http://www.aviationweek.com/aw/gene...dline=Sizing Up China's Military Capabilities It is no secret that long-term U.S. Air Force and Navy planning is focused on China. This alone is straining U.S.-China relations, as well as triggering U.S. domestic criticism from those who regard war with China as inconceivable, and an internal squabble between China-focused planners and â€œboot-centricâ€ Army and Marine Corps leaders. The U.S. focus on Chinaâ€”and from all outward signs, Chinaâ€™s military focus on the U.S.â€”has been driven by several factors since the mid-1990s. Chinaâ€™s rapid economic and technological progress gives it the resources to compete militarily with the U.S. The Taiwan Strait crisis of 1995-96â€”in which Chinaâ€™s apparent goal of persuading Taiwanese voters to reject its pro-independence government was frustrated, in part, by a U.S. show of forceâ€”was one factor that triggered drastic reforms and modernization of Chinaâ€™s non-nuclear forces. The Taiwan issue, and the broader concern of military power in what Chinese leaders have historically considered home waters, have led to a visible direction in Chinaâ€™s military modernization toward changing the balance in the Western Pacific. A decade ago, many U.S. analysts were unimpressed by the Peopleâ€™s Liberation Army (PLA). One heard snickers about the â€œmillion-man swimâ€ required to invade Taiwan. By 2011, such hubris has given way to palpable concern: The PLA has made great strides toward implementing a strategy described in Pentagon documents since 2005 as â€œanti-accessâ€ or â€œarea denial,â€ or the shorthand â€œA2/AD,â€ to deter or defeat U.S. forces in the Western Pacific. The elements of this capability include: â€¢Information exploitation. Digital connectivity, now available from troops to top command levels, has helped implement and refine new joint force operations, especially between the second artillery missile force, the PLA air force and the PLA navy (PLAN). Networks of optical, radar and electronic surveillance satellites, new over-the-horizon (OTH) radar, AWACS and electronic intelligence aircraft plus new passive counter-stealth radar and soon, a 30-plus navigation satellite constellation, enable precision targeting at increasing distances. â€¢Information attack. In the mid-2000s, U.S. intelligence agencies identified the Advanced Persistent Threat (APT), a pattern of cyberespionage largely traceable to China and aimed mainly at the U.S. defense industry and armed forces. â€¢Precision air and missile attack. China is developing (and offering for export) an expanding range of guided rockets conforming to the range limits of the Missile Technology Control Regime, while domestically producing guided air-launched weaponsâ€”bombs and cruise missilesâ€”and ballistic missiles capable of threatening U.S. bases and naval forces. â€¢Growing sea denial. PLAN has Asiaâ€™s most formidable sea-denial capability built around a growing force of 50-80 conventional submarines (SSKs). Soviet-era boats are being replaced by the Song and Yuan classes and imported Russian Kilos (see p. 15). A yet-undesignated new SSK similar in shape to the Kilo was revealed in September. The Songs and Kilos carry sub-launched YJ-82 antiship cruise missiles and the Kilos carry the formidable Novator 3M-54 Club cruise missile family. In the Soviet era, it was commonplace for U.S. intelligence agencies to exaggerate Soviet capabilities and predict that new systems would enter service sooner and in larger numbers than actually happened. A consistent trend in analysis of Chinaâ€™s military capabilities is to do the reverse. The emergence of the DFâ€‘21D antiship ballistic missile (ASBM) program (around 2007) startled the U.S. Navy, triggering a crash program to retrieve SM-2 Block IV missiles from storage to establish an initial terminal ballistic missile defense (BMD) capability (for a report on antiship missiles, see p. 41). Late in 2010, U.S. Pacific Command leader Adm. Robert F. Willard made the surprise declaration that the DF-21D had reached initial operational capability, indicating not only that the missile and its guided reentry vehicle had been tested but were ready to be used with targeting systems such as OTH radar and ocean reconnaissance satellites. (Around the same time, Chinese documents emerged describing the use of submunitions to disable a carrier and damage its aircraft.) The same trend has been seen with Chinaâ€™s aircraft carrier program, where Western leaders were slow to acknowledge that the former Soviet carrier Varyag was being rehabilitated