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The hidden man fuelling China’s military ambitions: work on ‘super camera’ to aid spy satellites

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Latest breakthrough means China may now be able to track missile launch sites and other targets even if they are camouflaged or hidden underground

STEPHEN CHEN

CHEN.BINGLIN@SCMP.COM

PUBLISHED : Tuesday, 12 January, 2016, 5:15pm
UPDATED : Tuesday, 12 January, 2016, 5:15pm
Hyperspectral imaging expert Xiang Libin (right) receives the prestigious accolade from President Xi Jinping during the annual national science and technology awards ceremony in Beijing on Friday. Credit: Xinhua

A scientist who specialises in optics and has been developing a “super camera” for use in reconnaissance satellites has pocketed China’s top science award for his latest technological breakthrough, hinting at how formidable the nation’s military is becoming and the measures taken to keep such developments under wraps.

Hyperspectral imaging expert Xiang Libin, 49, received the prestigious gong from President Xi Jinping during the annual national science and technology awards ceremony in Beijing on Friday.

During an official group photo session with state leaders, Professor Xiang was pictured in a prominent position behind Xi, hinting at the level of importance attached to his work.

This level of official recognition suggests China may have fully acquired the technology to locate and track military targets that are usually camouflaged or hidden underground, such as missile launch sites and testing facilities for nuclear weapons.

This image shows the technical layout of the China Commercial Remote-sensing Satellite System (CCRSS), which will be launched this year. Its hyperspectral sensors can allegedly outperform those of the Artemis system on the US military satellite TecSat-3, which was launched in 2010. Source: Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences

Due to the sensitivity of the research, however, Xiang’s name did not appear on the list of award recipients; neither were his efforts trumpeted with the usual pomp and ceremony preserved for patriotic milestones by China’s state-run media.

But Xiang, a former director at the Academy of Opto-Electronics under the Chinese Academy of Sciences, is well known among China’s optical research community for his pioneering works on hyperspectral imaging sensors. He now runs the Shanghai Engineering Centre for Microsatellites.

While traditional cameras can capture an object’s appearance, a hyperspectral camera is able to determine what the object is.

For example, a military spy satellite equipped with hyperspectral sensors would be able to tell the difference between a genuine and “counterfeit” fighter jet if they were parked side by side at an airport. In contrast, the two would appear identical to cameras that use optical, infrared or microwave rays, now matter how sharp the images they produce.

An image taken over Australia using a hyperspectral camera aboard China’s Tiangong-1 space lab reveals the distribution of minerals and agricultural vegetation in the area, in this 2011 file photo. Photo: Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences

The hyperspectral imaging technology did the trick by examining the electromagnetic “fingerprint” of the target. The camera collected spectral data over a continuous range of electromagnetic bands for each pixel. The resulting data revealed the object’s true chemical composition and physical traits.

Now scientists claim that a military or government intelligence service could use such a satellite to search for any “object of interest” anywhere in the world. This could be a specific vehicle, a strategic missile launch site, camouflaged roadside bombs, or even nuclear-testing facilities hidden underground as they all have their own hyperspectral “fingerprint”.

Over the last decade, Yuan Yan, a professor of optical science at Beihang University in Beijing, has co-authored many research papers with Xiang on the theme of a hyperspectral imaging sensor for use in a satellite.

She confirmed to the South China Morning Post that Xiang was the man standing behind Xi in the aforementioned group photo.

Professor Xiang (the tall, balding man with glasses) is pictured behind the right shoulder of Chinese President Xi Jinping in this group photo with state leaders in Beijing on Friday. Xiang’s prominent position implies the importance of his research to China’s defence industry. Photo: Handout

But Yuan declined to provide more details on Xiang’s award-winning breakthrough.

“It is classified … for good reason,” she said.

Professor Sun Liqun, an optical scientist at Tsinghua University who has been involved in various military research projects, said Xiang was a figurehead in the field, even though he is little known outside of this small circle of people due to the sensitive nature of his work.

