Hasil Pencarian  ::  Simpan CSV :: Kembali

"Tesis ini membahas mengenai perbaikan data stack seismik yang jelek. Permasalahan utama mengapa data seismik bisa menjadi jelek adalah disebabkan karena noise - noise yang masih terekam didalam data seismik. Noise - noise ini sangat mengganggu karena menyebabkan data seismik sangat susah untuk diinterpretasi. Struktur seismik, reflektor lapisan, dan fault menjadi kabur karena noise yang masih terkandung didalam data seismik. Tesis ini bertujuan untuk menghilangkan noise yang mengganggu data seismik dengan menggunakan 1D time-varying median filter (TVMF), sehingga reflektor, fault, dan struktur dari seismik bisa menjadi lebih jelas untuk diinterpretasi. Penelitian dilakukan dengan menggunakan software komputasi MATLAB untuk menganalisa sinyal seismik dan membuat program filtering 1D TVMF. Hasil yang diharapkan dari tesis ini adalah hilangnya noise - noise yang mengganggu data seismik, sehingga data seismik bisa diinterpretasi. Kesimpulan akhir adalah bahwa filter 1D time-varying median filter sangat efektif untuk menghilangkan noise - noise yang terkandung didalam data seismik, serta menguatkan gambaran struktur geologinya.

---

The thesis study about enhancement of bad stack seismic data. The reason for seismic data being bad is because of noises that still remain in the seismic data. These noises causing the seismic data become very difficult to interpret. Events such as structure, bed, and fault become blurred because of noises that remain in the seismic data. The objective of this thesis is to repair seismic data by reducing the noise using 1D time-varying median filter (TVMF), so that interpreter could see more clearly of the reflector, fault, and structure. The research is done by using MATLAB as its main tools to analyze seismic signal and to make the 1D TVMF filtering programme. The expected result of this thesis is that the noise of seismic data is completely removed. We can conclude then, the 1D TVMF is very efective to remove noises in seismic data and strengthen the sturcture geology."

"This book offers students, scientists and engineers an extensive introduction to the theoretical fundamentals of digital communications, covering single input single output (SISO), multiple input multiple output (MIMO), and time-variant systems. Further, the main content is supplemented by a wealth of representative examples and computer simulations.The book is divided into three parts, the first of which addresses the principles of wire-line and wireless digital transmission over SISO links. Digital modulation, intersymbol interference, and various detection methods are discussed; models for realistic time-variant, wireless channels are introduced; and the equivalent time-variant baseband system model is derived.Since not all readers may be familiar with this topic, Part II is devoted to the theory of linear time-variant systems. The generalized convolution is derived and readers are introduced to impulse response, the delay spread function, and system functions in the frequency domain. In addition, randomly changing systems are discussed.In turn, Part III deals with MIMO systems. It describes MIMO channel models with and without spatial correlation, including the Kronecker model. Both linear and nonlinear MIMO receivers are investigated. The question of how many bits per channel use can be transmitted is answered and maximizing channel capacity is addressed. Principles of space–time coding are outlined in order to improve transmission quality and increase data rates. In closing, the book describes multi-user MIMO schemes, which reduce interference when multiple users in the same area transmit their signals in the same time slots and frequency bands."