http://big5.xinhuanet.com/gate/big5/news.xinhuanet.com/mil/2009-07/28/content_11784094.htm
第6代戰機將比拼人工智能 
2009年07月28日 09:04:54 　來源：北京日報 

    “猛禽”要說再見，“閃電Ⅱ”還沒服役，借口中國威脅，美國為確保戰機技術的絕對優勢，奪取制空權

    美國會參議院7月21日支持白宮叫停F-22“猛禽”戰機生產的計劃，這款曾經風光的第5代戰機因為“過時”和“費錢”，面臨被F-35“閃電Ⅱ”取代的命運。

    不過，據俄羅斯《軍事平等》網7月13日報道，美國波音公司下屬的“鬼怪”工廠日前已公布了其設計的第6代戰機的基本方案。按照美國軍方的計劃，新一代的戰機將于2025年之後開始逐步替換現役的F/A-18E/F“超級大黃蜂”艦載戰機。

    “猛禽”和F－35載彈量不如中國戰機？

    美國《防務新聞》網站日前報道稱，中國的Y-27雷達已經具備探測美軍隱形戰機的能力，到2020年，中國戰機對美國隱形戰機（F-35和F-22）的探測距離將超過46公裏。屆時中國空軍還將獲得最新式的蘇-35BM，這款戰機有能力挑戰美國最先進的F-35和F-22。到2020年或最晚2050年，中國還會部署自己研制的隱形戰機。

    報道還稱，以中美兩軍目前的主力機型挂載能力為標準比較，中國空軍（海軍航空兵）24架Su-27/30戰機可以攜帶300枚空空導彈，而美國空軍的24架F-22“猛禽”戰機能攜帶192枚空空導彈，美國空軍24架F-35戰機的載彈量更少，僅有96枚。由此可見，F-22和F-35在載彈量方面處于絕對劣勢，根本無法有效壓制中國的戰機。

    然而，軍事專家指出，懂一點軍事常識的人都知道，當代新型戰機參與的空戰，重視的是先敵發現、先敵開火，打擊手段是超視距攻擊，借助機載電子係統，率先鎖定敵機，並引導精確制導彈藥摧毀，絕不與對方纏鬥，這恰恰是美軍F-35和F-22的強項。

    在50多年前噴氣式戰機剛誕生時，空戰實力對比的確是看載彈量和航速。而如今《防務新聞》仍把載彈量視作中美戰機實力對比的重要依據，由此得出美軍新銳戰機難以壓制中國的“結論”，顯然是為其研制第6代戰機尋找借口，也為“中國威脅論”提供炒作素材。

    五角大樓稱，為應對中國防空係統和戰機帶來的挑戰，美國空軍計劃退役大批現役戰機，在加快部署F-35隱形戰機的同時，開發第6代戰機，以確保美國在空中領域的優勢。

    第6代戰機可能是無人機

    報道稱，“鬼怪”工廠公布的第6代戰機的方案顯示，這種新型戰機將採用雙發無尾翼和可變後掠翼設計，臨時名稱為F/A-XX。

    波音公司發言人表示，考慮到可能完成的任務的差異以及今後技術的發展，F/A-XX既可能是一種有人駕駛戰機，也有可能會是一種具備獨立作戰能力的無人駕駛戰機。

    據“鬼怪”工廠介紹，F/A-XX機翼面積會比較大，具備超音速巡航能力，持續飛行時間可達50個小時，作戰半徑超過1600公裏，並對更多雷達具有隱身性。

    同時，作為競爭對手，洛克希德-馬丁公司負責業務開發的副總裁鮑勃·韋斯也表示，公司位于加利福尼亞州帕姆代爾的“臭鼬工廠”已經在開發第6代戰機的特定技術。

    韋斯說，第6代戰機的性能將包括：高于5馬赫的速度、多光譜隱形能力以及傳感器融合能力等，它同時還將具備無人駕駛的飛行能力。

    韋斯還說，第6代戰機能夠執行多種任務，包括奪取空中優勢任務、空對地任務和監視任務。

    將著重比拼人工智能

    此外，據俄《論據與事實》周刊報道，五角大樓和白宮的智囊團“國際戰略研究所”認為，第6代戰機的競爭與以前不同，決定新戰機總體性能高下的，不再是機械性能和飛行員的素質，而是人工智能的強與弱。

    美方聲稱，必將稱霸未來空中的第6代戰機，將是更小、更便宜、更隱形的，這決定了該機不適合人駕駛，而是由軟件驅動。因此，誰設計出更先進的軟件，誰的無人戰機便是未來空中霸主。

