Proceedings, Thirty-Fourth Workshop on
Geothermal Reservoir Engineering.
D. Gei., L. Eisner., P. Suhadolc. 2010. Passive seismic analysis for reservoir
monitoring. QUEST Publications.
Gylfi Pall Herslr and Axel Bjornsson, (1991). Geophysical Exploration For
Geothemal Resources Principles and application, UNU Geothermal
Training Programme Reykjavik, Iceland.
Havskov, J. dan Ottemӧller, L., (2010). Routine data processing in earthquake
seismology, Springer.
Herman, Dani. (2010). Potensi Panas Bumi Dan Pemikiran Konservasinya.sub
direktorat Konservasi ESDM
Husni, Yayyan M. 2014
MODEL KECEPATAN BAWAH PERMUKAAN MENGGUNAKAN METODE TOMOGRAFI DATA
MICROEARTHQUAKE DI LAPANGAN PANA“ BUMI ALPHA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
Hilyah, Anik. (2010). Studi Gempa Mikro untuk Mendeteksi Rekahan di area
Panas Bumi Kamojang Kabupaten Garut. Program Studi Geofisika,
Institut Teknologi Sepuluh November.
Husni, Yayyan M. 2014
MODEL KECEPATAN BAWAH PERMUKAAN MENGGUNAKAN METODE TOMOGRAFI DATA
MICROEARTHQUAKE DI LAPANGAN PANA“ BUMI ALPHA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
67
Hochstein, M.P., dan Browne, P.R.L.,(2000). Surface manifestations of
Geothermal System with Vulcanic Heat Source, dalam Encyclopedia
of Volcanoes, Geothermal Institite, Auckland.
Howell, B. JR. (1969). Introduction to Geophysics, McGraw-Hill, New York.
Iskandar, Akino.( 2010). Tomografi Seismik 3-D Pada Lapangan Panas Bumi
―X‖. Program Studi Geofisika, Universitas Hasanudin.
Julian, B. R. and G. R. Foulger, (2012). Geothermal seismology : The state of the
art.Proceedings Thirty-Sixth Workshop on Geothermal Reservoir
Engineering.
Kapotas, S., Tselentis, G-A. and Martakis, N. (2003). Case study in NW Greece of
passiveseismic tomography: a new tool for hydrocarbon exploration.
First Break 21, 37-42.
Kasbani. (2010). Tipe Sistem Panas Bumi di Indonesia dan Estimasi Potensi
Energinya. Kelompok Program Penelitian Panas Bumi,PMG-Badan
Geologi.
Kaven, J. O., S. H. Hickman, and N. C. Davatzes, (2011). Micro – seismicity, fault
structure and hydraulic compartmentalization within The Coso
Geothermal Field, California: Proceedings Thirty-Sixth Workshop
Geothermal Reservoir Engineering.
Koulakov I., (2009). LOTOS code for local earthquake tomographic inversion.
Benchmarks for testing tomographic algorithms, Bulletin of the
Seismological Society of America, Vol. 99, No. 1, pp. 194-214.
Koulakov, Ivan. (2012). Code LOTOS-12 for 3D tomographic inversion based on
passive seismic data from local and regional events. Institute of
Petroleum Geology and Geophysics, SB RAS.
Lawless, J., (2008). Magmatic – related hydrothermal systems : The basic model:
INAGA Bali Seminar, 2008.
Lees, J. M. and H. Wu, (1999). Poisson’s ratio and porosity at Coso Geothermal
Area, California: Journal of Volcanology and Geothermal Research, 95,
2000, 157-173.
Martakis, N. Kapotas, S. and Tselentis, G-A,(2006). Integrated passive seismic
acquisitionand methodology. Case studies. Geophysical Prospecting 54,
1-19.
68
Martodjojo, S., (2003). Evolusi Cekungan Bogor, Jawa Barat, Disertasi S3, Fak.
Pasca Sarjana, Penerbit ITB, Bandung.
Mashuri. (2014). Analisis Vp, Vs, Vp/Vs dan Poisson’s Ratio dari Inversi
Tomografi dengan Data MEQ Pada Lapangan Geothermal SAM. Tugas
Akhir Jurusan Fisika, Institut Teknologi Sepuluh November. Surabaya.
Munadi,S. (1992). Mengenal Tomografi Seismik. LPL, No.3/1992,p.239-248.
Lemigas, Indonesia
Nakajima, J., A. Hasegawa, S. Horiuchi, K. Yoshimoto, T. Yoshida, and N.
