- Joined
- Aug 8, 2008
- Messages
- 6,070
- Points
- 83
Remote controlled F-22 designed and build to simulate their radar and flight characteristics and combat tactics to train PLA pilots to detect confront engage and destroy them.
http://mil.news.sina.com.cn/2018-06-10/doc-ihcufqif1846598.shtml
中国军工造出F22无人模拟机 将成为歼20最难缠对手
中国军工造出F22无人模拟机 将成为歼20最难缠对手
0
近日,央视军事频道对解放军著名武器专家黄长强进行了报道。在报道画面中,黄长强研究团队所处实验室赫然出现两架外形与F-22隐身战机几乎一模一样的缩小版飞机,其中一架通过外接线缆连接在一台铁鸟试验台上,并扮演“蓝军”。另一台铁鸟试验台则连接着一架国产无人靶机,是为“红军”。显然,那两架缩小版F-22绝不是模型,而很可能是一种无人模拟机。简单来说,就专门用来模拟F-22飞行特征的无人机。
两架F-22模拟机一架在铁鸟台上,一架在地面。感谢截图网友。
黄长强是中国空军工程大学的教授,目前的主要研究方向是无人作战领域,并且是学科带头人。从央视报道透露的信息来看,黄长强团队很可能在为空军歼-20、歼-16、歼-10C等新型战机研制智能化高仿真无人靶机。几天前,军报对空军首个装备歼-20战机部队进行了详细报道,其中已明确提到,该部队将很快会获得一款“大机动、人在环控制、可携带多种任务载荷的”新型配试无人机。
可以看出这款无人机已脱离以往意义上的靶机范畴,它的机动性已与真实战机相当,并且通过数据链、摄像头等设备,与地面控制站实时联网,实现全程可控。而且,无人机还能挂载空空导弹载荷模拟空优战机,携带空地导弹、制导炸弹载荷模拟攻击机。不过军报还给出了关键词,就是它能够更好地“模拟对手、构建空中态势”。说到这里,基本就能与黄长强团队研究的F-22模拟机对上号了。
在铁鸟台上进行测试的F-22模拟机。
F-22模拟机和国产无人靶机连接的铁鸟试验台,全称为“飞控液压系统综合试验台架”,是飞机系统综合、优化设计,以及交付使用前的关键试验设备。这说明为提高歼-20战机战斗力,这款能够更逼真地模拟对手隐身战机的配合试验无人机,即将装备中国空军。
此前空军使用的都是传统意义上的靶机,可在高空进行高速飞行,可以简单改变航向以增加打靶难度。后来为了增强实战化效果,军工又将歼-6、歼-7战机改装成无人靶机,可以模拟真实战机的飞行姿态。不过歼-6、歼-7无人靶机对于二代、三代机来说够用,对歼-20这样的四代隐身战机显然就效果欠佳了。因为歼-20的对手首先会是别国的隐身战机。
F-22隐身战机。
从央视报道来看,黄长强团队显然在以F-22为模拟对象,研制配合歼-20试验的无人机。因为黄长强擅长的是无人作战领域研究,在这样的领域,只能被动挨打的无人靶机是相对较低段位的,可以互为攻守的无人作战飞机才是主要研究对象。因此,预计这款新型配试无人机将能像真正的隐身战机一样,在空中成为歼-20实战化训练中最难缠的对手。
通俗的说,就是歼-20以后在面对配试无人机时,不再是简单地发射导弹将其击落,而是要像面对真实战机那样,完成搜索、发现、跟踪、锁定、击落的全过程。其中跟踪和锁定环节,是配试无人机与无人靶机有根本区别的地方。因为在发现被雷达照射后,无人机可像真实战机那样做出大过载机动,甚至可能用外挂电子吊舱释放干扰。
空军战机边释放干扰弹边机动摆脱。
这种无人机在超视距和近距空战环节,应该都能做出真实战机遭到雷达照射、锁定后的各种反应,并飞出各种飞行姿态。而且由于本身机体比真实战机小得多,所以气动外形稍作设计,也能达到真正隐身战机的雷达反射截面效果。
相信有了这样的难缠对手,歼-20战机的训练才更加贴近实战,飞行员得到的磨练会更深刻,战斗技能的提升也会更快。待这款配饰无人机装备空军后,歼-20战机的全武器系统将接收严苛地考验。(作者署名:百战刀)
China’s military builds the F22 unmanned simulator and will become the hardest opponent of the F20
China’s military builds the F22 unmanned simulator and will become the hardest opponent of the F20
0
Recently, CCTV’s military channel reported on the famous weapon expert Huang Changqiang of the People’s Liberation Army. In the report screen, the laboratory where Huang Changqiang’s research team came from, suddenly saw two miniature aircraft of almost the same appearance as the F-22 stealth fighter aircraft, one of which was connected to an iron bird test bench by an external cable and played “ Blue Army." Another Iron Bird test rig is connected to a domestically produced unmanned target, which is known as the "Red Army." Obviously, the two smaller versions of the F-22 are by no means models, and it is likely to be an unmanned simulator. In simple terms, drones are specifically designed to simulate the F-22's flight characteristics.
