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China's Race for Artificial Intelligence (AI) Technology

Hi-tech Fair displaying robot and AI projects held in S China
Source: Xinhua Published: 2017/11/21

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People operate a robot to pick dolls during the 19th China Hi-tech Fair in Shenzhen, south China's Guangdong Province, Nov. 17, 2017. Over 3,000 exhibitors participated in the hi-tech fair displaying a lot of robot and artificial intelligence projects. (Xinhua/Mao Siqian)


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People look at a nuclear power robot during the 19th China Hi-tech Fair in Shenzhen, south China's Guangdong Province, Nov. 19, 2017. Over 3,000 exhibitors participated in the hi-tech fair displaying a lot of robot and artificial intelligence projects. (Xinhua/Mao Siqian)



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People watch a robot painting demonstration during the 19th China Hi-tech Fair in Shenzhen, south China's Guangdong Province, Nov. 16, 2017. Over 3,000 exhibitors participated in the hi-tech fair displaying a lot of robot and artificial intelligence projects. (Xinhua/Mao Siqian)



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Children interact with robots during the 19th China Hi-tech Fair in Shenzhen, south China's Guangdong Province, Nov. 19, 2017. Over 3,000 exhibitors participated in the hi-tech fair displaying a lot of robot and artificial intelligence projects. (Xinhua/Mao Siqian)

http://www.globaltimes.cn/content/1076330.shtml
 
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Intelligence agencies have a limited number of trained human analysts looking for undeclared nuclear facilities, or secret military sites, hidden among terabytes of satellite images. But the same sort of deep learning artificial intelligence that enables Google and Facebook to automatically filter images of human faces and cats could also prove invaluable in the world of spy versus spy. An early example: US researchers have trained deep learning algorithms to identify Chinese surface-to-air missile sites—hundreds of times faster than their human counterparts.

The deep learning algorithms proved capable of helping people with no prior imagery analysis experience find surface-to-air missile sites scattered across nearly 90,000 square kilometers of southeastern China. Such AI based on neural networks—layers of artificial neuron capable of filtering and learning from huge amounts of data—matched the overall 90 percent accuracy of expert human imagery analysts in locating the missile sites. Perhaps even more impressively, the deep learning software helped humans reduce the time needed to eyeball potential missile sites from 60 hours to just 42 minutes.

"The algorithms were used to find the locations where they said there is a high confidence of a missile site, and then humans reviewed the results for accuracy and figured out how much time the algorithms saved," says Curt Davis, a professor of electrical engineering and computer science, and director of the Center for Geospatial Intelligence, at the University of Missouri. "To my knowledge that’s never been studied before: How much time did you save, and how does that ultimately impact the human performance?"

The University of Missouri study, published on October 6 in the Journal of Applied Remote Sensing, comes at a time when satellite imagery analysts are figuratively drowning in a deluge of big data. DigitalGlobe, a leading commercial satellite imagery company, generates about 70 terabytes of raw satellite imagery each day, never mind all the imagery data coming from other commercial satellites and government spy satellites.

Davis and his colleagues showed how off-the-shelf deep learning models—heavily trained and modified for satellite imagery analysis—could identify objects of potentially great interest to intelligence agencies and national security experts. The deep learning models, including GoogleNet and Microsoft Research's ResNet, were initially created to detect and classify objects in traditional photo and video imagery. Davis and his colleagues adapted such models to the challenges and limitations of interpreting satellite imagery, such as training some deep learning models to interpret both color and black-and-white imagery, in case only black-and-white images of SAM sites were available.

They did so with satellite imagery representing a huge swath of Chinese territory, not that much smaller than the entire country of North Korea.

And in fact, analysts rely extensively on satellite imagery to keep track of how North Korea's weapons programs evolve. Human analysts have already likely identified most, if not all, existing SAM sites within the relatively small country. But similar deep learning tools could help automatically flag new SAM sites that appear in North Korea or other countries. Knowing the location of existing and new SAM sites can sometimes lead analysts to other locations of interest, because countries often place SAM sites in specific areas to defend valuable nearby assets from air attack.

The latest study also illustrates the challenges of applying deep learning AI to satellite imagery analysis. One major problem is the relative lack of large training datasets that include the hand-labeled examples needed to train deep learning algorithms to accurately identify features in satellite imagery. The University of Missouri team combined public data on the worldwide locations of about 2,200 SAM sites with DigitalGlobe satellite imagery to create their training data, and then tested four deep learning models to find the best-performing one.

The researchers ended up with only about 90 positively identified Chinese SAM site examples to train their AI. Such a puny training dataset might normally fail to yield accurate deep learning results. To get around that problem, Davis and his colleagues transformed the 90-odd training samples into about 893,000 training samples by shifting the original images slightly in different directions.