as (at least) a test and training carrier until Chinese Internet imagery showed this was the case. Even a conservative estimate of the J-20 fighter (DTI February, p. 32) casts doubt on U.S. Defense Secretary Robert Gatesâ€™s assertion in 2009 that China would have no operational stealth fighters before 2020. In the Western Pacific context, the J-20â€™s size and design suggest that one mission could be to threaten U.S. aircraft such as the E-3 AWACS, or Rivet Joint signals intelligence aircraft and tankers, without which U.S. tactical air assets would be rendered useless. U.S. officials have tended to view this increasing A2/AD force through the prism of a potential conflict over the future of Taiwan or a contest for dominance in the Western Pacific. In the event of a conflict, it is assumed the PLA would launch cyberstrikes against regional U.S. and allied military facilities and U.S. political and military leadership, while directing air, naval and special forces strikes against nearby American facilities in Okinawa and Guam. Should Washington refuse to sue for peace, and deploy forces into the theater, the PLA would fashion joint missile, air and submarine strikes to deter or defeat naval and air forces. U.S. options in response do not include the rapid development and deployment of major new weapons, with limited R&D and procurement resources under increased pressure from Joint Strike Fighter cost overruns (see p. 28 for issues surrounding development of a new bomber). The emerging AirSea Battle concept, consequently, relies on the reorientation of current programs and the use of networking to ensure freedom of operation in A2/AD environmentsâ€”the euphemism for a hostile Western Pacific. The Center for Strategic and Budgetary Assessments (CSBA) has issued some of the key documents behind the AirSea Battle. They should not be taken lightly since former CSBA staff, including Deputy Navy Secretary Robert Work, occupy key positions in Washington. CSBAâ€™s most comprehensive report stresses that â€œAirSea Battle, as a doctrine for the operational level of war, cannot and should not be seen as a â€˜war-winningâ€™ concept in itself. Nor should it be viewed through the lens of a particular scenario, for example, the defense of Taiwan. Instead, it should be considered as helping to set the conditions at the military operational level to sustain a stable, favorable conventional military balance throughout the Western Pacific region.â€ So it is not about fighting China, but maintaining a military balance to sustain stability in the regionâ€”but it is a military concept for combat operations, which responds to visible Chinese developments and Chinaâ€™s lack of transparency about strategy and intentions. Some of the key â€œair-seaâ€ linkages mentioned by CSBA and others include: â€¢Air Force counter-space operations to blind PLA space-based ocean surveillance systems and prevent targeting of ASBMs. (This may be why USAF is developing the X-37B agile space vehicle and why, according to the Heritage Foundationâ€™s Dean Cheng, Chinese defense bloggers are upset about it.) â€¢In January, it was announced that the Air Force Joint Stars (Surveillance Target Attack Radar System) aircraft had completed a demonstration of the Network Enabled Weapon architecture, in which moving ships were tracked by Joint Stars and hit with AGM-154C glide bombs released from F/A-18s. â€¢Navy Aegis ships in the BMD role would provide a front line of defense for USAF forward bases and permit shoot-look-shoot engagements of incoming missiles. Sea-based BMD has driven a shift in Navy fleet planning in recent years, with curtailment of the DDG-1000 and its replacement by a BMD-optimized version of the Burke-class frigate. â€¢Long-range penetrating strikes would destroy PLA ground-based, long-range maritime surveillance systems (such as OTH radars) and missiles aimed at ships and bases. Concurrently, Navy submarine-based strike support against PLA integrated air-defense systems would pave the way for Air Force strikes. Another example of air-sea collaboration would be the development of an airborne infrared sensor capability for BMD based on long-endurance, land-based unmanned aerial vehicles, to fill the gap until a space-based system is available in the 2020s. Either system allows the new Burke, armed in the future with the Next Generation Aegis Missile (formerly the SM-3 Block IIB), to be as or more effective than the now-abandoned CG-X missile cruiser. The U.S. Defense Advanced Research Projects Agencyâ€™s (Darpaâ€™s) Long-Range