    國際輿論認為，在第5代戰機“猛禽”要說再見，F－35“閃電Ⅱ”還沒服役的情況下，美軍就開始急于研制第6代戰機，其目的是保持戰機技術的絕對優勢，奪取制空權。(石　軍)

http://www.defense-aerospace.com/articles-view/release/3/106260/nc_130h-test-aircraft-fires-high_power-laser-in-flight-.html
Advanced Tactical Laser Aircraft Fires High-Power Laser in Flight 
 
(Source: U.S Air Force; issued June 19, 2009)
 
KIRTLAND AIR FORCE BASE, N.M. --- Members of the 413th Flight Test Squadron, Hurlburt Field, Fla., and contractor Boeing recently successfully fired the high-power laser aboard the Advanced Tactical Laser aircraft for the first time in flight.

The combined effort between Boeing and the 413th was instrumental to the "first light" of the high power ATL.

"This successful test is a major step toward bringing directed energy capability to the warfighter," said Gary Fitzmire, vice president and program director of Boeing's Directed Energy Systems. "We have demonstrated that an airborne system can fire a high-power laser in flight and deliver laser beam energy to a ground target."

During the test, the specially modified 46th Test Wing NC-130H aircraft equipped with the ATL weapon system took off from Kirtland and fired its laser while flying over White Sands Missile Range, N.M., successfully hitting a target board located on the ground. ATL is equipped with a chemical laser, a beam control system, sensors and weapon-system consoles.

"We have taken technology from the laboratory to reality and have now demonstrated that directed energy is on a path toward a safe and viable option for the warfighter with very unique capabilities," said Eric Van Dorn, 413th FLTS lead flight test engineer.

More tests are planned to demonstrate ATL's military utility. The system is designed to damage, disable or destroy targets with little to no collateral damage. These demonstrations support development of systems that will conduct missions on the battlefield and in urban operations.

"The time and effort from the entire team exhibited the cooperation and professionalism between the U. S. Air Force and Boeing. The culmination of this event is fantastic," said Master Sgt. Scott Wollitz, mission flight engineer. "I feel extremely fortunate to have been a part of the crew for this test. The laser shot was amazing!"

The ATL program is managed by the 687th Armament Systems Squadron, which is part of the 308th Armament Systems Wing at Eglin AFB, Fla., and supported by the Air Force Research Laboratory's Directed Energy Directorate at Kirtland.

"It's another case of science fiction becoming reality," said Maj. James Stahl, 413th FLTS test pilot. "As a kid growing up I was fascinated by the lasers in the movie Star Wars; to be the first to fire this laser in flight is truly an honor."

-ends-

http://www.dsti.net/News/54398.htm
波音公司先進戰術雷射器成功進行空中發射試驗

   [本站2009年6月21日綜合報導]    6月13日，波音公司和美國空軍首次用先進戰術雷射器（Advanced Tactical Laser，ATL）在飛行中發射了高能雷射光束。在測試中，ATL載機從科特蘭德（Kirtland）空軍基地起飛，在飛過白沙實驗場上空時發射了鐳射，並成功命中了地面目標。波音公司為美國空軍開發的ATL載機是一架搭載了化學雷射器、光束控制系統、感測器和武器系統控制臺的C-130H飛機。

   據波音公司定向能系統分部副總裁兼專案經理加里•菲茲邁爾（Gary Fitzmire）介紹：“這次測試成功使定向能向實戰邁進了一步。經過驗證，機載系統能夠在飛行中發射高能鐳射，並將雷射光束能量傳遞到地面目標上。ATL的超精度打擊性能可以顯著降低附帶毀傷。”為了演示ATL的軍事用途，更多測試即將進行。系統設計目的是破壞、毀傷、或使目標失能，並將附帶毀傷降到最低。本次演示實驗將對系統開發起到支援作用，並將對戰場和城區作戰具有指導意義。

   ATL業界團隊中以波音公司為主導，L-3通信/布拉希爾（Brasheaer）公司提供鐳射轉塔，HYTEC公司負責制造武器系統結構部分，J.B. 亨德森（J.B. Henderson）公司負責提供機械集成支援。波音公司負責牽頭為美國空軍、陸軍和海軍開發了多種鐳射系統，其中包括機載雷射器（Airborne Laser）、自由電子雷射器（Free Electron Laser）、高能雷射技術演示（High Energy Laser Technology Demonstrator）、鐳射復仇者（Laser Avenger）、可重構高能鐳射系統（Re-deployable High Energy Laser System）和戰術鐳射中繼鏡系統（Tactical Relay Mirror System）。
（北方科技資訊研究所 李小磊）

http://boeing.mediaroom.com/index.php?s=43&item=703
Boeing Advanced Tactical Laser Fires High-Power Laser in Flight