The use of hyperspectral technology by China’s military had been a closely guarded secret for years, but there is enough evidence to suggest the country embarked on this field of research relatively early, and apparently with the aim of overtaking the US by launching a new satellite this year.

The first-known camera of its kind deployed by the US Army was the Artemis system, according to its developer Raytheon Company. This was tested on the TacSat-3 satellite, which was launched in 2010, the major US defence contractor said.

China has used the hyperspectral camera in lunar missions to produce one of the largest and most detailed maps of mineral distribution on the surface of the moon. Credit: Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences

The Artemis sensors can collect data on 300 electromagnetic bands, thus allowing its user, the US Strategic Command, to operate it for tactical purposes ranging from the detection of roadside bombs to the identification of nuclear weapon facilities.

But the system remains in an experimental stage as a number of technical problems, such as its low resolution, still unsolved.

Meanwhile, a civilian satellite that China plans to launch this year will be equipped with a more advanced hyperspectral camera than that linked to the Artemis, Chinese researchers said during an international conference held by the Geoscience and Remote Sensing Society in 2014.

The China Commercial Remote-sensing Satellite System (CCRSS) will be able to collect data on 328 bands offering very high resolution of up to 15 metres, according to the researchers from the Institute of Remote Sensing and Digital Earth in Beijing. This means each pixel in the image measures 15 metres squared.

Hyperspectral research efforts have been going on in China for several decades, having begun at the start of the 1970s, the team said in a presentation.

The hyperspectral camera used on the small satellite constellation known as HJ-1 - which was launched in 2008 - can also be applied in civilian sectors such as those pertaining to the environment or disaster monitoring. Credit: Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences

The technology was tested extensively and improved over time on aircraft-based platforms, before researchers shifted their attention to devices in space.

The first satellite-based hyperspectral camera, called the CMODIS, was installed on Shenzhou-3, an unmanned spacecraft that China launched in 2002.

The camera was fairly primitive with just 34 spectral bands and resolution as low as 500 metres, but it was soon replaced as Chinese technology in this area developed at a fast clip.

By 2008 the small satellite constellation known as HJ-1 was able to scan 115 bands with resolution of 100 metres, according to the researchers.

But as these developments and sensors all took place in equipment destined for the civilian sector,many suspect the cameras used by China’s military can perform significantly better.

However, the hyperspectral imaging technology could theoretically be applied in a number of sectors including vegetation identification (agriculture), mineral detection and the assessment of polluted waters in oceans, coastal zones and inland waterways.

The technology could also be used for space exploration missions.

China has deployed a hyperspectral camera for use on previous lunar missions, during which it produced one of the largest and most detailed maps of mineral distribution on the surface of the moon to date.

The hidden man fuelling China’s military ambitions: Xiang Libin honoured for work on ‘super camera’ to aid spy satellites | South China Morning Post
 
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"Due to the sensitivity of the research, however, Xiang’s name did not appear on the list of award recipients; neither were his efforts trumpeted with the usual pomp and ceremony preserved for patriotic milestones by China’s state-run media."

And the hyping of the news title ..
The SCMP reporter is an arsehole

I wish we have enough manpower and resources to guard our Men who are at the hearts of our various scientific researches of core national interests against espionage and bribery.
 
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Professor Xiang (the tall, balding man with glasses) is pictured behind the right shoulder of Chinese President Xi Jinping in this group photo with state leaders in Beijing on Friday. Xiang’s prominent position implies the importance of his research to China’s defence industry. Photo: Handout

This is stupid news. The author should've been more responsible. You don't publicly disclose scientist who work on key projects. This guy could easily become a target in China or abroad. Such publicity is not good for him or for his project!
 
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This is stupid news. The author should've been more responsible. You don't publicly disclose scientist who work on key projects. This guy could easily become a target in China or abroad. Such publicity is not good for him or for his project!

This reporter should be arrested for leaking state secrets. If this was supposed to be a state secret, and this reporter leaked it, then it's a breach of Chinese law.

Western media and Hong Kong media get too many leaked stories which are purposely leaked by China so they can report it or these are in breach of state secrets.
 
