Your search keyword '"J. T. Sri Sumantyo"' showing total 12 results

1. Land Subsidence Assessment of Bandung City, Indonesia in Geological Perspective, Based on Interferometric SAR Using C-band Data

Author

J. Widodo, H. S. Naryanto, null Wisyanto, N. Hidayat, A. P. Putra, Y. Izumi, D. Perissin, and J. T. Sri Sumantyo

Published

2021

2. Aircraft and High Altitude Platform System Onboard Circularly Polarized Synthetic Aperture Radar (CP-SAR)

Author

Cahya Edi Santosa, Chua Ming Yam, Ayaka Takahashi, Koichi Ito, and J. T. Sri Sumantyo

Subjects

Physics, Synthetic aperture radar, Altitude, Axial ratio, C band, Polarimetry, Radio frequency, Antenna (radio), Flight test, Remote sensing

Abstract

Chiba University proposed and developed airborne and high altitude platform system (HAPS) onboard C band circularly polarized synthetic aperture radar (CP-SAR) for environment and disaster monitoring on altitude 2–20 km. This paper explains concept, system configuration, RF system and antenna, and flight test of CP-SAR in Hinotori-C2 (Firebird-C2) mission onboard CN235MPA aircraft on 14–15 March 2018 at Indonesia. The result of flight test depicts full polarimetric CP images that shows good performance of CP-SAR. The assessment of CP image analysis, and novel image classification using axial ratio (AR), ellipticity (e), and polarization ratio (p) are discussed. We plan to hold the flight test of HAPS onboard CP-SAR in 2023.

Published

2021

3. Hinotori-C2 Mission : CN235MPA Aircraft Onboard Circularly Polarized Synthetic Aperture Radar (CP-SAR)

Author

A. Mardiyanto, Sudaryatno, Gunawan Wibisono, Cahya Edi Santosa, Eko Tjipto Rahardjo, Kengo Tsushima, Good Fried Panggabean, Barandi Sapta Widartono, Taufik Hery Purwanto, Bambang Setiadi, Steven Gao, Retnadi Heru Jatmiko, E. Supartono, K. Sasmita, Ming Yam Chua, Robertus Heru Triharjanto, J. T. Sri Sumantyo, Koichi Ito, F. D. Sri Sumantyo, Tomoro Watanabe, and Muhammad Kamal

Subjects

Physics, Synthetic aperture radar, 010504 meteorology & atmospheric sciences, Contextual image classification, C band, Axial ratio, 0211 other engineering and technologies, Polarimetry, 02 engineering and technology, Polarization (waves), 01 natural sciences, Flight test, Circular polarization, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Remote sensing

Abstract

Chiba University proposed and developed airborne C band circularly polarized synthetic aperture radar (CP-SAR) for environment and disaster monitoring. This paper explains concept, system configuration, RF system and antenna, and flight test of CP-SAR in Hinotori-C2 (Firebird-C2) mission onboard CN235MPA aircraft on 14-15 March 2018 at Indonesia. The result of flight test depicts full polarimetric CP images that shows good performance of CP-SAR. The assessment of CP image analysis, and novel image classification using axial ratio (AR), ellipticity (e), and polarization ratio (ρ) are discussed.

Published

2019

4. Application of Polarimetric Decomposition and Interferometric SAR Using ALOS-2 PALSAR-2 Data to Detect Potential of Combustible Peatland Areas

Author

Y. Izurni, Achmad Munir, Ayaka Takahashi, Pakhrur Razi, Joko Widodo, Adi Suryadi, Daniele Perissin, J. T. Sri Sumantyo, Husnul Kausarian, and Peberlin Sitompul

Subjects

Synthetic aperture radar, Peat, Pixel, Remote sensing (archaeology), Water table, Interferometric synthetic aperture radar, Subsidence (atmosphere), Environmental science, Groundwater, Remote sensing