ALBUQUERQUE, N.M., June 15, 2009 – The Boeing Company [NYSE: BA] and the U.S. Air Force on June 13 successfully fired the high-power laser aboard the Advanced Tactical Laser (ATL) aircraft for the first time in flight.

During the test, ATL took off from Kirtland Air Force Base, N.M., and fired its laser while flying over White Sands Missile Range, N.M., successfully hitting a target board located on the ground. ATL, which Boeing is developing for the U.S. Air Force, is a C-130H aircraft equipped with a chemical laser, a beam control system, sensors and weapon-system consoles.

"This successful test is a major step toward bringing directed energy capability to the warfighter," said Gary Fitzmire, vice president and program director of Boeing Directed Energy Systems. "We have demonstrated that an airborne system can fire a high-power laser in flight and deliver laser beam energy to a ground target. ATL's ultra-precision engagement capability will dramatically reduce collateral damage."

More tests are planned to demonstrate ATL's military utility. The system is designed to destroy, damage or disable targets with little to no collateral damage. These demonstrations support development of systems that will conduct missions on the battlefield and in urban operations.

The Boeing-led ATL industry team includes L-3 Communications/Brashear, which built the laser turret; HYTEC Inc., which made a variety of the weapon system's structural elements; and J.B. Henderson, which provides mechanical integration support.

Boeing leads the way in developing laser systems for a variety of Air Force, Army and Navy applications. These include the Airborne Laser, the Free Electron Laser, the High Energy Laser Technology Demonstrator, Laser Avenger, the Re-deployable High Energy Laser System and the Tactical Relay Mirror System.

A unit of The Boeing Company, Boeing Integrated Defense Systems is one of the world's largest space and defense businesses specializing in innovative and capabilities-driven customer solutions, and the world's largest and most versatile manufacturer of military aircraft. Headquartered in St. Louis, Boeing Integrated Defense Systems is a $32 billion business with 70,000 employees worldwide.

http://www.dsti.net/News/54437.htm
美國海軍成功試驗鐳射武器擊毀無人機

    [據法國航宇防務網2009年6月22日報導]  在美國海軍水面作戰中心（NSWC）達爾葛籣實驗室的支持下，美國海軍海上系統司令部（NAVSEA）6月7日首次成功使用雷射器追蹤、打擊並擊毀了一架無人機。
 
    在測驗中，總共打擊並擊毀了5個目標，這也是海軍海上系統司令部的定向能和電子武器系統（DE&WS）專案辦公室和海軍水面戰中心達爾葛籣實驗室首次通過KINETO追蹤設備的光束控制器發射鐳射。
 
    在6月9日和11日的試驗中，分別又擊毀了2架無人機。最近海軍水面鐳射武器系統已經持續進行了一連串的挑戰性試驗。
 
    專案主管大衛•基爾稱：“此次試驗的成功證實了定向能和電子武器系統的軍事效用。未來對能量更大的鐳射武器系統的研製和綜合化的目標是增加作戰距離和目標定位能力。”
 
    達爾葛籣實驗室主要從事軍用安全性測試、綜合武器系統、武器及彈藥、感測器及定向能武器和國土及部隊（軍事人員及設備）保護的研發、試驗和論證工作。
 
    商業用高能光纖焊接雷射器的新進展推動了艦艇防禦系統武器級雷射器的發展。（中國船舶資訊中心 郭航雨）

http://www.defense-aerospace.com/articles-view/release/3/106247/us-navy-laser-shoots-down-uavs-in-test.html
Navy Laser Success Key in Unmanned Aerial Vehicle Research, Development
 
(Source: US Navy; issued June 19, 2009)
 
 WASHINGTON --- Naval Sea Systems Command (NAVSEA), with support from Naval Surface Warfare Center (NSWC) Dahlgren, for the first time successfully tracked, engaged and destroyed a threat-representative unmanned aerial vehicle (UAV) while in flight at Naval Air Warfare Center, China Lake, Calif., June 7.