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You guys don't want to blame the Alibaba buyout that you were fist thrusting a month ago??
 
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Scientists and engineers like him are what China really needs in her endeavor to national rejuvenation, lucky for China there are many. What China doesn't need are those scumbag lawyers, most of whom were not so bright to begin with when they were still in high schools.
 
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China's CCRSS hyperspectral satellite sees in 328 electromagnetic bands with 15 meter resolution.

The hidden man fuelling China’s military ambitions: Xiang Libin honoured for work on ‘super camera’ to aid spy satellites | South China Morning Post

"The China Commercial Remote-sensing Satellite System (CCRSS) will be able to collect data on 328 bands offering very high resolution of up to 15 metres, according to the researchers from the Institute of Remote Sensing and Digital Earth in Beijing. This means each pixel in the image measures 15 metres squared.

Hyperspectral research efforts have been going on in China for several decades, having begun at the start of the 1970s, the team said in a presentation.

The technology was tested extensively and improved over time on aircraft-based platforms, before researchers shifted their attention to devices in space.

The first satellite-based hyperspectral camera, called the CMODIS, was installed on Shenzhou-3, an unmanned spacecraft that China launched in 2002.

The camera was fairly primitive with just 34 spectral bands and resolution as low as 500 metres, but it was soon replaced as Chinese technology in this area developed at a fast clip.

By 2008 the small satellite constellation known as HJ-1 was able to scan 115 bands with resolution of 100 metres, according to the researchers.

But as these developments and sensors all took place in equipment destined for the civilian sector, many suspect the cameras used by China’s military can perform significantly better."

jKQV9U4.jpg
 
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You guys don't want to blame the Alibaba buyout that you were fist thrusting a month ago??

M & A is not like buying a burger at McDonalds
The S & P was only signed half a month before the new year
So SCMP is still maintaining the same editorial board and staff before the purchase
There is nothing in the news about any re-shuffling in the paper yet
What do you expect?



images


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Scientists and engineers like him are what China really needs in her endeavor to national rejuvenation, lucky for China there are many. What China doesn't need are those scumbag lawyers, most of whom were not so bright to begin with when they were still in high schools.

Last thing this world (not just China) needs are lawyers and journalists.
 
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For those who read Chinese only。

中科院三位新院士 为祖国打造了什么样的利矛坚盾

2016年01月14日 15:44

Source:PLA Daily

今天(14日)出版的《解放军报》第五版刊登报道介绍军队新当选中国科学院、中国工程院院士,报道中透露了其中三位新院士在我国高超声速飞行器研究、天基海洋监视系统和防核地下国防工程方面的重大贡献。以下援引部分报道内容,为读者解读三位院士为国家打造利矛坚盾的重大贡献。

中国科学院院士邓小刚

研究领域与代表性事迹:风洞专家,研制我国第一个“高超声速空气动力学数值模拟软件平台”。

据《解放军报》报道,邓小刚院士始终站在技术领域最前沿,瞄准国家军队建设重大战略需求,勇于开拓创新,在几何守恒算法理论、大型软件研制及复杂工程应用等方面取得一系列创新成果,助推了我国空气动力学建设和航空航天新一代飞行器的研制发展

情牵风洞,他先后解决了高阶精度紧致格式捕捉激波的难题,建立了高阶精度非线性紧致格式构造方法,构造了一系列高阶精度格式;提出了对称守恒网络导数计算原则,突破了高阶精度算法工程应用难题;主持研制“高精度数值风洞”,解决了包括大型客机、先进战斗机/导弹、高超声速飞行器等多项重大武器装备研制中的关键气动问题,为我国飞行器设计手段实现跨越式发展奠定了重要基础;主持研制出我国第一个具有自主知识产权的“高超声速空气动力学数值模拟软件平台”,在我国多项航天飞行器研制中发挥了重要作用,有力支撑了新一代航空航天飞行器的创新设计工作。

