The J-20 was one of the stealth fighter programs under the codename J-XX that was launched in the late 1990s.It was designated “Project 718”,and won the PLAAF endorsement in a 2008 competition against a Shenyang proposal that was reportedly even larger than J-20.Two prototypes have been built as of the end of 2010.

On 22 December 2010, the J-20 was under-going high speed taxiing tests outside the Chengdu Aircraft Design Institute with no confirmed flight tests.The J-20 made its first flight, which lasted about 20 minutes, on 11 January 2011.

Director of National Intelligence James R. Clapper has testified that the United States has known about the program for a "long time" and that the test flight was not a surprise.

Flight testing

The J-20 made its first flight, lasting about 15 minutes, on 11 January 2011. A Chengdu J-10S served as the chase aircraft.After the successful first flight, a ceremony was held. The test pilot of the J-20, Li Gang, Chief designer Yang Wei and General Li Andong (Deputy-Director of General Armaments Department, and Director of Science and Technology Commission of General Armaments Department of the PLA since 2000) attended the ceremony.

China thus became the third nation in the world to "develop and test-fly a full-size stealth combat aircraft demonstrator", after the United States and Russia. The Guardian reported that experts, on the one hand, expressed "surprise" at the speed with which the aircraft was developed, but on the other hand "said the country's military prowess was still relatively backward and way behind that of the US" and that its military interests were limited to its region.

The first test flight coincided with a visit of United States Secretary of Defense Robert Gates to China, and was initially interpreted by Pentagon officials and media pundits as a possible signal to the visiting delegation from the U.S. However, after meeting with senior Chinese officials including Chinese President Hu Jintao, Secretary Gates remarked, "The civilian leadership seemed surprised by the test and assured me it had nothing to do with my visit."Jin Canrong, a professor at Renmin University in Beijing who specializes in China-U.S. relations, suggested that President Hu's ignorance of the test raises questions about the nature of civilian control of the Chinese military.However, as Michael Swaine, an expert on the PLA and United States – China military relations, explained, although it's possible and even likely that "senior officials in the [Chinese] leadership did not know that this flight test would occur on this precise day," this is not necessarily evidence of a military-backed effort to insult Secretary Gates' delegation or embarrass President Hu. Rather, decisions regarding the production, development and testing of such military aircraft are routinely managed by engineers and low-level officials more than by senior civilian or military leadership. Coupled with the fact that there was relatively limited coverage of the event in Chinese media initially, it is likely that the test may not have been considered a significant enough event to warrant notification to President Hu.

A second test flight of an hour and twenty minutes took place on 17 April 2011. On 5 May 2011, a 55 minute test flight included retraction of the landing gear.

The full initial test program of 10 to 20 test flights is expected to take years to complete.

Technology transfer

Globalsecurity.org states that China probably declined to participate in joint development and production of new fifth generation fighter with Russia given the belief that Russia stood to gain more from Chinese participation. Chinese leaders may have determined that their design was superior to the Russian PAK FA.United States House Committee on Armed Services chairman Howard McKeon said on the J-20 "my understanding is that they built it on information that they received from Russia, from a Russian plane, that they were able to copy". MiG spokeswoman Yelena Fyodorova has denied that any of the project 1.44 materials had been provided to China.

Balkan military officials told the Associated Press that China and Russia may have adopted some stealth technology from a Lockheed F-117 Nighthawk, which was shot down by the Serbian military in 1999 during the Kosovo war. If Chinese experts used the F-117 stealth coatings, the result would be decades behind current American state-of-the-art. However, Chinese test pilot Xu Yongling said that the J-20 was a "masterpiece" of home-grown innovation, he also said the F-117 technology was already "outdated" even at the time it was shot down, and could not be applied to a next-generation stealth jet. Janes editor James Hardy agrees that it was unlikely China would have learned much from the wreckage.

Retired USAF General Thomas G. McInerney has suggested that the J-20 design may have been based on cyber-espionage of the Lockheed Martin FB-22 project.

A federal prosecutor has suggested that China may have used technology from the Northrop Grumman B-2 Spirit for their stealth aircraft which was supplied by Noshir Gowadia.

Chief of the Air Staff of the Indian Air Force Pradeep Vasant Naik has suggested that the J-20 is entirely reverse engineered with no Chinese R&D involved, and questioned if the practice was ethical.^[38]The Deccan Chronicle has called Naik's comment an "unusual outburst of helplessness" as China surpasses Indian air power.