A total of five targets were engaged and destroyed during the testing, also a first for the U.S. Navy. Members of NAVSEA's Directed Energy and Electric Weapon Systems (DE&EWS) Program Office and NSWC Dahlgren fired a laser through a beam director on a KINETO tracking mount.

Two additional UAVs were engaged and destroyed in flight June 9, with two more UAVs shot down June 11. These recent evolutions continued a series of progressively challenging tests using the prototype version of the Surface Navy Laser Weapon System (LaWS).

"The success of this effort validates the military utility of DE&EWS," said Program Manager Capt. David Kiel. "Further development and integration of increasingly more powerful lasers into Surface Navy LaWS will increase both the engagement range and target sets that can be successfully engaged and destroyed."

NAVSEA's DE&EWS Program Office is responsible for the research, development, integration and acquisition initiation of DE&EWS for the Navy's surface forces.

NSWC Dahlgren focuses on research, development, test and evaluation in the fields of military safety testing, integrated warfare systems, weapons and ammunition, sensors and directed energy and homeland and force (military personnel and equipment) protection.

Recent advances in commercial high energy fiber welding laser development for commercial welding use have made the deployment of a weapons grade laser based defense system on board naval vessels a realistic possibility.

DE&EWS is transitioning technology from the laboratory to prototype system development/test for operational development and use. One of the multiple 'game changing' technologies that is under development includes laser weapons that provide for speed-of-light engagements at tactically significant ranges with cost savings realized by minimizing the use of defensive missiles and projectiles.

-ends-

http://www.air-attack.com/news/article/3728/USAF-Advanced-Composite-Cargo-Aircraft-makes-first-flight.html
USAF Advanced Composite Cargo Aircraft makes first flight
Published: Jun 03, 2009
Source: US Air Force

WRIGHT-PATTERSON AIR FORCE BASE, Ohio -- The Air Force Research Laboratory and Lockheed Martin's famed 'Skunk Works' launched a new era of aircraft manufacturing technology and performance June 2 with the successful initial demonstration flight of the Advanced Composite Cargo Aircraft at U.S. Air Force Plant 42 in Palmdale, Calif.

The ACCA is a modified Dornier 328J aircraft. The fuselage aft of the crew station and the vertical tail were removed and replaced with completely new structural designs made of advanced composite materials fabricated using out-of-autoclave curing.

The ACCA fuselage is wider and stronger to accommodate military standard 463L pallets and features a cargo door and cargo ramp. The vertical tail features integrally stiffened skin. Despite its larger size, the materials and processes used for the fuselage reduced the number of parts by an order of magnitude relative to the original metallic design (approximately 300 versus 3,000) and drastically reduced the number of mechanical fasteners (about 4,000 vs. 30,000), program officials said.

The flight marks the final and most significant milestone of Phase II of the Air Force Research Laboratory ACCA program, said Barth Shenk, ACCA program manager from AFRL's Air Vehicles Directorate at Wright-Patterson Air Force Base.

"This has the potential to change aircraft manufacturing as we presently know it, for the better," Shenk said. "Today's successful flight is the culmination of years of teamwork between government and industry labs involving hundreds of dedicated researchers across the country to fundamentally change the way we make airframes."

Lockheed Martin officials said the ACCA took-off to the east from Air Force Plant 42 at 6:55 a.m. Pacific Time. The aircraft then banked west and climbed to an altitude of approximately 10,000 feet where the two-pilot crew took the vehicle through a series of airspeed and stability and control tests. Officials said the tests are important to understand how the composite cargo aircraft performs at varying speeds, attitudes, and altitudes. This data will be used as a baseline for future tests.

"Today is one of those perfect days where I get to be the first to fly a new aircraft and everything goes exactly as planned. The aircraft was a real pleasure to fly and we experienced absolutely no issues," said Lockheed Martin lead ACCA test pilot, Rob Rowe.

Duration for the first flight was about 87 minutes.

Shenk said the ACCA isn't designed to be a prototype for a small airlifter or any other aircraft. It is a proof of concept technology demonstrator for composite manufacturing processes in a full-scale, certified aircraft. In an effort to demonstrate and test the technologies while keeping costs down and on schedule, the small team of Air Force and Lockheed Martin engineers elected to modify the high-wing Dornier jet, mating its existing engines, wing, landing gear and avionics systems to the new composite structure. The modified fuselage has enlarged rear cargo doors and can accommodate two standard size military pallets.

The new composite structure is manufactured without complex tooling and the bonding process yields a 90 percent reduction of structural components and fasteners, said Frank Mauro, vice president of Advanced System Development, Lockheed Martin.

