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come on, it is Habibie want to push PT DI into another bullshit and craps project like in the past, if he want to starting their own private designer aircraft companies, i dare him to offer his project into another aircraft maker :butcher: I am talking about financial constraint and current abilities of PT DI to go venturing into another project. They (PT DI) has been full at hand, N-219 project, KFX/IFX project, Airbus order and so on, and it is all about money and market research.
Agree. if Mr. Habibie's new project really feasible, he should be able to attract investors and not adding the burden to PTDI.
 
Yes, KFX/IFX, N-219, and R-80 are big projects and it needs many resources to produce all of them simultaneously. But, what I can see is that PT Dirgantara current production capacity is still so small compare to Boeing and Airbus. And in other hand, airplane market is still growing. Todays market is so different with 2000-2005 market. Before, N-250/N-270 is set up to tap American market since our own market is still small, that's why we need FAA license so badly. 125 preliminary orders can be a hint about our own domestic market capacity to absorb R-80, and don't forget that we haven't included Garuda Indonesia which also need this type of plane in huge numbers (currently they rent ATR-72 for serving this particular market) and government can force them to buy this plane since it is a state owned company.

Talking about market capacity, this time is like a boom in airplane sector, both domestic and international one, and we don't need FAA license to serve our domestic market. So, why don't use it to grow our own industry aggressively while in the same time it also helps our effort to curb future trade deficit which has become so crucial to stabilize our currency. Remember, we cannot repeat the time, so when the wave is strong, why don't use it.....

Time will tell any way, but I believe I am right in this matter.......... 8-)
 
I think what concern me is making Dirgantara a healthy company financially, and I'm sure sll of you agree with me

Expanding production line wouldn't be a problem if Dirgantara has some flexibility financially

So keep the company healthy is thr tagline
 
Yes, KFX/IFX, N-219, and R-80 are big projects and it needs many resources to produce all of them simultaneously. But, what I can see is that PT Dirgantara current production capacity is still so small compare to Boeing and Airbus. And in other hand, airplane market is still growing. Todays market is so different with 2000-2005 market. Before, N-250/N-270 is set up to tap American market since our own market is still small, that's why we need FAA license so badly. 125 preliminary orders can be a hint about our own domestic market capacity to absorb R-80, and don't forget that we haven't included Garuda Indonesia which also need this type of plane in huge numbers (currently they rent ATR-72 for serving this particular market) and government can force them to buy this plane since it is a state owned company.

Talking about market capacity, this time is like a boom in airplane sector, both domestic and international one, and we don't need FAA license to serve our domestic market. So, why don't use it to grow our own industry aggressively while in the same time it also helps our effort to curb future trade deficit which has become so crucial to stabilize our currency. Remember, we cannot repeat the time, so when the wave is strong, why don't use it.....

Time will tell any way, but I believe I am right in this matter.......... 8-)

as i said before, if R-80 is truly feasible and Habibie has been "truly" backed by healthy financial support, why he is bother to pursue PT DI to become his partner.




I am not fall into such Nationalist sentiment
 
Yes, KFX/IFX, N-219, and R-80 are big projects and it needs many resources to produce all of them simultaneously. But, what I can see is that PT Dirgantara current production capacity is still so small compare to Boeing and Airbus. And in other hand, airplane market is still growing. Todays market is so different with 2000-2005 market. Before, N-250/N-270 is set up to tap American market since our own market is still small, that's why we need FAA license so badly. 125 preliminary orders can be a hint about our own domestic market capacity to absorb R-80, and don't forget that we haven't included Garuda Indonesia which also need this type of plane in huge numbers (currently they rent ATR-72 for serving this particular market) and government can force them to buy this plane since it is a state owned company.

I don't like this part. Even now both Garuda and Citylink still need government help to stay operational. If R-80 is good enough Garuda and Citylink will buy it, without anyone forcing it. But if it's bad.....it will become a very bad joke. Government is pushing Garuda to buy R-80 so Habibie can reap the profit, while Garuda and Citylink going deeper in red and will need bigger help again soon.
 