75d1ef3f42ab978_w400_h300.jpg

邓小刚院士

本世纪初,我国启动了《国家空气动力学大型基础设施(2020年)建设规划》制定工作,邓小刚在庄逢甘院士的带领下,具体组织全国专家,历时4年,完成了规划建设方案论证。该规划于2008年由国家七部委联合颁布实施,是指导我国空气动力学大型基础设施建设的纲领性文件。

1e3df2df47dff39_w600_h337.jpg

被外媒称为WU-14的中国高超声速滑翔飞行器想象图

观察者网军事评论员指出,据外媒报道,我国从2014年开始已经进行了6次高超声速助推滑翔器飞行试验,并推测其技术验证可能已经接近完成,接下来可能转入工程研制阶段,届时意味着这种新型飞行器真正实现武器化、实用化。据推测,中国的高超声速助推滑翔器可能是一种用于突破美国弹道导弹防御系统的战略打击武器,一旦实现实用化,将让中国先于美国拥有“一小时打遍全球”的精确打击能力,甚至可以实现用常规武器对美国本土战略目标的“点穴式”打击;其技术也可用于制造新型的高超声速中远程反舰和精确打击武器。可以说是中国新世纪最重要的“杀手锏”武器之一。相比之下,目前全世界只有美国和俄罗斯在研制类似的武器系统。美国去年进行的高超声速助推滑翔器AHW试验失败爆炸,而俄罗斯的试验也被美国国防部认为未取得成功,此消彼长之下,可以说,中国已经在HGV系统武器化、实用化领域引领了世界新军事技术革命的潮流。

中国科学院院士周志鑫

研究领域与代表性事迹:卫星遥感专家,周志鑫及其团队系统研究并发展了天基海洋探测定位技术和典型地物自动检测方法。主持研制成功“空间遥感应用体系和一体化地面工程”和“空间信息直接支持应用试验系统”。

军报报道提到,自上世纪90年代以来,周志鑫带领科研团队,以神圣使命感和高度责任感,瞄准遥感应用体系构建、目标高精度探测定位与识别等技术难题,进行了系统深入的研究,解决了诸多重大难题,取得了多项创新性成果。

19803efc923ce4e_w400_h300.jpg

周志鑫院士

立足现实需要,周志鑫及其团队系统研究并发展了天基海洋探测定位技术和典型地物自动检测方法,发展了基于误差模型的卫星在轨误差校验方法,解决了卫星海量数据高效高精度自动处理和应用的关键问题,提出并建立了空间遥感数据存储、处理和应用架构,为构建我国空间遥感应用体系奠定了坚实的技术基础。主持研制成功“空间遥感应用体系和一体化地面工程”和“空间信息直接支持应用试验系统”,系统投入使用并产生了显著的效益。

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我国逆合成孔径海洋监视卫星想象图

观察者网军事评论员认为,据外媒报道,目前我国已经建立了有多枚卫星组成的覆盖全球的海洋监视系统,这一系统的主要任务之一就是为我国中远程反舰弹道导弹系统提供目标指示,利用卫星在茫茫大海上实时掌握敌方大型舰船是目前只有美国、前苏联和我国具备的先进技术,将这一技术与信息化系统相结合,再加上难以防范的远程打击能力,就能够成为一种克敌制胜的“杀手锏”武器。去年9月3日庆祝抗战胜利60周年大阅兵上,我国宣布射程4000公里的东风-26导弹具备了打击海上大型舰船的能力,这就意味着我国的天基海洋监视能力比此前又有重大提高。今年1月11日,我国2015年科技进步特等奖授予了上海微小卫星工程中心主任相里斌,但并未提及获奖的具体项目。据媒体推测,这一奖项很可能也和我国海洋遥感监控卫星项目有关。按照我国此类奖项授予的一般惯例,相里斌和周志鑫等专家曾经参与的项目虽然尚未公开,但已经取得了初步试验成功并已经投入实用。

如果说上述两位院士的研究成果结合起来奠定了我军两种“杀手锏”武器——“反航母弹道导弹”及“精确全球打击系统”的基础,那么另一位军队新院士则为我国战略国防地下工事建设立下汗马功劳。