Anti-Shipping Missile (LRASM) project is also aimed at air-sea warfare deficiencies. LRASM is a three-part program that encompasses two airframe/propulsion approaches, both developed by divisions of Lockheed Martin Missiles and Fire Control, and a common multimode seeker from BAE Systems of Nashua, N.H., the former Lockheed Sanders. One set of demonstrations will focus on air launch and the other on surface-ship launch, but both teams will define air- and ship-launched versions, confirming that the plan would be to take only one weapon into full-scale development. LRASM-A is being developed by the Strike Weapons unit in Orlando, Fla., and is based on the Joint Air-to-Surface Standoff Missile Extended Range airframe. Its demonstration program will culminate in two air-launched demonstrations. LRASM-B is run by Tactical Missiles of Grand Prairie, Texas, and uses â€œprior ramjet development activitiesâ€ to provide a supersonic-cruise missile with stealth qualities. The ramjet technology comes from Pratt & Whitney. LRASM-B will wind up with four boosted launches out of Vertical Launch System tubes. The program is due to be complete by April 2013. BAE Systemsâ€™ role suggests that the core of the sensor suite is based on passive radio-frequency technology. However, previous discussion of LRASM has made it clear that it will use multiple sensors to autonomously select warship targets even in a cluttered sea lane while operating in a GPS-denied environment. However, if it is indeed the case that Chinaâ€™s technology is advancing more quickly than the West expects, there is a chance of technological surprise. Some potential developments are being hinted at. The PLAâ€™s preparations to carry out the new â€œhistoric missionâ€ given by the Chinese Communist Party in December 2004, which includes a mandate to defend the partyâ€™s international interests, takes the PLAâ€™s challenge beyond its increasing A2/AD capabilities in Asia. The beginning of distant activities is seen in the PLAâ€™s deployment of joint-force packages for exercises in Russia (2008) and Kazakhstan (2010) and its participation in counter-piracy patrols off Somalia since late 2009. In some cases Washingtonâ€™s initial A2/AD response is meeting challenges. For example, one counter to the DF-21D 2,000â€‘3,000â€‘km (1,240-1,865-mi.)-range ASBM has been the Navyâ€™s UCAS-D unmanned combat aerial system program, for which the Northrop-Grumman X-47B made its first flight on Feb. 2. The X-47B has an initial range of about 2,100 nm., but may not enter the fleet until 2020. On Feb. 20, Chinaâ€™s Global Times carried a public disclosure that by 2015 the PLA would deploy a new family of 4,000-km intermediate-range ballistic missiles. This family, the paper said, would carry out offensive missions, likely nuclear and non-nuclear strike, and defensive missions, probably meaning it will carry improved terminally guided antiship warheads. Chinese sources have referred to future DF-25/26/27 missiles: One may be the new 4,000-km missile. Future PLA medium- and short-range ballistic missiles and cruise missiles will be faster and more maneuverable to counter defenses. A new air- and missile-defense interceptor family, sometimes called the HQ-19 (HHQ-26 for the naval version), reportedly has performance goals similar to the 400-km Russian S-400. By the 2020s the U.S. hopes to resolve technology challenges for deployment of energy weapons. Indicators point to the possibility that the PLA is not far behind in development of tactical lasers, high-power microwave weapons and rail guns. There is also heavy Chinese investment in research centers for electromagnetic launch technology, the basis for rail guns, electromagnetic aircraft catapults and spacecraft launchers. China is working on counter-stealth and counter-network technology. At IDEX in February (see p. 17), China released details of the meter-wave (VHF) HK-JM and HK-JM2 radars, both mobile and with detection ranges of 330 and 500 km, respectively. The radars could cue more accurate tracking systems. China also unveiled the DWL002 ground-based electronic surveillance measure system, which could be deployed as a passive coherent-location radar, using long-range broadcast signals to detect non-emitting targets. But these newer trends in Chinese power are not sufficiently reflected in U.S. government documentsâ€”like the annual China Military Power reportâ€”that influence debate over strategy and spending priorities. One possible result is that U.S. weapons timelines will increasingly trail rather than lead PLA developments.