The impressive deep learning performance in the study likely benefited from SAM sites being fairly large, and having distinctive patterns when viewed from above in satellite images. Davis cautioned that deep learning algorithms face a much greater challenge when trying to analyze smaller objects such as mobile missile launchers, radar antennas, mobile radar systems, and military vehicles, because the available satellite imagery data will have fewer pixels to work with in extracting identifying features.

"It is an open question in our mind how well convolutional neural networks will work on smaller scale objects like this, especially when tested against large area datasets like we did with the China study," Davis says.

Even imperfect AI tools could prove incredibly helpful for intelligence gathering. For example, the International Atomic Energy Agency has the unenviable task of monitoring all declared nuclear facilities and also searching for undeclared facilities among nearly 200 countries. Deep learning tools could help the IAEA and other independent organizations use satellite imagery to monitor development of nuclear power and related weapons of mass destruction, says Melissa Hanham, a senior research associate in the East Asia Nonproliferation Program at the Middlebury Institute of International Studies at Monterey, Calif.

"We're in a world where there is just so much data that the best way to approach it is to do a good job on a lot of it rather than a perfect job on a small bit of it," Hanham says. "I'm looking forward to automating all the tedious and redundant parts of my job."

https://www.wired.com/story/ai-can-help-hunt-down-missile-sites-in-china/
 
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ITRI is Taiwan's most important research organization.

"ITRI has over 5800 employees; over 60% of them hold advanced degrees.

R&D in ITRI encompasses six technology areas: Information & Communications, Electronics & Optoelectronics, Advanced Manufacturing, Biomedical & Devices, Material & Chemicals, and Energy & Environment. ITRI produces over 1,000 patents annually, with an accumulated total number of over 19,000." (See Industrial Technology Research Institute (ITRI))

ITRI has developed a new "AI software that can predict breakdowns in production-line equipment, helping to eliminate factory downtime and boost human productivity.
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ITRI has conducted trials of the PHM software with seven companies, one of which is Winbond, a memory chip manufacturer in Taiwan. Another company that has implemented the software is Marketech International Corp., an LED manufacturer.
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PHM can predict when a hardware component or software indicator will fail, giving a technician or engineer enough time to eliminate problems and take corrective measures before damage is done, according to ITRI.

The PHM software can achieve more than 90 percent to 95 percent prediction accuracy in different production situations, ITRI says. The AI software effectively ensures product quality especially for high-mix, low-volume operations, according to the Taiwan government-funded R&D institute.

While Lin declined to disclose the cost of the software to a potential customer, he said that after implementation, the software can reduce manpower requirements by about 15 percent, allowing engineers and equipment operators to spend time on higher priority tasks.

ITRI aims to license the software to more manufacturers in the electronics industry.

'Generally, we need three months to run our trial program to evaluate whether our solution is suitable for their production line,' Lin said. 'Then it takes one to two years to deploy the solution in production.'" (See article below)
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Taiwan R&D Group Rolls AI for Fault Prediction | EE Times

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China's first AI-based TCM clinic opens in Wuzhen

2017-11-27 09:06 chinaplus.cri.cn Editor: Li Yan

China's first Traditional Chinese Medicine (TCM) clinic based on an artificial intelligence (AI) diagnosis system opened in Zhejiang Province on Saturday, November 25, 2017, zjol.com.cn reported.

Using AI technology containing a large number of clinical cases from experienced TCM practitioners, the 4,500-square-meter clinic in the historic town of Wuzhen is the first of its kind in China.

After a human doctor inputs a patient's condition, the system can deliver a diagnosis and write a fundamental prescription based on cases in its huge database. The human doctor can then modify the prescription to make it suitable for the patient.

"The platform allows doctors to receive back up from famous TCM masters from both ancient and modern times," said Nie Rong, chief designer of the program.

Apart from a diagnosis, the platform helps to facilitate the dispensing process. It can automatically prepare convenient traditional medicines within 10 minutes.

TCM physicians can also take advantage of the system to consult with other doctors.

China is making efforts to increase data sharing between hospitals to improve the country's healthcare system.

http://www.ecns.cn/2017/11-27/282331.shtml
 
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Honor unveiled new AI smartphone

By Ma Si | chinadaily.com.cn | Updated: 2017-11-29

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Zhao Ming, president of Honor, a smartphone brand of Huawei Technologies, unveiles AI-enabled smartphone V10 in Beijing, Nov 28, 2017. [Photo provided to chinadaily.com.cn]


Honor, a smartphone brand of Huawei Technologies, has unveiled a new artificial intelligence handset to tap into consumers' growing demands for intelligent services amid mounting competitions from domestic rivals.

