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Fei Ying Simulator Launcher 2012: Discover the Benefits of Using This Software with Your FlySky i6 C



The weapon was specifically designed to be used against targets flying at low and very low altitudes.[1] The FN-6 was developed in parallel with the Qian Wei (QW) missile series. FN-6, or FeiNu-6, is the export name given to the export version derived from this system, and it is known as HongYing-6 (Chinese: 红缨; pinyin: hóng yīng; lit. 'red tassel') in the PLA.[2][3] The training simulator of FN-6 is not developed by the contractor of the missile system, but instead, the simulator is developed by PLA itself after the missile was purchased, and the general designer of the training simulator of FN-6 is Mr. Liu Weixing (Chinese: 刘卫星). The training simulator of FN-6 is also used for later versions of MANPADS developed from FN-6.


The FN-6 was developed by the China National Precision Machinery Import and Export Corporation (CNPMIEC). The weapon was specifically designed to be used against targets flying at low and very low altitudes.[1] The FN-6 was developed in parallel with the Qian Wei (QW) missile series. FN-6, or FeiNu-6, is the export name given to the export version derived from this system, and it is known as HongYing-6 (Red Tassel-6) in the PLA.[2][3] The training simulator of FN-6 is not developed by the contractor of the missile system, but instead, the simulator is developed by PLA itself after the missile was purchased, and the general designer of the training simulator of FN-6 is Mr. Liu Weixing (刘卫星). The training simulator of FN-6 is also used for later versions of MANPADS developed from FN-6.




fei ying simulator launcher 2012



At the 9th Zhuhai Airshow held in November 2012, one more variant of vehicle mounted FN-6/16 system is revealed to public. This air defense system (ADS) is consisted of a 30 mm Gatling gun turret with two missile containers/launchers for FN-16 at the each side, totaling four missiles. In comparison to earlier Chinese HUMVEE mounted FN-6A and FB-6A ADS, the ZBL-09 ADS is mounted on 8 x 8 ZBL-09 chassis, thus offering greater protection.[13][14] A phased array radar on the turret can be folded down in transit, as with earlier FB-6A ADS. However, ZBL-09 did not enter Chinese service en mass, only a very limited number were ordered for trial purpose. It is rumored because the 30 mm Gatling gun is derived from AK-630, and this 6-barreled gun would complicate the logistics and increases the cost, because other 30 mm Gatling guns that already in Chinese service such as LD-2000 are 7-barreled based on Type 730 CIWS. This has led some Chinese military enthusiasts claim that ZBL-09 would be used mainly for export and to have a significant order from Chinese forces, the 6-barreled gun would have to be replaced by a 7-barreled one, but at the 9th Zhuhai Airshow, there was no news of development yet.


This application can be used as a launcher application for both FSX and Prepar3D. Flights can be loaded before launching the simulator or when the simulator is already running. New flights can be created by selecting one of the installed aircraft, selecting the start location (runway or parking position), selecting the type of weather and the time of day. Improvements: FTX region and lights switching, startup camera selection, recently loaded flights menu, faster startup, tuning of COM and NAV radios, profiles, ephemeris, nearby airports and numerous fixes and improvements. By Maarten Boelens.


foulan 19191a764c -simulator-launcher-update[ -simulator-launcher-update ][ -simulator-launcher-update ][ -simulator-launcher-update ]link= -simulator-launcher-updatelink= -simulator-launcher-updatelink= -simulator-launcher-update


This paper presents a data-mining-based intelligent differential relaying scheme for transmission lines, including flexible ac transmission system device, such as unified power flow controller (UPFC) and wind farms. Initially, the current and voltage signals are processed through extended Kalman filter phasor measurement unit for phasor estimation, and 21 potential features are computed at both ends of the line. Once the features are extracted at both ends, the corresponding differential features are derived. These differential features are fed to a data-mining model known as decision tree (DT) to provide the final relaying decision. The proposed technique has been extensively tested for single-circuit transmission line, including UPFC and wind farms with in-feed, double-circuit line with UPFC on one line and wind farm as one of the substations with wide variations in operating parameters. The test results obtained from simulation as well as in real-time digital simulator testing indicate that the DT-based intelligent differential relaying scheme is highly reliable and accurate with a response time of 2.25 cycles from the fault inception.


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