中国工程院院士任辉启

研究领域与代表性事迹:为取得抗爆试验第一手资料,不顾危险,钻进爆炸刚刚结束后的试验工程内,几乎用生命换来宝贵试验数据。在重点国防工程出现大面积塌方危险时,经常独自钻进塌方去,反复勘测,掌握了塌方规律,查明断层结构,解决了施工难题,避免了工程报废。

报道中提到,一次,为了取得抗爆试验第一手资料,任辉启和战友在爆炸刚刚结束就钻进试验工程内。就在他们紧张地收集数据时,站在任辉启身边拍照的同事突然一头栽倒在地,任辉启来不及多想,背起战友就往外跑,不多时自己也晕倒了。经过4个多小时的抢救,他们才苏醒过来。值得欣慰的是,这组几乎是用生命换来的详细数据,为抗爆设计研究提供了可靠保证,也为实施新的研究拓展了方向。

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任辉启院士

“冲锋,是军人应有的姿态。有的在前沿阵地,有的在科研战场。分工不同,使命一样,都需要付出或牺牲!”在任辉启的心里,生命早已和国防科研事业融在了一起。

那年,一项重点国防工程施工突然出现大面积塌方,由于地质结构复杂,数家单位束手无策。一时间,造价高昂的工程面临报废危险。上级把抢修任务下达给任辉启所在的研究所。为摸清地质结构,他经常独自钻进塌方区,反复勘测,终于掌握了塌方规律,查明断层结构特点。

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外媒报道的关于中国昆明附近疑似东风-31导弹隧道式掩体阵地卫星照片

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中央电视台报道中出现的导弹地下掩体画面

由于施工环境恶劣,加上长期加班加点,任辉启脖子上长出一个瘤子,医生要他马上住院手术。但他放不下工作,拿了几十包消炎药又继续回到工地。施工现场,他运用国内先进技术治理了4次大塌方和近百次小塌方,成功解决了施工难题。

“国防科研是为打赢负责,出现半点闪失就是历史的罪人!”铭记这沉甸甸的责任,任辉启从不敢有半点懈怠。近年来,他先后获国家自然科学二等奖1项,国家技术发明二等奖1项,国家科技进步二等奖5项,军队科技进步一等奖5项,国家发明与实用新型专利17项,培养出的多名学生成为全国、全军防护科研领域的栋梁。

观察者网军事评论员认为,任辉启院士如今年逾六旬,报道中提到的部分事迹可能是上世纪80-90年代的事。(我国80-90年代曾进行多次地下核试验,其中或许进行了用于验证防核地下工程破坏特点的试验;另一方面,与新一代洲际导弹配套的“长城工程”也主要在90年代展开施工。)20多年后,才在授予院士头衔时公开任辉启院士的部分事迹,足见项目保密程度之高,堪称国之坚盾。

中科院三位新院士 为祖国打造了什么样的利矛坚盾|典型地物|反航母_凤凰军事
 
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For those who read Chinese only。

中科院三位新院士 为祖国打造了什么样的利矛坚盾

2016年01月14日 15:44

Source:PLA Daily

今天(14日)出版的《解放军报》第五版刊登报道介绍军队新当选中国科学院、中国工程院院士,报道中透露了其中三位新院士在我国高超声速飞行器研究、天基海洋监视系统和防核地下国防工程方面的重大贡献。以下援引部分报道内容,为读者解读三位院士为国家打造利矛坚盾的重大贡献。

中国科学院院士邓小刚

研究领域与代表性事迹:风洞专家,研制我国第一个“高超声速空气动力学数值模拟软件平台”。

据《解放军报》报道,邓小刚院士始终站在技术领域最前沿,瞄准国家军队建设重大战略需求,勇于开拓创新,在几何守恒算法理论、大型软件研制及复杂工程应用等方面取得一系列创新成果,助推了我国空气动力学建设和航空航天新一代飞行器的研制发展