Two F-22 simulators were on an iron bird stand and one on the ground. Thanks for screenshot users. Two F-22 simulators were on an iron bird stand and one on the ground. Thanks for screenshot users.
Huang Changqiang is a professor at the China Air Force Engineering University. His current major research direction is in the field of unmanned combat, and he is the leader of the discipline. From the information revealed by CCTV reports, Huang Changqiang's team is likely to develop intelligent high-simulation unmanned drones for the new types of fighter aircraft such as the Air Force J-20, J-16, and J-10C. A few days ago, the Military News carried out detailed reports on the first Air Force-equipped J-20 fighter unit. It has been explicitly mentioned that the force will soon receive a "large maneuver, man-in-the-loop control, and a variety of missions. Loaded "new type test drone.
It can be seen that this drone has deviated from the scope of the target drone in the past, and its mobility has been comparable to that of a real fighter, and through the data link, camera and other equipment, real-time networking with the ground control station to achieve full controllable. Moreover, UAVs can also be equipped with air-to-air missile payload simulation air superiority fighter aircraft, carrying air-to-ground missiles, guided bomb load simulation attack aircraft. However, the military also gave the key words, that is, it can better "simulate the opponent, build the air situation." At this point, the F-22 simulator that Huang Changqiang's team studied can basically be used.
The F-22 simulator was tested on an iron bird stand. The F-22 simulator was tested on an iron bird stand.
The iron bird test bed connected with the F-22 simulator and the domestic unmanned drone is called the "flying control hydraulic system comprehensive test bench". It is the key test equipment for aircraft system integration, optimization design, and delivery before use. This shows that in order to improve the combat effectiveness of the J-20 fighter, this match pilot drone capable of more realistically simulating the opponent's stealth fighter will soon be equipped with the Chinese Air Force.
Previously, the Air Force had used conventional target drones to perform high-speed flight at high altitudes. It is easy to change course to increase shooting difficulty. Later, in order to enhance the effectiveness of actual combat, the military also converted the J-6 and J-7 fighter planes to unmanned drones, which could simulate the attitude of a real fighter. However, the J-6 and J-7 unmanned drones are adequate for the second generation and third generation aircraft. Obviously, the fourth-generation stealth fighter such as the J-20 is not effective enough. Because 歼-20's opponent will be the first stealth fighter of other countries.
F-22 stealth fighter. F-22 stealth fighter.
From CCTV's report, Huang Changqiang's team apparently uses the F-22 as a simulation object to develop drones that match the J-20 test. Because Huang Changqiang excels in the field of unmanned combat, in this field, only unmanned drones that can be passively beaten are relatively low-level, and unmanned combat aircraft that can attack and defend each other are the main research objects. Therefore, it is expected that this new type of test drone will be like the real stealth fighter, it will become the most difficult opponent in the 歼-20 combat training in the air.
In layman's terms, after J-20, in the face of testing drones, it is no longer simply launching a missile to shoot it down. Instead, it is to search, find, track, lock, and shoot down like a real fighter. The whole process. Among them, tracking and locking are the fundamental differences between the unmanned drone and the unmanned drone. Because after being discovered to be illuminated by radar, drones can make large overload maneuvers like real fighters, and may even use interference from external electronic pods.
The Air Force fighters released the interference and moved away from the maneuver. The Air Force fighters released the interference and moved away from the maneuver.
This kind of UAV should be capable of making various responses after the real fighter has been exposed to radar and locked in the over-the-horizon and near-air combat stages, and fly out of various flight stances. Moreover, because the body itself is much smaller than the real fighter, the aerodynamic shape is designed slightly to achieve the radar reflection cross-section effect of a truly stealthy fighter.
