Kinerja Penelitian

Penelitian merupakan salah satu tugas dalam Tridarma Perguruan Tinggi yang wajib dilakukan oleh dosen. Halaman ini menampilkan berbagai penelitian yang telah dilaksanakan oleh dosen di Universitas Komputer Indonesia.


2024 2023 2022 2021 2020 2019 2018 2017 2016 2015 2014 2013 2012 2011 2010 2009 2008 2007 2006 2005 2004 2003 2002 2001 2000

Data Penelitian - Tahun 2016

Menampilkan 50 dari 193 data

Klik pada judul penelitian untuk melihat detail data penelitian

INTERCULTURAL COMMUNICATION IN THE HOUSING ENVIRONMENT
Peneliti

Dr. Manap Solihat, M.Si

Program Studi

ILMU KOMUNIKASI - S1

Deskripsi/Abstrak
-
1ST INTERNATIONAL CONFERENCE ON INTERDISCIPLINARY ACADEMIC RESEARCH AND INNOVATION (IARI-NOVEMBER, 23-24, 2016) IARI © 2016 BANDUNG, INDONESIA. GLOBAL ILLUMINATORS, KUALA LUMPUR, MALAYSIA
Peneliti

Selvia Lorena Br Ginting, S.Si., M.T Assoc. Prof. John Adler, S.Si, M.Si

Program Studi

TEKNIK KOMPUTER - D3

Deskripsi/Abstrak
Seismic wave parameter plays very important role to characterize reservoir properties whereas pore parameter is one of the most important parameter of reservoir. Therefore, wave propagation phenomena in pore media is important to be studied. By referring this study, in-direct pore measurement method based on seismic wave propagation can be developed. Porosity play important role in reservoir, because the porosity can be as compartment of fluid. Many type of porosity like primary as well as secondary porosity. Carbonate rock consist many type of porosity, i.e.: inter granular porosity, moldic porosity and also fracture porosity. The complexity of pore type in carbonate rocks make the wave propagation in these rocks is more complex than sand reservoir. We have studied numerically wave propagation in carbonate rock by finite difference modeling in time-space domain. The medium of wave propagation was modeled by base on the result of pattern recognition using artificial neural network. The image of thin slice of carbonate rock is then translated into the velocity matrix. Each mineral contents including pore of thin slice image are translated to velocity since mineral has unique velocity. After matrix velocity model has been developed, the seismic wave is propagated numerically in this model. The phenomena diffraction is clearly shown while wave propagates in this complex carbonate medium. The seismic wave is modeled in various frequencies. The result shows dispersive phenomena where high frequency wave tends to propagate in matrix instead pores. In the other hand, the low frequency waves tend to propagate through pore space even though the velocity of pore is very low. Therefore, this dispersive phenomena of seismic wave propagation can be the future indirect measurement technology for predicting the existence or intensity of pore space in reservoir rock. It will be very useful for the future reservoir characterization. Keywords: carbonate, dispersive phenomena, rock physics
PKI BANGKIT LAGI?
Peneliti

H Budi Mulyana, M.Si, S.IP

Program Studi

HUBUNGAN INTERNASIONAL - S1

Deskripsi/Abstrak
-