Abstract

Forest fire in Indonesia occurred mostly in peatland area when the peatland areas were dried with groundwater table more than 40 cm. This peatland condition has become degradation areas with high potentials to fire. Some previous research utilized optics data remote sensing to detect the potential combustible peatland area while others concerned on backseat-tering information of synthetic aperture radar data compared with Forest Fire Danger Rating System (FDRS) data to identify a peat fire risk area. Peatland is prone to fire, usually associated with land that is open, close to the road, and dry conditions. In this research, polarimetric decomposition and interferometric SAR techniques have been used to determine the potential of combustible peatland area. Polarimetric Decomposition is easier to use to recognize open peatland areas. Besides that, it can also be used to identify roads and canals in peatland areas. Based on the research carried out this time, by implementing the Yamaguchi three-component model-based decomposition, we easily distinct areas that are exposed to peatlands. The dominant surface scattering marks open spaces. By using interferometric SAR technique, we also easily map areas experiencing subsidence. Regions that experience subsidence in peatland areas are usually dry areas with low groundwater conditions. Based on the results of interferometric synthetic aperture radar by using ALOS-2 PALSAR-2 data, subsidence conditions have been found in this area of peatland. SAR ALOS-2 PALSAR-2 image acquired on May 9, 2015, is used as master image and image received on March 25, 2017, is used as a slave image. Phase interferogram generated with multi-looking 5 × 5 pixels, Goldstein filtering 5 × 5 pixels, and normal baseline -43 m, and H-ambiguity 1049.4. Annual subsidence rate average was 2.8 cm/year, minimum 2.5 cm/year, and a maximum of 3.5 cm/year. The subsidence rate then converted to groundwater level information based on Woosten model and validated by using groundwater table measurement from the field. The simulation of groundwater table in average is 69.4 cm, with minimum value 63 cm and maximum value 87 cm. Based on validation and compared to the field data with correlation 0.85, and the area confirmed as high potential of combustible peatland area.

Published

2019

5. Single Post-Event PolSAR Data Based Earthquake/Tsunami Damage Information Extraction in Urban Areas

Author

Ming Yam Chua, Mirza Muhammad Waqar, Yaqi Ji, and J. T. Sri Sumantyo

Subjects

Polarimetric sar, Data set, Information extraction, Electromagnetics, Orientation (computer vision), Computer science, Event (computing), Feature extraction, Classification methods, computer.software_genre, computer, Remote sensing

Abstract

An unsupervised earthquake/tsunami damage information extraction method using single post-event polarimetric SAR data is proposed in this paper. All urban areas are extracted by an improved classification method which can effectively discriminate urban and foreshortening mountain areas, they are grouped into four kinds of buildings to detect damaged buildings. The proposed unsupervised method can explicitly detect all the damaged buildings, including those with large orientation angle which are easily recognized as undamaged buildings. The technique is validated based on the study about Tohoku earthquake/tsunami event, and is implemented on the L-band ALOS/PALSAR data set. The analysis in this paper verifies that the proposed method can achieve accurate damage information.

Published

2018

6. An 8-Channels FPGA-Based Reconfigurable Chirp Generator for Multi-Band Full Polarimetric Airborne/Spaceborne CP-SAR

Author

Yaqi Ji, J. T. Sri Sumantyo, and Ming Yam Chua

Subjects

Synthetic aperture radar, Generator (computer programming), Computer science, business.industry, 020208 electrical & electronic engineering, Polarimetry, Control unit, 020206 networking & telecommunications, 02 engineering and technology, Synchronization, Direct digital synthesizer, 0202 electrical engineering, electronic engineering, information engineering, Chirp, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, business, Field-programmable gate array, Computer hardware

Abstract

This paper outlines the development work of a new Field Programmable Gate Array (FPGA) based chirp generator from which the new chirp generator is capable of synthesizing 4 pairs of I & Q chirp signals. The paper first proposes a multi-channel Direct Digital Synthesis (DDS) based reconfigurable chirp generator architecture whereby the chirp signal properties for each channel are independently reconfigurable in real-time. In addition, a reconfigurable Timing and Control Unit (TCU) is embedded into the system to generate the important timing synchronization signals which are essential for SAR hardware system. The proposed chirp generator is implemented on a custom-designed FPGA-based hardware platform with 8 on-board independent channels of Digital-to-Analog Converter (DAC). In future, the system will be used in Josaphat Microwave Remote Sensing Laboratory (JMRSL) airborne and spaceborne dual-band (C/X) full polarimetric Circularly Polarized Synthetic Aperture Radar (CP-SAR) system.

