Category Archives: Radar

Labs247 : Mengenal HGrid, YAVA dan Chanthel di Workshop Big Data

Labs247 bekerja sama dengan Universitas Negeri Sebelas Maret (UNS) dan IDBigData baru saja menyelenggarakan Workshop Big Data. Kegiatan workshop tersebut diselenggarakan selama 2 hari yaitu hari Selasa-Rabu, 12-13 Desember 2017 dengan jumlah peserta sebanyak kurang lebih 45 orang. Penyelenggaraan Workshop Big Data dilaksanakan di Sala View Hotel, Solo. Kegiatan ini merupakan kerjasama antara Labs247 dengan Universitas Negeri Sebelas Maret (UNS) dan IDBigData. Workshop Big Data yang telah dilaksanakan dengan sukses ini berisi materi Chanthel, YAVA, dan HGrid.

Chanthel, YAVA dan HGrid merupakan produk lokal yang tidak kalah hebat dengan produk-produk dari luar. Apa itu Chanthel, YAVA dan HGrid?

  1. CHANTHEL
    Apa itu CHANTHEL? Chanthel adalah Document Management System. Chanthel menjalankan kemampuan Searching with Apache Solr. Dilengkapi dengan teknologi Optical Character Recognition (OCR), Chanthel mengenali teks dari gambar atau dokumen yang dipindai dan secara otomatis mengubahnya menjadi file format teks yang dapat diedit.
  2. YAVA Hadoop
    YAVA Hadoop merupakan kompilasi dari platform Big Data dimana platform-platform tersebut 100% open source. YAVA Hadoop menggunakan kekuatan ekosistem Apache Hadoop dan dirancang untuk membantu mempercepat penerapan-penerapan Hadoop beserta ekosistemnya di Indonesia.
  3. HGRID
    Hadoop Grid atau HGrid adalah kerangka perangkat lunak sumber terbuka untuk menyimpan data dan menjalankan aplikasi pada kelompok perangkat keras komoditas buatan lokal, produk ini sendiri digarap oleh Bpk. Solechoel Arifin dari PT. Dua Empat Tujuh. Ini menyediakan penyimpanan besar-besaran untuk semua jenis data, kekuatan pemrosesan yang besar dan kemampuan untuk menangani tugas atau pekerjaan tanpa batas secara tak terbatas.

Dalam kegiatan workshop big data tersebut, Labs247 mengirim mengirim beberapa trainer diantaranya Bpk. Sigit Prasetyo (Head of Knowledge LABS247) serta team Labs247 yang berlokasi di Yogyakarta diantaranya adalah Arief dolants, M. Ibnu Abdissalam, Fitroh Hidayatullah, Saryoto, dan Septian Galih Priyatna.

Labs247 Bersama Dengan BMKG Mengembangkan Radar Cuaca WX-1

Labs247 dan BMKG bekerjasama mengembangkan teknologi Hi-tech: Weather Radar WX-1. Proses pengukuran Radar Cuaca WX-1 yang dikembangkan oleh Labs247 ini dilakukan di Geostech, Puspitek Serpong. Agenda yang dilaksanakan saat pengukuran radar adalah melakukan komparasi dan kemudian radar tersebut di evaluasi. Proses pembuatan radar ini pun dilakukan melalui 2 fase, yaitu fase horizontal scanning dan fase vertical scanning ditambah fitur-fitur yang diminta oleh BMKG, dimana BMKG sendiri disini yang nantinya akan menjadi usernya.

Panjang gelombang yang dipancarkan radar tersebut adalah sejauh 60 km secara horizontal dan vertikal dengan hasil yang lebih detail.

Radar Cuaca WX-1 ini dibuat khusus untuk situasi cuaca di Indonesia. Apa kelebihannya? Berbicara mengenai kelebihan, radar ini berpontensi akan sangat menguntungkan karena selain radar WX-1 ini sangat canggih, power transmit weather radar WX-1 ini juga hanya 30 watt dan untuk konsumsi keseluruhan tenaganya tidak sampai 500 watt karena radar ini sudah memakai teknologi Frequency Moculated Continuous Wave (FMCW).

Direncanakan nantinya radar tersebut akan diimplementasikan di bandara-bandara perintis di Indonesia.

The Importance of The Use of “National Radar”

As most people know, currently Indonesian people have mastered the technology of RADAR, mainly on coastal surveillance RADAR and vessels RADAR with Frequency Modulated Continuous Wave (FMCW) technology. The mastery of technology covers the design, antenna fabrication, electronic devices (transmitter and receiver), signal processing devices,  Plan Position Indicator (PPI) / Operator display and detecting-tracking ability.


Why using our RADAR, not the others?

indera4

Not only on main technology of RADAR, but also the mastery of technology continues to other critical areas such as anti jamming technology with frequency hopping method, specific algorithms implementation to enhance RADAR’s detecting and tracking performance and also the image of low detectable objects like cFar and Doppler FFT, etc. Overlaying technology with electronic maps, sensors such as Automatic Identification System (AIS) , weather data, gyro, compass and others have also been successfully implemented.

Furthermore, with the mastery of overlaying techniques refined by direct programming in the graphic card (previously by conventional programming) with parallel programming and multi threading, RADAR network monitoring (multiple RADARs) in a single map can be successfully carried out without consuming a massive and expensive computing power.

In data communication, the data traffic between the RADAR antenna and remote observation monitor (for instance located in different island) which used to require 10 Megabit/s or higher data bandwidth, it can now be optimized into less than 200 kilobit/s. It means that a RADAR antenna located in a remote area can be optimally monitored in a central monitoring unit using a common communication data channel such as GSM.