情牵风洞,他先后解决了高阶精度紧致格式捕捉激波的难题,建立了高阶精度非线性紧致格式构造方法,构造了一系列高阶精度格式;提出了对称守恒网络导数计算原则,突破了高阶精度算法工程应用难题;主持研制“高精度数值风洞”,解决了包括大型客机、先进战斗机/导弹、高超声速飞行器等多项重大武器装备研制中的关键气动问题,为我国飞行器设计手段实现跨越式发展奠定了重要基础;主持研制出我国第一个具有自主知识产权的“高超声速空气动力学数值模拟软件平台”,在我国多项航天飞行器研制中发挥了重要作用,有力支撑了新一代航空航天飞行器的创新设计工作。

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邓小刚院士

本世纪初,我国启动了《国家空气动力学大型基础设施(2020年)建设规划》制定工作,邓小刚在庄逢甘院士的带领下,具体组织全国专家,历时4年,完成了规划建设方案论证。该规划于2008年由国家七部委联合颁布实施,是指导我国空气动力学大型基础设施建设的纲领性文件。

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被外媒称为WU-14的中国高超声速滑翔飞行器想象图

观察者网军事评论员指出,据外媒报道,我国从2014年开始已经进行了6次高超声速助推滑翔器飞行试验,并推测其技术验证可能已经接近完成,接下来可能转入工程研制阶段,届时意味着这种新型飞行器真正实现武器化、实用化。据推测,中国的高超声速助推滑翔器可能是一种用于突破美国弹道导弹防御系统的战略打击武器,一旦实现实用化,将让中国先于美国拥有“一小时打遍全球”的精确打击能力,甚至可以实现用常规武器对美国本土战略目标的“点穴式”打击;其技术也可用于制造新型的高超声速中远程反舰和精确打击武器。可以说是中国新世纪最重要的“杀手锏”武器之一。相比之下,目前全世界只有美国和俄罗斯在研制类似的武器系统。美国去年进行的高超声速助推滑翔器AHW试验失败爆炸,而俄罗斯的试验也被美国国防部认为未取得成功,此消彼长之下,可以说,中国已经在HGV系统武器化、实用化领域引领了世界新军事技术革命的潮流。

中国科学院院士周志鑫

研究领域与代表性事迹:卫星遥感专家,周志鑫及其团队系统研究并发展了天基海洋探测定位技术和典型地物自动检测方法。主持研制成功“空间遥感应用体系和一体化地面工程”和“空间信息直接支持应用试验系统”。

军报报道提到,自上世纪90年代以来,周志鑫带领科研团队,以神圣使命感和高度责任感,瞄准遥感应用体系构建、目标高精度探测定位与识别等技术难题,进行了系统深入的研究,解决了诸多重大难题,取得了多项创新性成果。

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周志鑫院士

立足现实需要,周志鑫及其团队系统研究并发展了天基海洋探测定位技术和典型地物自动检测方法,发展了基于误差模型的卫星在轨误差校验方法,解决了卫星海量数据高效高精度自动处理和应用的关键问题,提出并建立了空间遥感数据存储、处理和应用架构,为构建我国空间遥感应用体系奠定了坚实的技术基础。主持研制成功“空间遥感应用体系和一体化地面工程”和“空间信息直接支持应用试验系统”,系统投入使用并产生了显著的效益。

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我国逆合成孔径海洋监视卫星想象图

观察者网军事评论员认为,据外媒报道,目前我国已经建立了有多枚卫星组成的覆盖全球的海洋监视系统,这一系统的主要任务之一就是为我国中远程反舰弹道导弹系统提供目标指示,利用卫星在茫茫大海上实时掌握敌方大型舰船是目前只有美国、前苏联和我国具备的先进技术,将这一技术与信息化系统相结合,再加上难以防范的远程打击能力,就能够成为一种克敌制胜的“杀手锏”武器。去年9月3日庆祝抗战胜利60周年大阅兵上,我国宣布射程4000公里的东风-26导弹具备了打击海上大型舰船的能力,这就意味着我国的天基海洋监视能力比此前又有重大提高。今年1月11日,我国2015年科技进步特等奖授予了上海微小卫星工程中心主任相里斌,但并未提及获奖的具体项目。据媒体推测,这一奖项很可能也和我国海洋遥感监控卫星项目有关。按照我国此类奖项授予的一般惯例,相里斌和周志鑫等专家曾经参与的项目虽然尚未公开,但已经取得了初步试验成功并已经投入实用。