Published

2018

7. An PC-based Airborne SAR Baseband System

Author

S. P. Parulian, Mohammad Nasucha, Ming Yam Chua, Cahya Edi Santosa, Good Fried Panggabean, Yaqi Ji, and J. T. Sri Sumantyo

Subjects

Synthetic aperture radar, Pulse repetition frequency, Computer science, Bandwidth (signal processing), Electronic engineering, Baseband, Chirp, Waveform, Arbitrary waveform generator, Pulse-width modulation

Abstract

This paper presents the development work of a PC-based airborne SAR baseband system that integrates commercial off-the-shelf Arbitrary Waveform Generator (AWG) and highspeed digitizer, and a custom-designed Timing and Control Unit (TCU). The proposed system is general purpose, in which the critical operating parameters such as waveform modulation format, baseband bandwidth, pulse width, pulse repetition frequency, and all the relevant timing and control signals are re-configurable in real-time. As a brief functional summary of the system, it can, i) generates 2-channel (I & Q) of 1.2 GHz (maximum) bandwidth chirp signal with its pulse width ranged from 0.5 us to $100\ \mu\mathrm{s}$ , ii) able to digitize 2-channel (I & Q) of 1 GHz (maximum) bandwidth chirp echoes with on-board 4 G-Samples of recording buffer, and iii) generate accurate and precise timing and control signals with timing resolution of 10 ns. The system is currently deployed as the baseband and control system for Josaphat Microwave Remote Sensing Laboratory (JMRSL) C band airborne full polarimetric Circularly Polarized Synthetic Aperture Radar (CP-SAR) sensor built for Earth surface, environmental, and disaster monitoring.

Published

2018

8. Unidirectional Radiation and Gain Enhancement of Circularly Polarized Printed Slot Antenna by Several Shapes of Reflector

Author

J. T. Sri Sumantyo, Asif Awaludin, and Cahya Edi Santosa

Subjects

Physics, Wavelength, Horn antenna, Optics, business.industry, Bandwidth (signal processing), Slot antenna, Radiation, Equilateral triangle, business, Conductor, 3d printer

Abstract

A printed slot antenna performs a bi-directional radiation with backward radiation of cross-polarization as the unwanted wave and a low gain due to no ground layer below the feedline. These characteristics can be altered by installing a ground conductor below the antenna to reflect the backward radiation. The height of the ground distance between the antenna and bottom part of the ground reflector usually a quarter wavelength to obtain an in-phase signal of the reflected wave which strengthens the antenna radiation to enhance the gain of the combined wave. The shape of the ground reflector determines the gain of the antenna. The square plain conductor has lowest gain performance, thus it is not put into consideration in this research. This paper investigates the performance of several ground reflector shapes to convert the bi-directional radiation and improve the gain of an equilateral triangular slot (ETS) printed slot antenna which has a gain of 4.5 dBic. A truncated cone reflector installed on the equilateral triangular slot antenna has better gain than square and cylindrical cup reflector. This better performance thanks to the functions of the truncated cone which not just as a reflector but also acts as a horn antenna. Due to the last function, the distance between tha antenna and the bottom part of the truncated cone is a half wavelength. Thus the size of the cone reflector is larger than the other two. The truncated cone reflector was fabricated using 3D printer technology and coated with a conductive material. Measured results of the truncated cone reflector present RHCP performance and a a peak gain of 11.9 dBic.

Published

2018

9. DEVELOPMENT OF A NEW GEOSPATIAL DATA SHARING/OVERLAY SYSTEM FOR LAND ENVIRONMENTAL STUDIES – CERES GAIA –

Author

J. T. Sri Sumantyo, Ryutaro Tateishi, A. Miyazaki, and H. Sumitani

Subjects

lcsh:Applied optics. Photonics, Geospatial analysis, Database, lcsh:T, Download, business.industry, lcsh:TA1501-1820, computer.software_genre, lcsh:Technology, Open system (systems theory), Data sharing, Environmental studies, World Wide Web, Upload, Geography, lcsh:TA1-2040, Server, Web application, lcsh:Engineering (General). Civil engineering (General), business, computer

Abstract

A new geospatial data sharing/overlay system, CEReS Gaia, has developed. The purpose of the system development is to promote land surface environmental studies. The system has developed to meet the requirements by academic users who wish easy data analysis by using his/her own data with existing other data. The system has the following features; a) internationally unlimited expansion of servers, b) multi-language capability (currently, only English), c) free access without user registration, d) data upload/download by registered users, e) capability to overlay user’s data on other registered data, f) option of open or selective data distribution.