Umino (2006). Crustal heterogeneity around the Nagamachi-Rifu Fault,
Northeastern Japan, as inferred from travel-time tomography: Earth
PlanetsSpace, 58, 843-853.
Nenny Saptadji, (2005). Sekilas Tentang Panas Bumi, FTTM ITB.
Nolet, G. (1981). Linearized inversion of (teleseismic) data. In R. Cassinis (ed.),
editor, The solution of the inverse problem in geophysical
interpretation, pages 9-37. Plenum Press.
Oktikawati, Anjar. (2013). Karakterisasi Cap Rock Dan Reservoir Area
Geotermal X Berdasarkan Studi Seismisitas Dan Identifikasi Jenis
Patahan Dengan Solusi Focal Mechanism.Skripsi jurusan Fisika,
Universitas Diponegoro. Semarang.
Paige, C.C., and M.A. Saunders (1982). LSQR: An algorithm for sparse linear
equations and sparse least squares, ACM trans. Math. Soft., 8, 43-71.
Pre-workshop Course (2012).Geothermal Energy for Everyone. ITB Geothermal
Workshop, Bandung 5 maret 2012
Priyono, Awali, DR. (2002). Acquisition, Processing and Interpretation of
Seismic Data, Jurusan Geofisika dan Meteorologi, Institut Teknologi
Bandung.
Rachni, Anna. (2012). Penentuan Hiposenter Gempa Mikro Dengan Metode
Single Event Determination, Joint Hypocenter Determination Dan
Double Difference Pada Lapangan Panas Bumi ―Lamda‖. Skripsi
Program Studi Fisika, UPI.
Ramadhan, Irvan. (2013). Aplikasi Metode Tomografi Double Difference Untuk
Menentukan Struktur Kecepatan Gelombang Seismik 3-D Lapangan
Panas Bumi Wayang Windu. Tugas Akhir Program Studi Teknik
Geofisika, ITB. Bandung.
69
Silitonga, P. H., (1973). Peta geologi lembar Bandung, Jawa, skala 1:100.000,
Bandung : Direktorat Geologi.
Siringo, Berliana. (2013). Penjalaran Gelombang. http://www.sharemyeyes.com/
[23 Maret 2014].
Telford, W.M., Geldart, L.P dan Sheriff, R.E., (1990). Applied Geophysics.
Second Edition. Cambridge University Press.
Tselentis, G-A. Serpetsidaki, A. Martakis,N. (2007). Local high-resolution
passive seismic tomography and Kohonen neural networks —
Application at the Rio-Antirio Strait, central Greece, Geophysics,Vol.
72, No. 4 July-August 2007, P B93–B106.
Utami, pri. (2000). Characteristics Of The Kamojang Geothermal Reservoir
(West Java) As Revealed By Its Hydrothermal Alteration Mineralogy.
Proceedings World Geothermal Congress 2000 Kyushu - Tohoku, Japan,
May 28 - June 10, 2000.
Van der Sluis, A., and H.A. van der Vorst (1987). Numerical solution of large,
sparse linear algebraic systems arising from tomographic problems, in:
Seismic tomography, edited by G.Nolet, pp. 49-83, Reidel, Dortrecht.
Wang, Zhijing. Batzle, Michael and Nur, Amos, (1990). Effect Of Different Pore
Fluids On Seismic Velocities in Rocks, Canadian Journal Of Exploration
Geophysics, Vol 26, NO 1 & 2 (December 1990), P 104-112.
Yoshikawa, M., and Y. Sudo, (2004). Three dimensional seismic velocity
structure Toward understanding induced seismicity. Proceedings ThirtySixth Workshop onGeothermal Reservoir Engineering.
Alzwar, M., Akbar, N., Bachri, C., (1992). Peta Geologi Garut- Pameungpeuk,
Jawa Barat, Skala 1:250.000, Pusat dan Pengembangan Geologi,
Bandung, lembar 1208-6.
Arlen, Artius. (2010). Susunan Bumi. http://penambang007.blogspot.com/ [23 Maret
2014]
Assalam, Awwaludin. (2008). Pengukuran Sesar Menggunakan Metode CSAMT
di Area Geothermal Kamojang. Program Studi Geofisika, Fakultas
Matematika dan Ilmu Pengetahuan Alam, Universitas Gajah Mada.
Batzle, Michael and Wang, Zhijing. (1992). Seismic Properties of Pore Fluids.