I don't like this part. Even now both Garuda and Citylink still need government help to stay operational. If R-80 is good enough Garuda and Citylink will buy it, without anyone forcing it. But if it's bad.....it will become a very bad joke. Government is pushing Garuda to buy R-80 so Habibie can reap the profit, while Garuda and Citylink going deeper in red and will need bigger help again soon.

Well, before, we help our past Conglomerates to grow, using Central Bank Money, regulation, and much privilege, while their business are simple ones, so why don't we help a technology company like PT RAI which is so rare even in whole Asia. If private companies are ready to book this plane until 125, why not Garuda....? I am suspicious if Garuda doesn't want to buy it...something wrong must happen behind the door.
 
There's huge difference between helping Conglomerate grow and making unprofitable company to become even more unprofitable. Beside i also not 100% agree with they way past Government especially Suharto, helping the conglomerate grow.

The decision to buy should be up to Garuda, not by government pushing it to Garuda. You miss my point, i don't have negative feeling about PT RAI, but i definitely don't want Garuda and Citylink to become even more unprofitable (and going to need another government help every several year) just to subsidy PT RAI (private enterprise).
 
LAPAN to develop drone,
rockets for Army

The Jakarta Post, Jakarta | National | Wed, January 22 2014, 6:48 AM

The National Aeronautics and Space Agency (LAPAN) and the Army signed an agreement on Tuesday to develop national defense technologies in a bid to reduce the import of military equipment. Among the technologies to be developed by LAPAN are unmanned aerial vehicles (UAV), missiles, rockets and remote sensing.

“LAPAN’s capabilities are very useful and will benefit the Army. We will use the technologies for surveying and aerial mapping, geospatial intelligence and monitoring regional security,” said Army chief of staff Gen. Budiman during the signing ceremony of the memorandum of understanding (MoU) at the force’s headquarters in Jakarta.

He said that the Army had planned to utilize UAV technology for border surveillance. The technologies would not only be useful for “modern warfare” but also disaster relief efforts as well as to tackle smuggling and terrorism, Budiman added. “The Army is expected to be the at the forefront in the efforts to tackle the so-called fourth-generation war in the region,” he said.
In the agreement, the Army has also agreed to disburse Rp 3.5 billion (US$288,445) to help finance LAPAN’s research.

“Developing national defense and military technologies are also important to protect national intelligence,” he said.
LAPAN head Bambang Tedjakusuma said that the agency had already researched numerous technologies that could be developed to meet the Army’s needs, such as precise missiles as well as an integrated remote sensing database, space science and atmosphere technology

LAPAN to develop drone, rockets for Army | The Jakarta Post
 
Dirgantara Indonesia starts producing N219 aircraft components
Tuesday, 09 September 2014, 21:40 WIB

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REPUBLIKA.CO.ID, BANDUNG - State owned aircraft industry, PT Dirgantara Indonesia (PTDI) has started producing N219 aircraft components after a feasibility study and market assessment.

"N219 is designed to solve some problems (in transportation) in remote areas in Indonesia," President Director of PTDI, Budi Santoso said on Tuesday. N219 is a pioneer aircraft with 19 passenger seats. The aircraft is able to land on short runways even in extreme altitude. N219 program has been started in 2006.

PTDI will work the whole project by August 10, 2015. The first N219 starts to fly in December in the same year followed by certification process in 2016. "Domestic demand is quite high, so we will have the test here," Santoso added.

According to him, N219 is likely to compete other pioneer aircrafts, such as Twin Otter made in Canada and Y12 from China. A number of airline companies and industries plan to book 150 units of N219 aircraft. Head of National Aeronautics and Space Agency (Lapan), Thomas Djamaludin said that government had prepared 400 billion IDR to fund this project. Lapan has prepared Experts on aerodynamics, structures, propulsion, navigation, and aircraft avionics.

Dirgantara Indonesia starts producing N219 aircraft components | Republika Online
 
RAI, PT DI and West Java
govt team up to develop
R80 planes

The Jakarta Post, Jakarta | Business | Thu, September 11 2014, 3:37 PM

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R-80

Privately owned domestic-aircraft maker PT Regio Aviasi Industri (RAI) will team up with state-run aircraft manufacturer PT Dirgantara Indonesia (PT DI) and the West Java provincial government to develop a commercial regional jet, the R80.