Published

2018

10. Hinotori-X1 Mission: X Band Walr-Sar Onboard Boeing 737–200 Aircraft

Author

Steven Gao, K. Sasmita, A. Mardianto, T. Kobori, Gunawan Wibisono, R. Katoh, Eko Tjipto Rahardjo, J. T. Sri Sumantyo, P. Edi, Koichi Ito, F. D. Sri Sumantyo, and Kengo Tsushima

Subjects

Synthetic aperture radar, Disaster monitoring, Wide area, X band, Environmental science, Image acquisition, Center frequency, Polarization (waves), Flight test, Remote sensing

Abstract

We developed a novel concept for X-band (center frequency 9.4 GHz, HH polarization) airborne SAR, the Wide Area Long Range Synthetic Aperture Radar (WALR-SAR) onboard a Boeing 737–200 aircraft for simultaneous air and terrestrial disaster monitoring. This paper explains the configuration of our WALR-SAR system and slotted array antenna installed on the Boeing 737–200. Ground measurements of the slotted array antenna were realized to measure the characteristics of antenna and its results are discussed in this paper. Flight test of WALR-SAR onboard Boeing 737–200 in Hinotori-X1 (Firebird-X1) mission was performed during the period of 2 to 10 August 2017 at Pare-Pare and Makassar, Indonesia. Results show good performance of the WALR-SAR system and its image acquisition that covers the depression angle 0.5 to 42.0 degrees.

Published

2018

11. Development of a circularly polarized L-band SAR deployable mesh reflector antenna for microsatellite earth observation

Author

J. T. Sri Sumantyo, Koichi Ito, Steven Gao, Katia Nagamine Urata, and Nobuyoshi Imura

Subjects

Physics, Fan-beam antenna, Coaxial antenna, Cassegrain antenna, business.industry, Offset dish antenna, 05 social sciences, Antenna measurement, 0211 other engineering and technologies, Reflector (antenna), 02 engineering and technology, Antenna rotator, Periscope antenna, Optics, 0502 economics and business, business, 050203 business & management, 021101 geological & geomatics engineering

Abstract

The first circularly polarized L-band synthetic aperture radar (CP-SAR) antenna on-board the small satellite mission GAIA-II is presented. The antenna is a deployable mesh reflector antenna, with gain larger than 30 dBic and narrowband around center frequency of 1.275 GHz. The main mission of GAIA–II is land deformation monitoring and disaster prevention and mitigation. The current work describes the development of a compact CP L-band antenna onboard the microsatellite CP-SAR, focusing the design & simulation of the reflector dish and structures.

Published

2017

12. L band circularly polarized synthetic aperture radar onboard microsatellite using parabolic mesh antenna

Author

J. T. Sri Sumantyo, Katia Nagamine Urata, Steven Gao, Nobuyoshi Imura, and Koichi Ito

Subjects

Physics, Synthetic aperture radar, 020301 aerospace & aeronautics, L band, Coaxial antenna, business.industry, Astrophysics::Instrumentation and Methods for Astrophysics, 0211 other engineering and technologies, Side looking airborne radar, 02 engineering and technology, Deformation (meteorology), Rf system, Computer Science::Graphics, Optics, 0203 mechanical engineering, Radar imaging, Antenna (radio), business, Computer Science::Information Theory, 021101 geological & geomatics engineering

Abstract

Our laboratory develops L Band circularly polarized synthetic aperture radar (SAR) sensor for microsatellite (150kg class) using 3.6m diameter of gold coated parabolic mesh antenna. This presentation explains the specification, antenna deployment system, RF system, and characteristics of parabolic mesh antenna for the developed sensor. This sensor will be employed to monitor global land deformation in the future.

Published

2017