MIG 1.44 project

The 1.44 was Mikoyan-Gurevich design bureau's entry to Russia's Многофункциональный Фронтовой Истребитель (Mnogofounksionalni Frontovoi Istrebitel — Multifunctional Frontline Fighter) program (a development program that originated in the 1986,[2] similar to the United States' Advanced Tactical Fighter program). It was designed to compete with the American Lockheed Martin F-22 Raptor. Many of its design features are similar to those found on 4.5 generation Western fighters, including supercruise  ability and modern avionics. The 1.44 served mainly as a technological showcase and testbed for future aircraft designs, not as an actual air superiority fighter prototype.

The MiG 1.44 programme has been shrouded in mystery throughout the course of its existence. The Russian government cancelled the MFI program in 1997 due to its unacceptably high unit cost (Ф2.05 billion RUR, US$70 million). Development continued, with the first test flight taking place on February 29, 2000[2] and two confirmed test flights in 2001. Despite the non-production status of the 1.44/1.42, NATO assigned it the reporting name "Flatpack".[3]

After the cancellation of the MFI program the PAK FA (Перспективный Авиационный Комплекс Фронтовой Авиации — Perspektivnyi Aviatsionnyi Kompleks Frontovoi Aviatsyi — Prospective Air Complex for Tactical Air Forces) program was initiated in order to develop an advanced air superiority fighter to fill a role similar to that of the F-22, and at cost similar to that of the F-35 Lightning II. In 2001, India agreed with Russia to make the PAK FA program a development/production joint-venture between the two nations. Both Mikoyan and Sukhoi submitted concepts to the Defense Ministry for the PAK FA program (MiG entering an updated Project 1.44). The Russian Defense Ministry selected the Sukhoi Design Bureau as the primary contractor for the PAK FA fighter. MiG-MAPO and Yakovlev have also been mentioned as secondary contractors. The MiG 1.44 formerly served as a technology demonstrator for the PAK FA program. The in-development PAK FA aircraft will use the same in-development Lyulka AL-41F engine planned for the 1.44.

J-XX: 4th-Generation Fighter Aircraft of China

China is believed to have been conducting preliminary research on its fourth-generation fighter aircraft since the late 1990s. The fighter, codenamed by Western intelligence as J-XX or XXJ, was described as an advanced F-22-class twin-engine stealth fighter with extensive radar cross section (RCS) reduction features such as internal weapon bay. So far very little information regarding the project has been revealed, though it is understood that the two primary fighter aircraft design institutes of the China Aviation Industries Corporation (AVIC) – Shenyang Aircraft Design Institute (601 Institute) and Chengdu Aircraft Design Institute (611 Institute) – have both been working on their own designs to bid for the PLA’s contract.

In 1997, the U.S. Office of Naval Intelligence (ONI) reported that an advanced F-22-class twin-engine stealth fighter XXJ was being developed by 601 Institute and Shenyang Aircraft Corporation (SAC). In 2001, an Internet source photo showed a F-22-like aircraft model was being tested in a wind tunnel at 601 Institute. At the same time, it was revealed that 611 Institute was also working its own advanced fighter aircraft design, possibly based on the design and technology of its J-10 fighter.

Despite intensive media interest, it is very likely that the fighter programme is still in its early theoretical evaluation (论证) and programme definition (方案) stage, during which various technologies are examined to meet operational requirements. Theoretical evaluation of the programme and development of key technologies and sub-systems would also be carried out in these stages. While China may be able to benefit from some “off-the-shelf” dual-use technologies available in the commercial market, it will almost definitely seek assistance from its traditional military technology supplier such as Russia, as well as some Western countries.

There has been speculations China’s fourth-generation fighter could enter service as early as 2015. However, designing and developing a fighter of this class will involve huge amount of investment and technology advancement across many fields, including new materials, high-performance aero-engine, avionics, flight control software, stealth technology, computer-aid design and manufacture (CAD/CAM). Only very few countries in the world nowadays possess the capability of designing and developing a modern high-performance fighter aircraft independently, and a project of this scale could last decades before the aircraft finally enters service.

Russian Sukhoi Company (JSC), which has developed close ties with Shenyang over the licensed co-production of its Su-27SK fighter as J-11, has been reportedly working with Shenyang in developing the next-generation fighter technology and sub-systems. Although Russia has yet been able to develop an operational stealth fighter, the J-XX project may benefit from its technologies in two particular areas: thrust vectoring engine and stealth design. Additionally, China may also seek potential partners from Russia, Israel and Europe to co-develop avionics and weapon suites for its 4th-generation fighter aircraft.