PT RAI commissioner Ilham Habibie, who is also the son of former president BJ Habibie, said that the plane production would take place in West Java. "The R80 will be able to fly 20,000 feet above sea level. The cost to build one R80 is estimated at US$500,000 to $700,000," Ilham said in Bandung, West Java, as quoted by kompas.com on Thursday. If the plan went accordingly, the R80 would make its maiden flight in 2018 from the planned Kertajati International Airport in Majalengka regency, West Java.

BJ Habibie said that Indonesia had the capacity to develop its own aircraft. The N250 turboprop plane, or Nusantara 250, which was manufactured by state-owned aircraft company PT IPTN, now PT DI, was a concrete example of how Indonesians could build aircraft, he said. The plane conducted its maiden flight on Aug. 10, 1995, and its test flights were successful, he added.

In 1998, Indonesia came close to having the plane certified as airworthy by US and European regulators, but the plane's development was halted when a monetary crisis hit the nation.

"Trains, cars, and other land transportation cannot link one place to another in this vast archipelago. We have 17,000 islands and we need planes to enhance connectivity between the islands," the former president said. He hoped that PT DI could be as successful as it was 19 years ago through developing the R80.

In addition, West Java governor Ahmad "Aher" Heryawan said that the province was proud to be chosen as a strategic partner to help develop the country's aviation industry. "We all have the same hopes and we are committed to making this project successful. We want an R80 plane to be able to begin its first flight in West Java in 2018," Aher said. (nfo)

RAI, PT DI and West Java govt team up to develop R80 planes | The Jakarta Post
 
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RI, South Korea to reach
deal on phase II of KFX/
IFX fighter jet

Yohanna Ririhena, The Jakarta Post, Jakarta | World | Thu, October 02 2014, 9:41 PM

Indonesia and South Korea are expected to reach an agreement on the second phase of the joint development and production of the KFX/ IFX fighter jet, a step that will mark the epitome of the two countries’ strategic partnership, the South Korean envoy said.

The three phases of developing the KFX/IFX fighter jet are technology development (TD), engineering and manufacturing development (EMD) and joint production and marketing. The TD phase was concluded in December 2012, which saw a number of engineers from state-owned airframer PT Dirgantara Indonesia (PT DI) and officers from the Indonesian Air Force going to South Korea to discuss a number of development issues with their South Korean counterparts.

South Korean Ambassador to Indonesia Cho Tai-young said that negotiations on the project had intensified, raising hopes that an agreement-in-principal would be reached soon. “If the negotiation runs smoothly, it could be concluded by next month,” Cho said when asked the exact time for the agreement.

Cho, who assumed his post in July this year, noted that the two countries had developed a very close relationship in defense industry cooperation since the 1970s. Therefore, the jet fighter project marked the epitome of the Indonesian-South Korean strategic partnership as the two countries had committed to design and develop a whole new jet fighter. “I will try hard during my term here to realize what has been planned,” Cho told The Jakarta Post during an interview ahead of South Korean’s Oct. 2 National Day.

The two countries signed a letter of intent (LoI) to develop the KFX/ IFX on March 9, 2009. The agreement was signed in 2012 by President Susilo Bambang Yudhoyono and his then South Korean counterpart Lee Myung-bak. Indonesia will pay up to 20 percent of US$ 5 billion project, while the South Korean government and Korea Aerospace Industries (KAI) will pay 60 percent and 20 percent respectively.

The KFX/IFX fighter is envisioned as a next-generation fighter aircraft for 2020, designed as a single-seat, twin-engine jet fighter with capabilities below the USmade Lockheed Martin F-35 Lightning II, but surpassing Lockheed’s F-16 Fighting Falcon.

Beside the KFX/IFX project, the two countries will keep exchanging information about weapon systems and defense products to find future opportunities for cooperation. Cho mentioned the Third Defense Industry Cooperation Committee meeting in Jakarta, when Indonesian and Korean defense companies presented their products and discussed future cooperation.

