Hasil Pencarian  ::  Simpan CSV :: Kembali

"Sea Clutter: Scattering, the K Distribution and Radar Performance gives an authoritative account of our current understanding of radar sea clutter. The authors pay particular attention to the compound K distribution model, which they have developed over the past 20 years. Evidence supporting this model, including a detailed review of the calculation of EM scattering by the sea surface, its statistical formulation, and practical application to the specification, design and evaluation of radar systems are all discussed. The calculation of the performance of practical radar systems is presented in sufficient detail for the reader to be able to tackle related problems with confidence.This book should be invaluable to specialist radar engineers and academic researchers, and of considerable interest to the wider applied physics and mathematics communities."

"Pesatnya pertumbuhan penduduk di daerah urban, menyebabkan pembangunan infrastruktur di daerah tersebut semakin meningkat. Berdasarkan hal tersebut, kebutuhan seperti, air, gas, penerangan jalan, dan litrik semakin meningkat. Hal ini membuat data mengenai persebaran utilitas pada bawah permukaan dianggap penting untuk dipetakan. Sehingga data persebaran utilitas dapat digunakan sebagai data awalan dalam pembangunan infrastruktur baru. Pada penelitian ini menggunakan metode geofisika ground penetrating radar yang menggunakan gelombang elektromagnetik dan perbedaan konstanta dielektrik pada suatu medium. Pemetaan pada daerah urban dilakukan pada 11 lintasan dengan menggunakan alat GPR dengan frekuensi sebesar 400MHz. Sehingga, didapatkan jenis dan juga kedalaman pada daerah penelitian yaitu Kabel Fiber Optic, pipa PDAM, pipa Gas PGN, dan kabel Public Street Light. Kedalaman utilitas yang ditemukan berada pada kedalaman 0.12m-1.44m dan didominasi oleh kabel Public Street Light dan kabel Fiber Optic

---

The rapid population growth in urban areas has caused the development of infrastructure in these areas to increase. Based on this, needs such as water, gas, street lighting, and electricity are increasing. This makes data on the distribution of utility on the surface considered important to be mapped. So that the utility distribution data can be used as initial data in the construction of new infrastructure. This research uses a ground penetrating radar geophysical method that uses electromagnetic waves and differences in dielectric constants in a medium. Mapping in urban areas is carried out on 11 tracks using a GPR device with a frequency of 400MHz. So that the types and depths in the research area are obtained, namely Fiber Optic Cables, PDAM pipes, PGN Gas pipes, and Public Street Light cables. The utility depth found is at a depth of 0.12m-1.44m and is dominated by Public Street Light cables and Fiber Optic cables."

"This book provides an analysis of transmission power and network performance in different wireless communication networks. It presents the latest research and techniques for power and interference control and performance modeling in wireless communication networks with different network topologies, air interfaces, and transmission techniques. While studying the power distributions and resource management, the reader will also learn basic methodology and skills for problem formulations, can ascertain the complexity for designing radio resource management strategies in modern wireless communication networks, thus keeping pace with state-of-the-art research progress in radio transmission technologies."

"Curah hujan merupakan salah satu unsur iklim yang sangat bervariasi terhadap ketinggian dalam distribusi spasial dan temporalnya. Distribusi curah hujan spasial dan temporal didapatkan dari radar cuaca dan stasiun observasi. Melalui pemetaan spasial dan temporal penelitian ini akan mengungkapkan perbandingan distribusi curah hujan antara radar cuaca dengan stasiun observasi curah hujan terhadap ketinggian. Hasil pengolahan data menunjukan distribusi curah hujan terbanyak pada ketinggian 500-1.000 mdpl dimana semakin tinggi ketinggian tempat maka distribusi curah hujannya semakin menurun baik dari hasil radar cauca maupun stasiun observasi. Analisis temporal memberikan hasil kesamaan waktu kejadian curah hujan tertinggi dari radar cuaca dan stasiun observasi pada pukul 12:00 sampai 18:00.

---

Rainfall is one of the climate element that highly variable from elevation in spatial and temporal distribution. The spatial and temporal rainfall distribution obtained from weather radar and observation stations. This research will reveal rainfall distribution comparison between weather radar with rainfall observation station of elevation. Through spatial and temporal mapping of.

The results of data processing shows rainfall distribution at an altitude 500-1.000 meters above sea level where the higher altitude of the distribution of rainfall decreases both from the weather radar and observation stations. Temporal analysis provides results in common occurrence time of the highest rainfall weather radar and weather observation station at 12:00 to 18:00."