"Historically aircraft cost has been generally determined by the size and weight of the vehicle. With ACCA we are proving that while size does matter, it isn't the be-all, end-all determination of aircraft cost," Mauro said.

Lacking traditional fasteners like rivets, the composite structure is inherently aerodynamic. Shenk said he believes composite structures will address many of the corrosion and aging issues associated with all-metal aircraft, reducing airframe lifetime maintenance. Lighter weight of composite materials can also contribute to increased cargo capacity, aircraft performance and lower operating costs. The real game changer, however, is the maturation of manufacturing processes which collectively dramatically reduce the cost and complexity of building large airframes.

The ACCA's first flight was made possible by a 10-year Air Force Research Laboratory-led research and development investment called the Composite Affordability Initiative. Government labs worked collaboratively with industry to develop advanced materials and manufacturing technologies, Shenk said.

The ACCA's large composite sections are essentially formed, cured and bonded together in room-sized ovens, instead of using expensive autoclaves, which use a combination of heat and high pressure. Out-of-autoclave curing of large, unitized and co-bonded structures minimizes part count.

The 'ripple effect' of this approach contributes to costs reduction across every aspect of airframe production, Shenk explained. Tooling, raw materials, fabrication man-hours, quality control and floor space utilization efficiencies are realized. Together, they combine to greatly reduce cost, design and manufacturing complexity.

"ACCA is the capstone test of integrating these Composite Affordability Initiative principles all the way from conceptual design through certification and flight," Shenk said.

"NASA Dryden Flight Research Center and AVCRAFT have been linchpin partners in our program's success" Shenk added. "NASA's expertise in experimental flight test programs helped us streamline our test preparations and AVCRAFT (the Myrtle Beach, S.C. based domestic maintainer of Dornier 328J), provided critical support on the aircraft subsystems so Lockheed could focus on the structural design, fabrication and integration issues."

The ACCA test aircraft is laden with more than 600 sensors and accelerometers to measure stresses on its structure. Upcoming tests will focus on establishing the flight envelope of the ACCA to baseline its flight performance and validate predicted structural performance.

"Accurately predicting structural behavior in the flight environment is a key step in establishing the eligibility of the technologies for transition into future programs, to fully realize the cost savings demonstrated by the ACCA," Shenk said.

AFRL is the Air Force's only organization wholly dedicated to leading the discovery, development, and integration of warfighting technologies for our air, space and cyberspace forces.

--- ends ---

http://www.dsti.net/News/54083.htm
美國空軍先進複合材料貨運飛機完成首飛

[據美國《空中打擊》網站2009年6月3日報導] 由美國空軍研究試驗室（Air Force Research Laboratory，AFRL）和洛克希德•馬丁公司所屬的著名“臭鼬”工廠（Skunk Works）於6月2日聯合完成了“先進複合材料貨運飛機”（Advanced Composite Cargo Aircraft，ACCA）的首次驗證飛行，這標誌著該機的研製進入了一個新階段。

      據洛•馬公司透露，ACCA此次首飛是在位於加利福尼亞州棕櫚穀（Palmdale）的美國空軍42號工廠進行的。該機於當日早上6點55分由兩名飛行員駕駛向東起飛，隨即向西轉向並爬升到大約10000英尺（約3048米）高度，並在此空域進行了一系列空速、穩定性及操縱性測試。整個試飛過程持續了大約87分鐘。

      AFRL負責ACCA專案的主管Barth Shenk對此表示，此次成功首飛是ACCA研製過程中的一個重要里程碑並標誌著ACCA項目第二階段的結束。（中國航空工業發展研究中心  陳黎）

http://www.dsti.net/News/53742.htm
X-51A通過評審並準備進行高超聲速試驗

[據美國《航宇日報》2009年5月18日報導] X-51A超聲速衝壓式噴氣發動機演示機于上周成功通過美國空軍的主要項目評審，該機已經做好準備在波音的亨廷頓海灘市工廠進行地面振動試驗。

      X-51A由空軍、DARPA、普•惠Rocket¬dyne公司及波音公司聯合研製。項目官員稱，通過了5月12日這次技術評審之後，這種高超聲速試驗機有望在10月末或11月初進行首飛。下一步是安排在6月初進行的安全評審。