Database system is also embedded as a part of the ecosystem so that data recording can be carried out for various data types like structured data, semi structured data or unstructured ones. The recorded data can be used for an analysis, a replay and other possible purposes, in case they are needed. Database system is also used as a vessel supporting data, either for the RADAR unit or for the monitoring unit.

The Systemic Use

Based on the explanation above, such technology has currently been implemented and used by Indonesian navy force specifically in Indonesian warship (KRI) of Sultan Thaha Syaifuddin in which the RADAR has been in service for over a year. One RADAR has also been installed in other Indonesian warship, KRI Oswald Siahaan and still undergoing Harbor Acceptance Test (HAT) and Ship Acceptance Test (SAT), and another RADAR is also soon going to be installed and used in KRI Yos Sudarso in which the unit is still under fabrication process.

kapal

In addition to our RADARs, we also produce ECDIS (Electronic Chart and Display Information System) which has been installed in 3 different Indonesian warships including KRI Dewa Rutji. ECDIS is an electronic navigation device implementing electronic chart S57/S63 complying with International Maritime Organization (IMO) and International Hydrographic Organization (IHO) as well as all integrated sensors like gyro, compass, AIS, GPS, Navtex, Wheatherfax in a single unit of monitoring display.

The latest product we are developing is RADAR surveillance system for vessels traffic and other existing moving objects in waterways or ship harbors. This system is also named as Vessel Traffic Surveillance (VTS) with extended range enabling the received data to be integrated with the some applications in the harbor’s system such as Billing application, Manifest application, etc. Currently, several of our applications are being tested in the Harbor of Tanjung Priok.

ais object jarak jauh

The implementation of RADAR surveillance or VTS in Indonesian waterways and harbors is very poor and this fact makes us believe that the technology we are offering is highly needed by our country. The technology supply developed by its own people gives this country a lot of advantages and some of them are:

  • Our technology independency
  • The development and improvement of the related basic skills
  • More cost-efficient systemic supply
  • Direct operational and after sale supply, etc.

Industry, Educational and Research institutions Partnership

The industry we have been developing in term of RADAR and Radio Frequency (RF) devices as well as the software shall not surely run independently. This industry requires a partnership with several other industries such as:

  • Console industry/metal industry or RADAR’s stator and rotor manufacture
  • Print Circuit Board (PCB) industry
  • Mecatronic industry
  • Electronics industry for modules manufacture like frequency divider, power supply, motor regulator, etc.
  • Computer and the supporting software industry.

The support of research institutions such as Indonesian Science and Research Institution (LIPI) and BPPT as well as educational institutions such as Bandung Institute of Technology (ITB) and University of Indonesia (UI) –which is equipped with its own research and measuring laboratory – has been proven very vital and effective in giving us practical technical advises and also in conducting researches to find solutions to our basic scientific problems. Some algorithms implementations solving the problems of how to eliminate the effects of the interferences were recommended by the intellectuals of those institutions.

monitoringconning

console ecdis 3-4

The Point is to use National Products

The mastery of further technology will give us more advantages. The further technologies are:

  • Pulse Compression RADAR
  • Synthetic Aperture RADAR
  • Over the Horizon RADAR
  • Weather RADAR

By having better software and all integrated systems applied in this technology, there will be more opportunities for our people to be researchers and developers, and it will surely bring more advantages to our country for having independent systems developed by its own people, as all of us have expected.


One-Day Course on Atmospheric Radar

The aim of this one-day intensive course is to give an introductory overview on the fundamentals, theory and practice of present and future atmospheric/weather radar system. In particular, system which were built by the International Research Centre for Telecommunications and Radar (IRCTR) at the Delft University of Technology, The Netherlands, are selected for in-depth discussion during the course. In Indonesia these systems are offered for local development and production based on knowledge transfer via IRCTR- Indonesia (IRCTR-I).

Course Presenter

LEOProf. Leo P. Ligthart Dr. H.C., PH.D., M.Sc., FIEE, FIET.

Leo P. Ligthart was born in Rotterdam, the Netherlands, on September 15, 1946. He received an Engineer’s degree (cum laude) and  a Doctor of Technology degree from Delt University of Technology in 1969 and 1985, respectively. He is Fellow if IET and IEEE, and member of the IEEE AESS Board of Governors 2013-2015. He received Doctorates (honoris causa) at Moscow State Technical University of Civil Aviation in 1999, Tomsk State University of Control Systems and Radioelectronics in 2001 and the Military Technical Academy Bucharest in 2010. He is academician of the Russian Academy of transport.

In 1988 he was appointed as professor on Radar Positioning and Navigation, and since 1992 he has held the chair of Microwave Transmiddion, Radar and Remote sensing in the Departement of Electrical Engineering, Mathematics and Computer Science, Delft University of Technology. In 1994, he founded the International Research Center for Telecommunications and Radar (IRCTR) and became the director of IRCTR. He received several awards from Veder, IET, MIKOM, EuMA and others.

At present he is guest professor at Bandung Institute of Technology and University of Indonesia, scientific councils and consultant for companies. Prof. Ligthart’s principal areas of specialization include antennas and propagation, radar and remote sensing, but he has also been active in satellite, mobile and radio communications. He has published over 600 papers and 2 books.

Program (5 hours).

Theory:

  • Radar Fundamentals
  • Atmospheric Remote Sensing
  • Fundamentals of Atmospheric Radar
  • Fundamentals of Doppler-Polarimetric Radar

Technology:

  • Doppler-Polarimetric Radar (TARA)
  • Drizzle Radar (IDRA)
  • High Resolution Agile Radar ( PARSAX)