"Kalimantan Tengah merupakan salah satu daerah dengan potensi cadangan pasir silika terbesar di Indonesia. Pasir silika merupakan mineral bukan logam yang dimanfaatkan sebagai material bangunan. Oleh karena itu, potensi persebaran pasir silika di bawah permukaan diidentifikasi menggunakan survei geofisika. Dalam penelitian ini, metode Resistivitas dengan konfigurasi Wenner Alpha dan Ground Penetrating Radar dengan konfigurasi radar reflection profiling merupakan salah dua metode geofisika yang digunakan untuk mengetahui keadaan bawah permukaan. Metode Ground Penetrating Radar digunakan untuk mengkonfirmasi hasil pengolahan data metode resistivitas karena metode resistivitas dilakukan pengukuran di area dengan permukaan pasir silika sehingga menyulitkan injeksi arus ke bawah permukaan. Selain itu, data bor digunakan sebagai data sekunder untuk membantu dalam interpretasi hasil pengolahan data. Hasil pengolahan data adalah penampang 2D metode Resisitivitas yang berisi nilai resistivitas sebenarnya bawah permukaan dan penampang 2D radargram GPR, serta penampang 2D nilai permitivitas relatif GPR. Berdasarkan hasil tersebut, nilai resistivitas pasir silika sebesar > 136 Ωm dan nilai permivitas relatif sebesar 16 - 26. Dari hasil pengolahan dan interpretasi kedua metode, ditemukan persebaran pasir silika pada kedalaman kurang dari 10 m dan lebih dari 30 m.

---

Central Kalimantan is one of the areas with the largest potential reserves of silica sand in Indonesia. Silica sand is a non-metallic mineral that is used as a building material. Therefore, the potential distribution of silica sand below the surface can be identified using geophysical surveys. In this research, the Resistivity method with a Wenner Alpha configuration and Ground Penetrating Radar with a reflection profiling radar configuration are two geophysical methods used to determine the condition of the subsurface. The Ground Penetrating Radar method was used to confirm the results of the resistivity method data processing because the resistivity method was measured in an area with a silica sand surface, making it difficult to inject current into the subsurface. In addition, drill data is used as secondary data to assist in the interpretation of data processing results. The result of data processing is a 2D cross section of the Resisitivity method which contains the actual resistivity value of the subsurface, 2D cross section of the GPR radargram, and 2D cross section of the GPR relative permittivity value. Based on these results, the resistivity value of silica sand is > 136 Ωm and the relative permittivity value is 16 - 26. From the results of processing and interpretation of the two methods, it was found that the distribution of silica sand was at depths of less than 10 m and more than 30 m."

"Karakterisasi reservoar di lapangan Barent Sea telah dilakukan dengan integrasi analisa atribut seismik dan inversi seismik. Analisa atribut seismik dilakukan untuk mengidentifikasi batas lapisan, yang diindikasikan dengan adanya perbedaan jenis batuan antara dua lapisan. Di samping itu, inversi seismik digunakan untuk memperlihatkan impedansi akustik, yang sangat penting untuk mengetahui properti dari lapisan. Kedua atribut ini (amplitude seismik dan impedansi akustik) diharapkan berguna untuk mengkarakterisasi reservoar secara lengkap. Studi ini menggunakan data seismic 2D dan 3 data sumur. Analisa difokuskan pada dua horison, yang dipercaya sebagai target reservoar. Hasil peta horison dianalisis untuk mendapatkan peta distribusi reservoar. Hasil dari semua atribut menunjukan konfirmasi reservoar dengan nilai impendansi akustik tinggi antara 40000 - 50000 (gr/cc)*(m/s), nilai gamma ray dibawah 100 API, serta nilai resistivitas yang tinggi antara 13,4 ? 14,8 ohm - m.

---

Reservoir characterization in Barent Sea field has been carried out by integrating seismic attribute analysis and seismic inversion. Seismic attribute analysis is performed to identify layer interface, which is indicated with the contrast between two layers. In other hand, the seismic inversion is applied to provide the acoustic impedance, which is important in understanding the property of layer body. These two attributes (seismic amplitude and acoustic impedance) are expected to be useful in investigating the reservoir completely.This study is based on 2D seismic data and 3 well log data. The analysis is focused on two horizons, which is believed as target reservoir. The generated horizon map is analyzed to map the reservoir distribution. The results show a confirmation of all the attributes of the reservoir with high acoustic impedance value between 40000-50000 (g / cc) * (m / s), the value of gamma rays above 100 API, as well as high resistivity values between 13.4 to 14.8 ohm - m."

"Curah hujan merupakan salah satu unsur iklim yang sangat bervariasi terhadap ketinggian dalam distribusi spasial dan temporalnya. Distribusi curah hujan spasial dan temporal didapatkan dari radar cuaca dan stasiun observasi. Melalui pemetaan spasial dan temporal penelitian ini akan mengungkapkan perbandingan distribusi curah hujan antara radar cuaca dengan stasiun observasi curah hujan terhadap ketinggian. Hasil pengolahan data menunjukan distribusi curah hujan terbanyak pada ketinggian 500-1.000 mdpl dimana semakin tinggi ketinggian tempat maka distribusi curah hujannya semakin menurun baik dari hasil radar cauca maupun stasiun observasi. Analisis temporal memberikan hasil kesamaan waktu kejadian curah hujan tertinggi dari radar cuaca dan stasiun observasi pada pukul 12:00 sampai 18:00.

---

Rainfall is one of the climate element that highly variable from elevation in spatial and temporal distribution. The spatial and temporal rainfall distribution obtained from weather radar and observation stations. This research will reveal rainfall distribution comparison between weather radar with rainfall observation station of elevation. Through spatial and temporal mapping of.

The results of data processing shows rainfall distribution at an altitude 500-1.000 meters above sea level where the higher altitude of the distribution of rainfall decreases both from the weather radar and observation stations. Temporal analysis provides results in common occurrence time of the highest rainfall weather radar and weather observation station at 12:00 to 18:00."