The South Korean government, Cho added, had a deeper understanding of the Indonesian policy on defense industry promotion. This is the reason why Seoul would like to focus on transfer of technology and joint development programs like the KFX/IFX. After the completion of the KFX/IFX development, both countries may establish a joint venture. “There are a lot of possibilities,” he said.

South Korea has developed various weapon systems that are verified by the country’s armed forces. It has also imported weapons from advanced countries. In this regard, South Korea could assist Indonesia on various issues, including sharing experiences in order to minimize trial-and-error with various weapon systems. “I would like to say that the Republic of Korea is the best partner for Indonesia,” he said.

On the procurement of weapon systems, Cho said South Korea bought eight CN-235 medium transport airplanes made by PT DI for the South Korean Air Force. So far, there has been no plan to procure more from Indonesia. “But we will continue the weaponry defense system cooperation,” he added. The Korean Coast Guard has also received four CN-235 maritime patrol aircraft from PT DI.

On the building of three Chang Bogo-class submarines, Cho said, it would be conducted in South Korea and Indonesian technicians will go there for training. Engineers from state-owned shipyard PT PAL Indonesia are being sent to South Korea to prepare for the building of the third submarine, which is planned to be done at PT PAL in Surabaya.

» RI, S. Korea are set to reach agreement to soon start the second phase of KFX/IFX jet fighter program
» Both countries are also involved in other programs, such as building three Chang Bogo-class submarines

RI, South Korea to reach deal on phase II of KFX/ IFX fighter jet | The Jakarta Post
 
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The cost to build one R80 is estimated at US$500,000 to $700,000," Ilham said in Bandung, West Java, as quoted by kompas.com on Thursday. If the plan went accordingly, the R80 would make its maiden flight in 2018 from the planned Kertajati International Airport in Majalengka regency, West Java.
Either the journalist need to add 1 more zero or it's going to be the best bargain airplane ever :cheesy:

For comparison
http://www.aircraftcompare.com/subcategory/Passenger-Turbo-Props/8
 
Indonesia’s First Satellite Ready for Take Off
By Erwida Maulia on 08:34 am Jan 07, 2014
Category Editor's Choice, Featured, News, Tech
Tags: Indonesia space program, Lapan, satellites, space program

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The Lapan-A2 microsatellite (the black box in the center) undergoes an electromagnetic compatibility test at the Center for Science and Technology (Puspiptek) in Serpong, Tangerang. (Photo courtesy of Lapan)

The bookish, bespectacled chief engineer of Indonesia’s first domestically made satellite briefly explains the six-year journey his team took before the satellite, called Lapan-A2, is ready for launch this year. “It began in 2008, a year after we successfully launched Lapan-Tubsat, our first microsatellite, ” Mohammad Mukhayadi, of the National Aeronautics and Space Agency (Lapan), said at his office in Rancabungur, Bogor, last month. “Then we started the development of Lapan-Tubsat’s successor. We call it Lapan-A2, and it’s finally complete.”

Lapan-Tubsat, also known as Lapan-A1, was built in Germany in an ambitious project that taught Indonesia the process of building satellites from scratch: how to procure components for production, how to arrange licenses and how to test the satellite until it is ready for launch.

Lapan-Tubsat was launched from the Indian space center in Sriharikota, in January 2007. Today, seven years after take-off, the satellite is still floating in space, though it began to slowly drift away from its orbit two years ago. The 57-kilogram satellite continues to transmit earth surveillance video to Lapan ground stations, allowing operators to train themselves on satellite use and data retrieval methods, though the video data is barely of practical use.

“Of course, it is not what we would call operation qualified,” said Robertus Heru Triharjanto, the head of Lapan’s satellite bus technology division. “It is mostly for our own interest, to see how well we can produce pictures.” He added Lapan will continue to monitor Lapan-A1 to study its degradation. “We would like to see what seven years in space has done to the satellite; to collect data on which components are still healthy and which are not, and more importantly, why they came to that state.”

The Lapan-A2 is also a microsatellite, weighing 76 kilograms. Any satellite weighing between 10 and 100 kilograms is categorized as a microsatellite. Communication satellites like those used by Indonesian telecommunication firms Telkom and Indosat usually weigh more than a ton.