It is believed that with such an implacable opponent, the training of the J-20 fighter will be closer to actual combat. The pilots will get deeper training and the fighting skills will be improved even faster. After this accessories drone is equipped with the Air Force, the full-weapon system of the J-20 will receive harsh tests. (Author's signature: Bai Zhan Dao)
http://mil.news.sina.com.cn/2018-06-10/doc-ihcufqif1846598.shtml
中国军工造出F22无人模拟机 将成为歼20最难缠对手
中国军工造出F22无人模拟机 将成为歼20最难缠对手
0
近日,央视军事频道对解放军著名武器专家黄长强进行了报道。在报道画面中,黄长强研究团队所处实验室赫然出现两架外形与F-22隐身战机几乎一模一样的缩小版飞机,其中一架通过外接线缆连接在一台铁鸟试验台上,并扮演“蓝军”。另一台铁鸟试验台则连接着一架国产无人靶机,是为“红军”。显然,那两架缩小版F-22绝不是模型,而很可能是一种无人模拟机。简单来说,就专门用来模拟F-22飞行特征的无人机。
黄长强是中国空军工程大学的教授,目前的主要研究方向是无人作战领域,并且是学科带头人。从央视报道透露的信息来看,黄长强团队很可能在为空军歼-20、歼-16、歼-10C等新型战机研制智能化高仿真无人靶机。几天前,军报对空军首个装备歼-20战机部队进行了详细报道,其中已明确提到,该部队将很快会获得一款“大机动、人在环控制、可携带多种任务载荷的”新型配试无人机。
可以看出这款无人机已脱离以往意义上的靶机范畴,它的机动性已与真实战机相当,并且通过数据链、摄像头等设备,与地面控制站实时联网,实现全程可控。而且,无人机还能挂载空空导弹载荷模拟空优战机,携带空地导弹、制导炸弹载荷模拟攻击机。不过军报还给出了关键词,就是它能够更好地“模拟对手、构建空中态势”。说到这里,基本就能与黄长强团队研究的F-22模拟机对上号了。
F-22模拟机和国产无人靶机连接的铁鸟试验台,全称为“飞控液压系统综合试验台架”,是飞机系统综合、优化设计,以及交付使用前的关键试验设备。这说明为提高歼-20战机战斗力,这款能够更逼真地模拟对手隐身战机的配合试验无人机,即将装备中国空军。
此前空军使用的都是传统意义上的靶机,可在高空进行高速飞行,可以简单改变航向以增加打靶难度。后来为了增强实战化效果,军工又将歼-6、歼-7战机改装成无人靶机,可以模拟真实战机的飞行姿态。不过歼-6、歼-7无人靶机对于二代、三代机来说够用,对歼-20这样的四代隐身战机显然就效果欠佳了。因为歼-20的对手首先会是别国的隐身战机。
从央视报道来看,黄长强团队显然在以F-22为模拟对象,研制配合歼-20试验的无人机。因为黄长强擅长的是无人作战领域研究,在这样的领域,只能被动挨打的无人靶机是相对较低段位的,可以互为攻守的无人作战飞机才是主要研究对象。因此,预计这款新型配试无人机将能像真正的隐身战机一样,在空中成为歼-20实战化训练中最难缠的对手。
通俗的说,就是歼-20以后在面对配试无人机时,不再是简单地发射导弹将其击落,而是要像面对真实战机那样,完成搜索、发现、跟踪、锁定、击落的全过程。其中跟踪和锁定环节,是配试无人机与无人靶机有根本区别的地方。因为在发现被雷达照射后,无人机可像真实战机那样做出大过载机动,甚至可能用外挂电子吊舱释放干扰。
这种无人机在超视距和近距空战环节,应该都能做出真实战机遭到雷达照射、锁定后的各种反应,并飞出各种飞行姿态。而且由于本身机体比真实战机小得多,所以气动外形稍作设计,也能达到真正隐身战机的雷达反射截面效果。
相信有了这样的难缠对手,歼-20战机的训练才更加贴近实战,飞行员得到的磨练会更深刻,战斗技能的提升也会更快。待这款配饰无人机装备空军后,歼-20战机的全武器系统将接收严苛地考验。(作者署名:百战刀)
China’s military builds the F22 unmanned simulator and will become the hardest opponent of the F20
China’s military builds the F22 unmanned simulator and will become the hardest opponent of the F20
0
Recently, CCTV’s military channel reported on the famous weapon expert Huang Changqiang of the People’s Liberation Army. In the report screen, the laboratory where Huang Changqiang’s research team came from, suddenly saw two miniature aircraft of almost the same appearance as the F-22 stealth fighter aircraft, one of which was connected to an iron bird test bench by an external cable and played “ Blue Army." Another Iron Bird test rig is connected to a domestically produced unmanned target, which is known as the "Red Army." Obviously, the two smaller versions of the F-22 are by no means models, and it is likely to be an unmanned simulator. In simple terms, drones are specifically designed to simulate the F-22's flight characteristics.