      空軍實驗室X-51A專案主管Charles Brink說：“一旦我們在6月末或7月初過了那一關，我們將開始進行地面試驗。”首架試驗機FTV-1的地面試驗將在愛德華茲空軍基地進行，飛行試驗也將在那裏進行。試驗將包括對安裝在NASA B-52載機機翼下MAU-12外掛架上的X-51進行資料的上載和下載。之後將進行電磁干涉試驗，檢查B-52上的航電系統和雷達是否與試驗機上的系統相衝突。該試驗後兩周，可能在8月份會進行系留攜載飛行。

      安置在亨廷頓海灘市的X-51A為靜態試驗機（STV-1），該機將在7月份經過整修之後作為FTV-4執行計畫中的四次試飛的最後一次飛行，預計在2010年第二季度進行。如果前兩次試飛能夠照計畫，成功的進行250—300秒的4.5至6馬赫數高超聲速飛行，則後兩次試飛將包括短暫的穩定性和控制試驗動作。任務控制器將控制巡航飛行器在推力作用結束後高速滑翔階段“擺動其安定面，使其掠過幾度的角度”。(中國航空工業發展研究中心  孫友師)

http://www.dsti.net/News/53094.htm
美國將試射無人機載微型導彈

    [據洛杉磯時報2009年4月20日報導]為縮小未來應用在戰場上的武器體積，並提高殺傷力和精確度，美軍目前正在進行微型導彈的測試工作，這些微型導彈重量僅為5磅左右，其大小相當於一根法國長麵包。

    在接下來的幾個月中，美國軍方的研究人員將在位於中國湖的美國海軍空戰中心測試一種名為“尖彈” (Spike missile)的微型導彈，該導彈僅有2英尺長，相當於目前世界上最小導彈大小的四分之一。

    “尖彈”原本作為地面部隊攻擊坦克時用，軍方加以改良，使之可從無人駕駛飛機或遙控直升機上發射，專門用來對付地面小型車輛或移動中的小貨車。在接下來的測試中，該導彈將從遙控直升機上發射，其目標是行進中的卡車。

    如果這次測試成功，它將標誌著為無人飛機配備武器的里程碑。專家們表示，掛載導彈的無人飛機將會成為最致命的攻擊武器。

    研究人員目前正逐步將導彈尺寸變得更小，同時導彈也將具有更加精確、威力強大的打擊能力。目前美國在阿富汗打擊“塔利班”所使用的“地獄火”(Hellfire)導彈重量為100磅左右，一架“捕食者” (Predator)偵察機可攜帶2～3枚“地獄火”導彈，而如果“尖彈”投入使用，一架“捕食者” 飛機最多可配備12枚“尖彈”。

    “尖彈”採用了商業技術和元器件，一枚導彈造價有望達到5000美元左右，而現役導彈價格每枚都超過了10萬美元。同時，該微型導彈的開發也將為研製更加小型化的無人機奠定基礎。(中國船舶工業綜合技術經濟研究院 溫佳峰)

http://n.yam.com/cna/international/200904/20090421375496.html
飛彈縮小化 美軍方在莫哈維沙漠試射   
 
中央社╱中央社 2009-04-21 12:53
     
（中央社記者褚盧生洛杉磯20日專電）為了在現代戰爭中掌握勝券，美國軍方目前正在洛杉磯北方的莫哈維沙漠進行一連串迷你型飛彈的試射。這些飛彈的特徵是重量僅五磅，大小有如一個法國式長型麵包。

「洛杉磯時報」今天刊於頭版的報導說，美國軍方的努力目標是希望把未來應用於戰場上的武器朝向縮小化，同時在攻擊敵方時能夠更精準、自動化、具強大殺傷力。

在莫哈維沙漠（Mojave Desert）一片人跡罕至的地方，軍方未來還計畫安排一系列新武器的測試，其中一項是下個月選在當地「中國湖」（China Lake）附近「海軍空中戰鬥中心」（Naval Air Warfare Center）展開的一組新型飛彈的試射。

據飛彈試驗作業經理費里克斯（Steve Felix）表示，試射的各型飛彈當中，包括一種長度只有兩英尺長的Spike missile，它可以說是目前地球上體積最小的導向飛彈。

Spike missile將提供地面部隊在攻擊坦克時使用，也可以從無人駕駛的飛機或是遙控直升機上發射，專門用來對付地面小型車輛或是移動中的小貨車。

報導說，與過去幾個月美軍在阿富汗與巴基斯坦境內對付蓋達組織所動用的軍事裝備相比，這些迷你型的武器顯然更先進，更具威力。