Indonesia has been purchasing its satellites for telecommunication purposes from other countries, as it has yet to effectively develop the capacity to manufacture its own satellites. Lapan, with its Lapan A series of microsatellites — of which there will be five — are hoping to develop that capability.

“The goal of Lapan-A1 is capacity building,” Robertus said. “With the second satellite, we want to prove that we are capable of building a satellite. We want to show the public that we have learned from others and we are able to successfully apply our newfound knowledge in constructing a satellite on our own.”

Mukhayadi said he and his team spent two years designing the Lapan-A2 before procuring some components from Germany and producing the remaining components on their own. The integration work began in 2011 and was completed in August 2012, along with the set of required tests. The integration was entirely done in Indonesia, making Lapan-A2 the country’s first self-designed, home-made satellite.

Lapan-A2, though, will have to wait until April or May before it can enter orbit, as Indonesia is still significantly behind in rocket technology. For a satellite to enter space, it must be launched with a launch vehicle or a carrier rocket. Therefore, like its predecessor, Lapan-A2 will be launched with an Indian rocket as its “secondary payload”, with the primary payload being India’s first dedicated astronomy satellite Astrosat.

Mukhayadi said piggybacking as a secondary payload is “the cheapest” method, although that meant it would be highly dependant on the primary payload. “When they’re [India] ready, we will launch our satellite,” he said. “But for now, the main payload is not ready.”

In the meantime, Mukhayadi and his team have been doing maintenance work on the Lapan-A2, regularly checking its “health”. “The Lapan-A2’s construction is finished, every necessary component has been integrated, so the microsatellite is actually active,” Mukhayadi said.

He enthusiastically showed Jakarta Globe the carefully maintained microsatellite in his dust-free workshop at Lapan’s Satellite Technology Center in Rancabungur. The black box doesn’t look much different from a household microwave but only slightly bigger.

He showed us the antennas that will be used to control the satellite from earth and to transmit data to earth; the star censor that will determine the satellite’s position in outer space and support its navigation; the solar panel to power the satellite; and the cameras that will be used to capture earth images.

Like Lapan-A1, Lapan-A2 is intended as an earth observation satellite, as opposed to deeper universe observation, which involves even more sophisticated and more expensive technology. But Lapan-A2 will carry a digital camera, not just an analog video camera, allowing more practical use of data images.

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A Lapan engineer performs maintenance on microsatellite Lapan-A2 at the space agency’s Satellite Technology Center in Rancabungur, Bogor. (Photo courtesy of Lapan)

Ultimately, Lapan hopes its satellites will be able to produce remote-sensing images that will help the country monitor its forest covering and forest fires, the span of its agricultural lands, to detect fish catchment areas and examine the condition of disaster-hit areas, among other uses.

Lapan until now has been obtaining such data from other countries’ satellites, which it has been allowed to access through leases or partnerships that otherwise require regular payments of money. Other than the digital camera, Lapan-A2 will carry two additional payloads, namely the Automatic Identification System (AIS) for ship surveillance — to help monitor maritime traffic in Indonesia — and a text message repeater for the Indonesian Amateur Radio Organization (Orari) for disaster mitigation purposes, which explains the satellite’s other name, Lapan-Orari.

Mukhayadi also showed two sets of components that he said were exact copies of Lapan-A1 and Lapan-A2’s interiors.
“If there’s a problem with the satellites in orbit, we can conduct a test and simulation with devices on the ground,” he said.
For the next satellite, Lapan-A3, the agency will partner with the Bogor Institute of Agriculture (IPB) to develop a payload for agricultural purposes. Robertus said Lapan was also planning to install a magnetometer in the satellite, which will allow the monitoring of solar activities, Lapan’s first attempt to probe the world beyond our earth.

LapanA3’s integration is set for completion next year. The total production cost of the satellite is slightly higher than that of Lapan-A2, at approximately $3.5 million, Robertus said. Lapan-A1 had cost $1 million to make. Lapan-A4 is projected to be built in 2016, and Lapan-A5 in 2017.

The development of a B series, for remote-sensing satellites, and C series, for communication satellites, has been scheduled to commence in 2018. The plan is according to Lapan’s satellite development roadmap, drafted before the House of Representatives passed the Space Law in July. After the law’s issuance, the agency has expressed high hopes to accelerate its implementation.