Russian military commentator Ilya Kramnik conjectures that China is still 10 to 15 years behind the United States and Russia in fighter technology and may not be able to manufacture all the advancedcomposite materials, avionics and sensor packages needed for such aircraft, and could instead turn to foreign suppliers.However, he speculates that China may be able to produce the J-20 at a cost 50% to 80% lower than US and Russian fifth-generation jet fighters, and that potential customers may include Pakistan, the Middle East, Latin America, Southeast Asia and the richest countries in Africa. Konstantin Sivkov of the Academy for Geopolitical Issues argued that the US is correct to be alarmed at the progress of Chinese military technology. Mikhail Pogosyan, head of theUnited Aircraft Corporation, has claimed that the Chinese program is more a demonstration and that they lack the scale and experience to complete the project.

Bill Sweetman speculates that China will have problems meeting its production requirements, as it has several other jet fighter projects in production. Aviation Week raised the question of whether the aircraft is a prototype, like the Sukhoi T-50, or a technology demonstrator similar to the Lockheed YF-22.

China's first manned submarine sets new record

The Jiaolong, China's first manned deep-sea submarine, reached a depth of 5,000 meters during its second test dive at 6:07 a.m. Beijing time on July 26, 159 minutes after it entered the water. It dived to 5,057 meters below sea level 10 minutes later, setting a new Chinese deep dive record and marking a milestone in the country's history. 

Ji Guo, a senior official of the State Oceanic Administration, said that since the Chinese Academy of Engineering held a conference on the development of China's manned deep-sea submarines about 10 years ago, Xu Qinan and other experts as well as related departments have actively cooperated with one another. They have made unremitting efforts to design and produce China's first manned deep-sea submarine. 

The vessel was only able to dive to 1,000 meters underwater at the initial stage, but now can reach a depth of over 5,000 meters. The Jiaolong will soon conduct a record-breaking 7,000-meter test dive. 

Important step for China toward great deep-sea power

How should we regard the significance of this ongoing marine experiment ?

Ji believes that exceeding the depth of 5,000 meters indicates that China has made a breakthrough in the high-tech marine realm. and it means that China is already able to reach 70 percent of the deepest regions of the world's oceans. And it is also a significant technological leap of China's marine exploration. 

"Of course, this successful deep-sea diving will offer technical supports for China to fulfill its international duties." 

Ji explained that the latest round of deep-sea diving was carried out in an ore district of 75,000 square kilometers at the international seabed of the Pacific. China has the right of priority to prospect for and exploit the ores in this district. And while enjoying the right, China is also responsible of making specific investigations and environmental evaluations for this district. That is also one of the tasks of the Jiaolong in this deep-sea diving. 

The successful marine experiment this time also attracted the attention of many international media. The U.S. Wall Street Journal said predicted that the Jiaolong's crossing of the 5,000-meter mark will become a remarkable event in the competition between China and the United States in the high-risk technological realm. 

The Japan Times commented that it only took China 10 years to realize the dream of its ancestors and join the club of great deep-sea powers. 

The U.S. Nature magazine said that it was a historic moment in China's natural exploration and the new depth reached is a milestone of China's engineering technology. 

The U.S. Philadelphia Trumpet newsmagazine said that after the successful experiment of reaching the depth of 5,000 meters, China will march forward to the even deeper limit of 7,000 meters in 2012. If it succeeds, it means China will be able to explore 99.9 percent of the world's oceans.

By Zhang Baoshu from People's Daily Overseas Edition, translated by People's Daily Online

SSN-774 Virginia-class New Attack Submarine [NSSN]

SSN-774 Virginia-class New Attack Submarine [NSSN]

Virginia is intended to be a submarine comparable in most respects to its immediate predecessor - the Seawolf - but in a more affordable configuration. The missions of Virginia include Covert Strike Warfare, Anti-Submarine Warfare, Covert Intelligence Collection/Surveillance, Covert Indication and Warning and Electronic Warfare, Anti-Surface ShipWarfare, Special Warfare, Covert Mine Warfare, and Battle Group Support.

The New Attack Submarine is designed for multi-mission operations and enhanced operational flexibility. SEAWOLF (SSN-21)-Class quieting has been incorporated in a smaller hull while military performance has been maintained or improved. Compared with the Seawolf, the NSSN is slower, carries fewer weapons, and is less capable in diving depth and arctic operations. On the other hand, the NSSN is expected to be as quiet as the Seawolf, will incorporate a vertical launch system and have improved surveillance as well as special operations characteristics to enhance littoral warfare capability. While the 688-I submarines are noisier than the improved Russian Akula class, the Seawolf is quieter than Akula and the projected Russian SSN-P-IX class. At her top speed, Virginia-class makes less noise than the 688-I submarines do at 5 knots.