Two F-22 simulators were on an iron bird stand and one on the ground. Thanks for screenshot users. Two F-22 simulators were on an iron bird stand and one on the ground. Thanks for screenshot users.
Huang Changqiang is a professor at the China Air Force Engineering University. His current major research direction is in the field of unmanned combat, and he is the leader of the discipline. From the information revealed by CCTV reports, Huang Changqiang's team is likely to develop intelligent high-simulation unmanned drones for the new types of fighter aircraft such as the Air Force J-20, J-16, and J-10C. A few days ago, the Military News carried out detailed reports on the first Air Force-equipped J-20 fighter unit. It has been explicitly mentioned that the force will soon receive a "large maneuver, man-in-the-loop control, and a variety of missions. Loaded "new type test drone.
It can be seen that this drone has deviated from the scope of the target drone in the past, and its mobility has been comparable to that of a real fighter, and through the data link, camera and other equipment, real-time networking with the ground control station to achieve full controllable. Moreover, UAVs can also be equipped with air-to-air missile payload simulation air superiority fighter aircraft, carrying air-to-ground missiles, guided bomb load simulation attack aircraft. However, the military also gave the key words, that is, it can better "simulate the opponent, build the air situation." At this point, the F-22 simulator that Huang Changqiang's team studied can basically be used.
The F-22 simulator was tested on an iron bird stand. The F-22 simulator was tested on an iron bird stand.
The iron bird test bed connected with the F-22 simulator and the domestic unmanned drone is called the "flying control hydraulic system comprehensive test bench". It is the key test equipment for aircraft system integration, optimization design, and delivery before use. This shows that in order to improve the combat effectiveness of the J-20 fighter, this match pilot drone capable of more realistically simulating the opponent's stealth fighter will soon be equipped with the Chinese Air Force.
Previously, the Air Force had used conventional target drones to perform high-speed flight at high altitudes. It is easy to change course to increase shooting difficulty. Later, in order to enhance the effectiveness of actual combat, the military also converted the J-6 and J-7 fighter planes to unmanned drones, which could simulate the attitude of a real fighter. However, the J-6 and J-7 unmanned drones are adequate for the second generation and third generation aircraft. Obviously, the fourth-generation stealth fighter such as the J-20 is not effective enough. Because 歼-20's opponent will be the first stealth fighter of other countries.
F-22 stealth fighter. F-22 stealth fighter.
From CCTV's report, Huang Changqiang's team apparently uses the F-22 as a simulation object to develop drones that match the J-20 test. Because Huang Changqiang excels in the field of unmanned combat, in this field, only unmanned drones that can be passively beaten are relatively low-level, and unmanned combat aircraft that can attack and defend each other are the main research objects. Therefore, it is expected that this new type of test drone will be like the real stealth fighter, it will become the most difficult opponent in the 歼-20 combat training in the air.
In layman's terms, after J-20, in the face of testing drones, it is no longer simply launching a missile to shoot it down. Instead, it is to search, find, track, lock, and shoot down like a real fighter. The whole process. Among them, tracking and locking are the fundamental differences between the unmanned drone and the unmanned drone. Because after being discovered to be illuminated by radar, drones can make large overload maneuvers like real fighters, and may even use interference from external electronic pods.
The Air Force fighters released the interference and moved away from the maneuver. The Air Force fighters released the interference and moved away from the maneuver.
This kind of UAV should be capable of making various responses after the real fighter has been exposed to radar and locked in the over-the-horizon and near-air combat stages, and fly out of various flight stances. Moreover, because the body itself is much smaller than the real fighter, the aerodynamic shape is designed slightly to achieve the radar reflection cross-section effect of a truly stealthy fighter.
It is believed that with such an implacable opponent, the training of the J-20 fighter will be closer to actual combat. The pilots will get deeper training and the fighting skills will be improved even faster. After this accessories drone is equipped with the Air Force, the full-weapon system of the J-20 will receive harsh tests. (Author's signature: Bai Zhan Dao)