A new arm: Space Law

Indonesian lawmakers may have failed to explain to the public the significance of the new space law, the aspects of which are quite esoteric. Sutan Bhatoegana, the head of the House of Representatives’ Commission VII on energy and technology, which dealt intensively with the bill before it was passed into law, cryptically explained that it —the new space law — “has to do with satellites, which are important for communication. ” But the law is much more than that.

It mandates Lapan to develop satellite and rocket technology, to carry out peaceful uses of such technology, and it mandates the government to pursue bilateral or international cooperation that will enable a transfer of technology. The law regulates the construction of a space port, investigation of space-related accidents (including space debris or meteorites falling within Indonesia’s territory), and partnerships with the private sector.

It paves the foundation for a space industry in a country that has been moving at slower than a snail’s pace in its space sector, despite the establishment of the agency 50 years ago. Lapan was set up in 1963, under Indonesia’s first president, Sukarno.

“The government and the House might have deemed [the space sector] too high a technology, while there have been many other things they still need to take care of,” Agus Hidayat, the head of Lapan’s cooperation and public relations bureau, said at the agency’s headquarters in Jakarta.

“But the birth of this law has been fully supported by the House. I guess now the government and the House are at the same frequency. At least their awareness of the sector is becoming more concrete.” One “concrete” evidence is a budget increase of at least Rp 310 billion ($25.4 million) for 2014, Agus said, and that is more than half the Rp 526 billion amount disbursed to Lapan last year. The 2013 figure represents only modest increases from Rp 493 billion in 2012 and Rp 466.8 billion in 2011.

The Space Law, though, specifies no sanctions for failure to carry out the aforementioned mandates, so implementation will likely depend heavily on the House. Agus, though, is confident that the House is committed to developing the space sector, viewing their passage of the law as evidence.

“It is the House’s task to oversee law implementations. So, if they ask us why we fail to develop this or that, we can easily counter, ‘Where’s the money?’ ” Agus said. “They can’t demand us to build an aircraft if they only give us a budget for a bajaj [three-wheeled car]. If they ensure a smooth flow of our funding, surely we’ll also be able to work smoothly.”

Agus added Lapan was currently drafting a master plan for Indonesia’s space industry development for the next 25 years, which is another mandate of the law. He envisions the industry, which includes heightened roles for Lapan and extensive involvement of the private sector, to be in existence five years from now.

Robertus, though, thinks it needs at least 10 years for the industry to develop, taking into account the need to build the workforce that will run the industry. “If we look at the experience of other nations like China or India, usually it takes more than 10 years for the space industry to establish a solid [legal] ground,” Robertus commented.

He envisioned Indonesia to become Asia’s next big space player in that 10-year span — after Japan, China, and India.
“If the new space law can be implemented according to the plan, we are sure to have a good, promising future,” Robertus predicted. But Hakim L. Malasan, of the School of Astronomy at Bandung Institute of Technology (ITB), highlighted the law’s failure to address the human resources need to support the industry.

“I haven’t seen this law guarantee the development of top human resources in the fields of astronomy and astrophysics, though they will be important for Indonesia’s space industry,” said Hakim, also a vice president of Paris-based International Astronomical Union. “Clauses on education and the development of relevant educational institutions to train future astrophysicists should have been incorporated in the law.”

He added, nevertheless, that Lapan was already on the right track by learning everything from the ground up, in order to end Indonesia’s reliance on other countries’ space products. “A classic problem with Indonesia is the lack of will to start from the bottom and develop things from scratch using science. We tend to enjoy being consumers of foreign products,” Hakim said.
“I see that Lapan is already on the right track. It only has to move faster in order to accomplish its roadmap.”

China deal, space war concerns
Just a few months after the passage of the Space Law, Indonesia inked in October a partnership deal with China on “the development of space technology for commercial and peaceful purposes”.The new cooperation also brings hopes to Indonesia’s space sector.

“Why are we interested in China? Because they’re still quite open,” Agus said. “China is probably willing to share a bit of rocket science with us.” Developing rockets that will launch satellites to outer space is even more difficult and complex than manufacturing the satellites, Agus said.