Geophysics, Vol, 57, No. 11 (November 1992): P, 1396-1408.
Bendall, B., D. Love, P. Hough, M. Malavazos, A. Long, and D. Pepicelli, (2012).
beneath the Otake-Hatchobaru geothermal area at Kuju Volcano in
Central Kyushu, Japan: Annuals of Disas. Prev. Res. Inst., 47 (B).
Bronto, S. dan Hartono, U., (2006). Potensi sumber daya geologi di daerah
Cekungan Bandung dan sekitarnya. Jurnal Geologi Indonesia, 1, h.9-18
Cumming, William. (2009). Geothermal Resource Conceptual Models Using
Surface Exploration Data: Proceedings, Thirty-Fourth Workshop on
Geothermal Reservoir Engineering.
D. Gei., L. Eisner., P. Suhadolc. 2010. Passive seismic analysis for reservoir
monitoring. QUEST Publications.
Gylfi Pall Herslr and Axel Bjornsson, (1991). Geophysical Exploration For
Geothemal Resources Principles and application, UNU Geothermal
Training Programme Reykjavik, Iceland.
Havskov, J. dan Ottemӧller, L., (2010). Routine data processing in earthquake
seismology, Springer.
Herman, Dani. (2010). Potensi Panas Bumi Dan Pemikiran Konservasinya.sub
direktorat Konservasi ESDM
Husni, Yayyan M. 2014
MODEL KECEPATAN BAWAH PERMUKAAN MENGGUNAKAN METODE TOMOGRAFI DATA
MICROEARTHQUAKE DI LAPANGAN PANA“ BUMI ALPHA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
Hilyah, Anik. (2010). Studi Gempa Mikro untuk Mendeteksi Rekahan di area
Panas Bumi Kamojang Kabupaten Garut. Program Studi Geofisika,
Institut Teknologi Sepuluh November.
Husni, Yayyan M. 2014
MODEL KECEPATAN BAWAH PERMUKAAN MENGGUNAKAN METODE TOMOGRAFI DATA
MICROEARTHQUAKE DI LAPANGAN PANA“ BUMI ALPHA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
67
Hochstein, M.P., dan Browne, P.R.L.,(2000). Surface manifestations of
Geothermal System with Vulcanic Heat Source, dalam Encyclopedia
of Volcanoes, Geothermal Institite, Auckland.
Howell, B. JR. (1969). Introduction to Geophysics, McGraw-Hill, New York.
Iskandar, Akino.( 2010). Tomografi Seismik 3-D Pada Lapangan Panas Bumi
―X‖. Program Studi Geofisika, Universitas Hasanudin.
Julian, B. R. and G. R. Foulger, (2012). Geothermal seismology : The state of the
art.Proceedings Thirty-Sixth Workshop on Geothermal Reservoir
Engineering.
Kapotas, S., Tselentis, G-A. and Martakis, N. (2003). Case study in NW Greece of
passiveseismic tomography: a new tool for hydrocarbon exploration.
First Break 21, 37-42.
Kasbani. (2010). Tipe Sistem Panas Bumi di Indonesia dan Estimasi Potensi
Energinya. Kelompok Program Penelitian Panas Bumi,PMG-Badan
Geologi.
Kaven, J. O., S. H. Hickman, and N. C. Davatzes, (2011). Micro – seismicity, fault
structure and hydraulic compartmentalization within The Coso
Geothermal Field, California: Proceedings Thirty-Sixth Workshop
Geothermal Reservoir Engineering.
Koulakov I., (2009). LOTOS code for local earthquake tomographic inversion.
Benchmarks for testing tomographic algorithms, Bulletin of the
Seismological Society of America, Vol. 99, No. 1, pp. 194-214.
Koulakov, Ivan. (2012). Code LOTOS-12 for 3D tomographic inversion based on
passive seismic data from local and regional events. Institute of
Petroleum Geology and Geophysics, SB RAS.
Lawless, J., (2008). Magmatic – related hydrothermal systems : The basic model:
INAGA Bali Seminar, 2008.
Lees, J. M. and H. Wu, (1999). Poisson’s ratio and porosity at Coso Geothermal
Area, California: Journal of Volcanology and Geothermal Research, 95,
2000, 157-173.
Martakis, N. Kapotas, S. and Tselentis, G-A,(2006). Integrated passive seismic
acquisitionand methodology. Case studies. Geophysical Prospecting 54,
1-19.