Fifth generation Indo-russian fighter aircraft

2008-08-13 The fifth generation Indo-Russian fighter aircraft will be ready for induction by 2017, says Air Chief Marshal Fali H Major, while pointing out that the Indian Air Force's (IAF) squadron strength has grown after plummeting to an all-time low.

"An inter governmental agreement (IGA) between India and Russia has been signed for the co-development of the fifth generation fighter aircraft and the induction into the IAF is expected to start from 2017 onwards," Major said in an interview. The fifth generation combat aircraft will be in addition to the 126 medium multi-role combat aircraft (MMRCA) that the IAF is set to acquire.

The IAF chief outlined plans to increase the combat strength and strategic reach of the IAF. He said the number of squadrons in the 75-year-old IAF had seen an increase after hitting a low of 29. "Every air force goes through this phase (of depleting squadrons). Long gestation periods for acquiring equipment and aircraft also add to the situation. However, the number of squadrons have marked an increase from 29 (a couple of years ago) to 33.5 squadrons," said Major.

The sanctioned strength for the IAF - the world's fourth largest air force - is 39.5 squadrons. Major, who was appointed IAF chief on March 31, 2007, expressed the hope that various acquisitions would be fast-tracked with the new Defence Procurement Procedures-2008 (DPP-2008) in place. The IAF chief stressed that it plans to acquire equipment and develop capability to change the profile of the organisation and meet the challenge of depleting squadrons. The IAF has begun training its personnel and developing doctrines for strategic and operational deployment.

"To be able to protect far-flung areas, the IAF needs to be capable of 'strategic reach'. The Sukhoi-30 MKI procurement is on fast track to replace phased-out fleets. The induction of the MMRCA and LCA (Light Combat Aircraft) would partially bring up the force levels," Major said. He himself has the distinction of having 7,765 hours of flying experience and commanding a helicopter unit that took part in operations in Siachen - the world's highest battlefield - and an MI-17 squadron during the Indian Peace Keeping Force operations in Sri Lanka.

The IAF chief expressed satisfaction over Hindustan Aeronautics Ltd (HAL) projects, including the LCA-Tejas. LCA, India's second indigenous aircraft, has been under development in Bangalore for the last couple of decades. There were demands for more powerful engines for the LCA on the grounds that the General Electric engines would not be able to provide adequate thrust to the aircraft. But Major said: "The LCA project is shaping up well and the LCA may be ready for induction by 2011."

IAF is also working on the modernisation and upgradation of its transport and helicopter fleets. "IAF proposes to procure 80 medium lift helicopters from Rosoboron Export, Russia, to raise six new helicopter units and the deliveries are expected to be completed by 2013. "IAF is also processing a case for procurement of 22 attack helicopters for which bids will be submitted by September," Major elaborated.

The IAF has signed contracts for 38 Advanced Light Helicopters (ALH)-Dhruv and 16 armed ALH. It is also in the process of procuring fully equipped light utility helicopters to replace the Chetak and Cheetah helicopters.

To increase its reach, the IAF has acquired air-to-air refuellers and plans to acquire more. "The airlift capability of IAF is being enhanced and we are in the process of inducting the C-130J Hercules for special operations and developing with medium transport aircraft in collaboration with Russia," Major added.

The next technology of Indonesian airforce

Srinti unmanned aerial vehicle introduced

Srinti, unmanned aerial vehicle (UAV),Indonesian creation was introduced on the R & D Ritech Expo 2010, Saturday (21/08/2010). According Teguh, one engineer from BPPT, Srinti is the fifth aircraft that have been made BPPT.

“This is the fifth development, having previously been Platuk, Wulung, Gagak, and Alap-alap. However, there were the five aircraft that were created, Nothing has been used, Srinti will be used by the government.

The plan, in November later Srinti will be used by the Ministry of Maritime Affairs and Fisheries to control the outer sea zone of Indonesia. This aims to prevent another breach of foreign ships.

“We will cooperate with the Ministry of Marine Affairs and Fisheries of Indonesia to control the outer sea,” said Armanto.

Srinti used methanol fuel such as used in EROMODELLING aircraft. Srinti maximum control distance is 45 km. Control of the aircraft using the Ground Control Station (GCS).

GCS consists of a remote control that is used during takeoff and landing. When in the air, Srinti autonomus moving, according to the points that have been determined on the computer. Srinti movement is using the software Dynamic c# with the Rabbit 4000 processor has been developed by a team of BPPT.

reference :

http://tekno.kompas.com/read/2010/08/21/1358449/Srinti..Pesawat.Bikinan.Anak.Negeri#