While Indonesia’s slow satellite technology development is largely attributable to the nation’s lack of commitment to the sector — and thus the lack of funding — for the development of rockets technology there is another, more “sensitive” issue. “Rocket technology is very different from aircraft and satellite technology. For the latter, other countries are very open, we can learn from them, we can ask them how to make one,” Agus said.

“As for rockets? No way. Developed countries don’t want Indonesia to be advanced in rocket technology because they worry we’ll use it to develop weapons.” Indonesia, Agus said, really had to start from zero, all on its own, with regards to rocket technology.

The latest rocket Lapan launched in its rocket test center at Pameungpeuk beach in Garut, West Java, only had a range of between 100 and 200 kilometers, less than a third needed for the minimum height of a satellite in orbit, which is around 600 kilometers. Large communication satellites need to be placed even farther: in the geostationary orbit, a circular orbit around 36,000 kilometers above the earth’s equator. “To be frank, we’ll be very slow in rocket development,” Agus said.

Negotiations with China concerning detailed schemes of the partnership, though, are still underway. China has so far asked to be allowed to build a ground station in Pare-pare, a port town in Indonesia’s South Sulawesi province, where a Lapan station is also located. Agus said China needed the station to track its newly launched satellites.

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A Lapan ground station in Rumpin, Bogor. (JG Photo/Erwida Maulia)

Indonesia, though, has not agreed on anything. “We’re still negotiating. What can we get in return? It’s not good if they get more from us.” Agus added Indonesia treaded carefully in any space negotiation with another country, citing a perceived space war involving the US and China, in which each country has reportedly been developing their own anti-satellite weapons.

The US especially, according to a Reuters report in May last year, has remained concerned about China’s development of its anti-satellite capacity after Beijing shot its own defunct weather satellite in 2007, creating a multitude of space debris. The action caused protests from nations worldwide because of the potential harm the space debris may cause to their respective operating satellites.

In the following year, the US shot its non-functioning intelligence satellite while it was entering the earth’s atmosphere.
Mukhayadi said during the six years of Lapan-A1’s operations, Lapan has received three or four alerts on near collision with space debris, although all of them were easily avoided with a small amount of maneuvering commanded by Lapan’s ground stations.

Indonesia doesn’t want to be dragged into the “new frontier” competitions, directly or not. The Space Law appears to have anticipated this, banning any space activities for non-peaceful purposes, although again it fails to offer sanctions. “Surely we have concerns about this issue, which is why we need to be very careful with this law. We can no longer simply accept an offer as it is,” Agus said. “That’s why negotiations with China have been quite difficult. We don’t want to be dictated.”

Agus added that in addition to China, Russia and India have also quite aggressively approached Indonesia, offering space cooperation. He said they were particularly interested in the archipelago’s geographical advantage, specifically its position under the geostationary orbit (GSO). An object put in this orbit will appear stationery relative to the rotating earth, and holds most of the world’s communication and weather satellites in orbit.

“GSO is the sexiest site to place satellites, particularly communication satellites, because gravity is almost zero there, which means the energy needed to maintain satellites [in GSO] is smaller than in the orbits beneath,” Agus said. “Our GSO territory is very long compared with other nations, equal with Brazil.”

Indonesia recently decided to reject Russia’s offer to build an air launch in Biak, Papua, citing local residents’ rejection and safety reasons. In the past few years, Russia had been offering Indonesia a partnership that will use the new technology — launching satellites off a flying aircraft rather than a ground launchpad.

And although the US has remained silent about all those other growing space nations’ — especially China’s — moves to approach Indonesia, Agus said he believed the US is keeping a close watch. “I’m sure they’ve been doing that silently, albeit never explicitly.”

National pride, or financial gain?

In the end, this is not about national pride, Agus said, though he proudly claimed Indonesia was quite advanced in its satellite technology compared with its Southeast Asian neighbors.

“If you talk about a manned mission, or lunar or Mars exploration, I think those are more about prestige; to show other nations that they are now inferior,” Agus said. “But our need is real, especially with regards to earth observation.”