68
Martodjojo, S., (2003). Evolusi Cekungan Bogor, Jawa Barat, Disertasi S3, Fak.
Pasca Sarjana, Penerbit ITB, Bandung.
Mashuri. (2014). Analisis Vp, Vs, Vp/Vs dan Poisson’s Ratio dari Inversi
Tomografi dengan Data MEQ Pada Lapangan Geothermal SAM. Tugas
Akhir Jurusan Fisika, Institut Teknologi Sepuluh November. Surabaya.
Munadi,S. (1992). Mengenal Tomografi Seismik. LPL, No.3/1992,p.239-248.
Lemigas, Indonesia
Nakajima, J., A. Hasegawa, S. Horiuchi, K. Yoshimoto, T. Yoshida, and N.
Umino (2006). Crustal heterogeneity around the Nagamachi-Rifu Fault,
Northeastern Japan, as inferred from travel-time tomography: Earth
PlanetsSpace, 58, 843-853.
Nenny Saptadji, (2005). Sekilas Tentang Panas Bumi, FTTM ITB.
Nolet, G. (1981). Linearized inversion of (teleseismic) data. In R. Cassinis (ed.),
editor, The solution of the inverse problem in geophysical
interpretation, pages 9-37. Plenum Press.
Oktikawati, Anjar. (2013). Karakterisasi Cap Rock Dan Reservoir Area
Geotermal X Berdasarkan Studi Seismisitas Dan Identifikasi Jenis
Patahan Dengan Solusi Focal Mechanism.Skripsi jurusan Fisika,
Universitas Diponegoro. Semarang.
Paige, C.C., and M.A. Saunders (1982). LSQR: An algorithm for sparse linear
equations and sparse least squares, ACM trans. Math. Soft., 8, 43-71.
Pre-workshop Course (2012).Geothermal Energy for Everyone. ITB Geothermal
Workshop, Bandung 5 maret 2012
Priyono, Awali, DR. (2002). Acquisition, Processing and Interpretation of
Seismic Data, Jurusan Geofisika dan Meteorologi, Institut Teknologi
Bandung.
Rachni, Anna. (2012). Penentuan Hiposenter Gempa Mikro Dengan Metode
Single Event Determination, Joint Hypocenter Determination Dan
Double Difference Pada Lapangan Panas Bumi ―Lamda‖. Skripsi
Program Studi Fisika, UPI.
Ramadhan, Irvan. (2013). Aplikasi Metode Tomografi Double Difference Untuk
Menentukan Struktur Kecepatan Gelombang Seismik 3-D Lapangan
Panas Bumi Wayang Windu. Tugas Akhir Program Studi Teknik
Geofisika, ITB. Bandung.
69
Silitonga, P. H., (1973). Peta geologi lembar Bandung, Jawa, skala 1:100.000,
Bandung : Direktorat Geologi.
Siringo, Berliana. (2013). Penjalaran Gelombang. http://www.sharemyeyes.com/
[23 Maret 2014].
Telford, W.M., Geldart, L.P dan Sheriff, R.E., (1990). Applied Geophysics.
Second Edition. Cambridge University Press.
Tselentis, G-A. Serpetsidaki, A. Martakis,N. (2007). Local high-resolution
passive seismic tomography and Kohonen neural networks —
Application at the Rio-Antirio Strait, central Greece, Geophysics,Vol.
72, No. 4 July-August 2007, P B93–B106.
Utami, pri. (2000). Characteristics Of The Kamojang Geothermal Reservoir
(West Java) As Revealed By Its Hydrothermal Alteration Mineralogy.
Proceedings World Geothermal Congress 2000 Kyushu - Tohoku, Japan,
May 28 - June 10, 2000.
Van der Sluis, A., and H.A. van der Vorst (1987). Numerical solution of large,
sparse linear algebraic systems arising from tomographic problems, in:
Seismic tomography, edited by G.Nolet, pp. 49-83, Reidel, Dortrecht.
Wang, Zhijing. Batzle, Michael and Nur, Amos, (1990). Effect Of Different Pore
Fluids On Seismic Velocities in Rocks, Canadian Journal Of Exploration
Geophysics, Vol 26, NO 1 & 2 (December 1990), P 104-112.
Yoshikawa, M., and Y. Sudo, (2004). Three dimensional seismic velocity
structure Toward understanding induced seismicity. Proceedings ThirtySixth Workshop onGeothermal Reservoir Engineering.