如果说上述两位院士的研究成果结合起来奠定了我军两种“杀手锏”武器——“反航母弹道导弹”及“精确全球打击系统”的基础,那么另一位军队新院士则为我国战略国防地下工事建设立下汗马功劳。

中国工程院院士任辉启

研究领域与代表性事迹:为取得抗爆试验第一手资料,不顾危险,钻进爆炸刚刚结束后的试验工程内,几乎用生命换来宝贵试验数据。在重点国防工程出现大面积塌方危险时,经常独自钻进塌方去,反复勘测,掌握了塌方规律,查明断层结构,解决了施工难题,避免了工程报废。

报道中提到,一次,为了取得抗爆试验第一手资料,任辉启和战友在爆炸刚刚结束就钻进试验工程内。就在他们紧张地收集数据时,站在任辉启身边拍照的同事突然一头栽倒在地,任辉启来不及多想,背起战友就往外跑,不多时自己也晕倒了。经过4个多小时的抢救,他们才苏醒过来。值得欣慰的是,这组几乎是用生命换来的详细数据,为抗爆设计研究提供了可靠保证,也为实施新的研究拓展了方向。

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任辉启院士

“冲锋,是军人应有的姿态。有的在前沿阵地,有的在科研战场。分工不同,使命一样,都需要付出或牺牲!”在任辉启的心里,生命早已和国防科研事业融在了一起。

那年,一项重点国防工程施工突然出现大面积塌方,由于地质结构复杂,数家单位束手无策。一时间,造价高昂的工程面临报废危险。上级把抢修任务下达给任辉启所在的研究所。为摸清地质结构,他经常独自钻进塌方区,反复勘测,终于掌握了塌方规律,查明断层结构特点。

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外媒报道的关于中国昆明附近疑似东风-31导弹隧道式掩体阵地卫星照片

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中央电视台报道中出现的导弹地下掩体画面

由于施工环境恶劣,加上长期加班加点,任辉启脖子上长出一个瘤子,医生要他马上住院手术。但他放不下工作,拿了几十包消炎药又继续回到工地。施工现场,他运用国内先进技术治理了4次大塌方和近百次小塌方,成功解决了施工难题。

“国防科研是为打赢负责,出现半点闪失就是历史的罪人!”铭记这沉甸甸的责任,任辉启从不敢有半点懈怠。近年来,他先后获国家自然科学二等奖1项,国家技术发明二等奖1项,国家科技进步二等奖5项,军队科技进步一等奖5项,国家发明与实用新型专利17项,培养出的多名学生成为全国、全军防护科研领域的栋梁。

观察者网军事评论员认为,任辉启院士如今年逾六旬,报道中提到的部分事迹可能是上世纪80-90年代的事。(我国80-90年代曾进行多次地下核试验,其中或许进行了用于验证防核地下工程破坏特点的试验;另一方面,与新一代洲际导弹配套的“长城工程”也主要在90年代展开施工。)20多年后,才在授予院士头衔时公开任辉启院士的部分事迹,足见项目保密程度之高,堪称国之坚盾。

中科院三位新院士 为祖国打造了什么样的利矛坚盾|典型地物|反航母_凤凰军事


PLA is unprecedentedly confident these days that the above military academicians are thoroughly vetted / protected and any disclosure of their identities will cause no harm if they are correct about this.


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This is stupid news. The author should've been more responsible. You don't publicly disclose scientist who work on key projects. This guy could easily become a target in China or abroad. Such publicity is not good for him or for his project!


The identity of such key personnel are usually revealed only after their project is completed or in its final stages of completion so I would not worry too much about regarding his exposure.
 
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