He said Indonesia wishes to build its own ground stations, to operate its own satellites, to end its reliance on other nations such as the US and France, from which the country has been “renting” satellites to gain access to crucial earth observation data.

China and India have also been offering to sell such data to Indonesia, while Singapore is developing commercial satellites for a similar purpose, Agus said.

“Once we have mastered earth observation, at least we can end that reliance. So, this is not about prestige; we really need that [independence]. ”

It doesn’t hurt, though, to consider China’s offer for a manned mission, Agus added. He said sending an astronaut to outer space would likely be incorporated in Lapan’s 25-year master plan.

Indonesia almost had its first astronaut when microbiologist Pratiwi Sudarmono, now 61, was selected in 1985 to take part in a NASA space shuttle mission as a payload specialist.

The mission was cancelled, though, after NASA’s space shuttle Challenger, which was supposed to carry Pratiwi to space, exploded before her scheduled mission in 1986. Pratiwi has since then been focusing on her academic career. She is now a microbiology professor at the University of Indonesia.

But before Indonesia can make up its mind whether launching a manned mission is necessary, this year the country will finally have its first astronaut in the outer space anyway.

Rizman A. Nugraha, a 24-year-old web designer, is among 23 people from around the world selected in December to board shuttle spaces under Axe Apollo Space Academy, which is sponsored by consumer goods giant Unilever.

Rizman, who has been undergoing training at the Kennedy Space Center in Florida, will board a two-seated space shuttle called the XCOR Lynx Mark II, with a pilot.

Additional reporting by Benjamin Soloway

Indonesia’s First Satellite Ready for Take Off - The Jakarta Globe
 
Habibie will Present the R80 to Washington, DC

May 25, 2014 · by magelangimages · in International, National. ·

By: Sahrudinalwaysmagelang@gmail.com

r80-program.jpg


“I WILL be leaving for the United States soon. I want Pak Agung to send me the R80 model aircraft. I am going to give a presentation on that at Washington, DC”, Indonesia’s former president Bacharuddin Jusuf Habibie told Agung Nugroho, President Director of PT Regio Aviasi Industri (RAI), on a live video call from Munich, Germany, on Saturday (May 24, 2014).

In the video interview with Agung in Jakarta, Mr Habibie, who is also known as the country’s godfather of aerospace technology, says, “The R80 airplane must be successfully completed”, Republika reported.

PT RAI is an aerial company established by PT Ilthabi Rekatama and PT Eagle Capital belongs to Mr Habibie and his son, Ilham Habibie.

The company has also teamed up with PT Dirgantara Indonesia (PTDI), and France-based software producer Dassault Systemes to design the 3DEXPERIENCE platform.

On the sidelines of the launch of Mr Habibie’s book Tak Boleh Lelah dan Kalah (literally, Must not be Tired and Defeated) in Jakarta, Tuesday (April 1st, 2014), he had already explained that the 80-seat turboprop R80 was expected to make its first flight in 2017.

“The aircraft will be more sophisticated than its predecessor, the N250“, he said, adding that the letter “R” in the R80 stands for Regional.

PT RAI plans to build 400 units of the turboprops within period of 20 years, responding to the needs of flights between Indonesia’s islands, and considering not all the country’s airports are able to accommodate large turbojets.

There are about 50 aerial specialists involved in the R80 designing stage, which can later be increased to about 500 to 1,000 experts in its development phase.

Despite the fact that almost all of the turboprop engine’s power is used to drive the propeller, making the engine’s exhaust gasses do not contain enough energy to create significant thrust, the R80 engine is claimed to be faster and more fuel economy.

It’s also been said that the R80 will provide efficient power with bypass ratios of 40, comparing to the Airbus or the Boeing with bypass ratios of 12.

A higher bypass ratio provides a lower thrust specific fuel consumption, Mr Habibie said.

Although the turboprop is still in the design stage, but there have been several companies that are interested in this project.

Indonesia’s third-largest carrier, Sriwijaya Air, had ordered 100 units of R80 for its subsidiary NAM Air, and Kal Star Aviation, a company of 95 domestic routes and 22 regional routes flights, had applied for 25 units.***
 

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