The primary design driver for the NSSN is acoustic quietness equal to that of the Seawolf, even at the cost of reducing maximum top speed. With a focus on the littoral battlespace, the New Attack Submarine has improved magnetic stealth, sophisticated surveillance capabilities, and Special Warfare enhancements.

The New Attack Submarine is engineered for maximum design flexibility, responsiveness to changing missions and threats, and affordable insertion of new technologies to ensure that it will continue to be the right submarine well into the 21st Century. Integrated electronic systems with Commercial-Off-The-Shelf (COTS) components facilitate state-of-the-art technology introduction throughout the life of the class and avoid unit obsolescence. The Navy has never attempted such a large-scale integration effort on a submarine. While the BSY-1 and BSY-2 systems did have some level of integration, the NSSN combat system will have to be totally integrated. Both the BSY-1 combat system for the Improved Los Angeles-class and the BSY-2 combat system for the Seawolf-class submarines had problems that resulted in late delivery and increased costs.

The Command, Control, Communications, and Intelligence (C3I) electronics packages also promote maximum flexibility for growth and upgrade. Coupled with the Modular Isolated Deck Structure (MIDS) and open-system architecture, this approach results in a lower cost and effective, command and control structure for fire control, navigation, electronic warfare, and communications connectivity.

The New Attack Submarine's sonar system is state-of-the-art and has more processing power than today's entire submarine fleet combined to process and distribute data received from its spherical bow array, high-frequency array suite, dual towed arrays, and flank array suite.

The New Attack Submarine's sail configuration houses two new photonics masts for improved imaging functions, and improved electronics support measures mast, and multi-mission masts that cover the frequency domain for full-spectrum, high data-rate communications. The sail is also designed for future installation of a special mission-configurable mast for enhanced flexibility and warfighting performance.

Virginia is capable of targeting, controlling and launching Mark 48 Advanced Capability torpedoes, mines, and Tomahawk missiles. Its sonar capability is expected to be similar to Seawolf's, and its electronic support suite and combat control system represent improvements over legacy systems. The external communications system will be an improvement over legacy systems, providing full, high data rate interoperability with U.S. and allied forces. These characteristics support intelligence and strike capabilities.

The Virginia Class (SSN 774) submarine Non-Propulsion Electronics System was integrated outside of the ship's hull. Sonar displays and processors; Navigation and Combat Control Architecture; Data Distribution and Display, Electronic Support Measures, Onboard Team Trainer; Total Ship Monitoring; and Submarine Regional Warfare systems were all electronically integrated on a rafted system and inserted into the Virginia hull.

SUKHOI PAK FA

The Sukhoi PAK FA is a twin-engine jet fighter being developed by Sukhoi OKB for the Russian Air Force.

The current prototype is Sukhoi's T-50.The PAK FA, when fully developed, is intended to be the successor to the MiG-29 and Su-27 in the Russian inventory and serve as the basis of the Sukhoi/HAL FGFA being developed with India. A fifth generation jet fighter, the T-50 performed its first flight 29 January 2010.Its second flight was on 6 February and its third on 12 February 2010. As of 31 August 2010, it had made 17 flights and by mid-November, 40 in total. The second prototype was to start its flight test by the end of 2010, but this was delayed until March 2011.

DARPA Falcon HTV-2

DARPA’s Falcon Hypersonic Technology Vehicle 2 (HTV-2) program is a multiyear research and development effort to increase the technical knowledge base and advance critical technologies to make long-duration hypersonic flight a reality.

The ultimate goal is a capability that can reach anywhere in the world in less than an hour.

Falcon HTV-2 is an unmanned, rocket-launched, maneuverable aircraft that glides through the Earth’s atmosphere at incredibly fast speeds—Mach 20 (approximately 13,000 miles per hour).  At HTV-2 speeds, flight time between New York City and Los Angeles would be less than 12 minutes.

The goal of the second flight is to validate current assumptions and increase technical understanding of the hypersonic flight regime. More than 20 test assets will collect continuous flight data to achieve this goal.






FROM http://www.darpa.mil/Our_Work/TTO/Programs/Falcon_HTV-2.aspx