The new gadget called V10 is equipped with Huawei's first AI-enabled chipset Kirin 970, and a 5.99-inch full-display screen. It came at a time when AI is seen as one of the key areas for players to stand out from a crowded market, where handsets look increasingly similar in both design and services.

Zhao Ming, president of the Honor brand, said companies usually upgrade smartphones by constantly improving the processing speed of the hardware and optimizing software. But the approach is starting to hit a bottleneck.

"AI offers a new direction, which can help smartphones understand users and then optimize services in response to consumers' specific needs," Zhao said.

According to him, AI-enabled smartphones can help narrow the capability gap between ordinary people and professionals. For instance, V10's cameras can identify 13 types of objects, such as people and plants, when being photographed, and can adjust settings such as correction filters in accordance with the surrounding environment. This can help people shoot better pictures, even though they don't have professional knowledge about photography.

Starting from 2,699 yuan ($409) in China, V10 is also designed to better meet gaming enthusiasts' demands by enabling faster operational speeds.

Kirin 970 is the first AI-enabled chipset unveiled by Huawei. It is powered by an 8-core CPU and a new generation 12-core GPU. Built using a 10-nanometer manufacturing process, the chipset packs 5.5 billion transistors into an area of only 1 square centimeter.

The Mate 10 series, Huawei's flagship smartphones which were launched in October in China, are also equipped with the Kirin 970 chip.

http://www.chinadaily.com.cn/business/tech/2017-11/29/content_35123599.htm
 
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US Think Tank fears world economic and military domination from China’s AI
brian wang | November 30, 2017 |
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The Center for a New American Security (CNAS), a research arm of the US intelligence community is warning that if China is successful in developing superior Artificial Intelligence the balance of economic and military power will be shifted.

The report said China is no longer in a position of technological inferiority relative to the United States but rather has become a true peer that may have the capability to overtake the United States in AI.

China’s military thinkers anticipate the approach of a “singularity” on the battlefield, where humans can no longer keep pace with the speed of machine-led decisions during combat.

Baidu alone has more than 60 different AI platforms and has spent $1 billion buying up Western AI firms.

China’s government and leading technology companies will be putting tens of billions of dollars towards the race to become dominant in Artificial Intelligence.

McKinsey reported that Global venture capital funding for AI had grown from $589 million in 2012 to over $5 billion in 2016. McKinsey estimates that the total market for AI applications will reach $127 billion by 2025.

Much of the momentum behind AI in China is being driven by private-sector tech firms. Aided by huge volumes of search data and their many product lines, some of China’s Internet giants are on the cutting edge of technologies such as image and voice recognition. These capabilities have been integrated into new products, including automated personal assistants, autonomous cars, and so forth.

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China AI startup Sensetime will be launching an IPO that is expected to raise $2 billion in early 2018.

There are several other China AI startups.

US Currently has more AI technical talent

The US currently has 850,000 AI technical people while China has about 50,000.There are 70,000 overseas chinese AI technical talents working in the US and China is lobbying to win them back.

Baidu plans to train 100,000 more AI technical talents within 3 years.

China annual graduates four times as many students as the United States (1.3 million vs. 300,000).

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China has taken the lead in supercomputers

China has 202 of the top 500 supercomputers versus the US with 143 of the top 500.

Just six months ago, the US led with 169 systems, with China coming in at 160. Despite the reversal of fortunes, the 144 systems claimed by the US gives them a solid second place finish, with Japan in third place with 35, followed by Germany with 20, France with 18, and the UK with 15.

China has also overtaken the US in aggregate performance as well. The Asian superpower now claims 35.4 percent of the TOP500 flops, with the US in second place with 29.6 percent.

https://www.nextbigfuture.com/2017/...c-and-military-domination-from-chinas-ai.html
 
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Well I suggest the American think tank seek comfort from our Indian friends. Theyll tell you that all we do is making low quality stuff using stolen technologies. Please go back to sleep, no worries:coffee:
 
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China have 202 Supercomputer :coffee:
US have 143 Supercomputer
Japan have 35 Supercomputer
Germany have 20 Supercomputer
France have 18 Supercomputer
and..
UK only have 15 Supercomputer


https://www.nextbigfuture.com/2017/...c-and-military-domination-from-chinas-ai.html



But but but but
Heloooo...Where is Supa powah India??? :o:
Who claim to be a Supa Powah country since 2012, and also claimed Supa powah in IT Technology and Industry :enjoy:

I think Indian need to differentiate between Low IT Technicians and Scientist & Researchers in IT Technology Industry.

@SOUTHie @Hellraiser007 @madokafc @katarabhumi
:D
 
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Last time China teams dominates world AI competition in one of the hardest AI problem: natural language understanding at Stanford University USA.

Now it seems that when it come to computer vision, another AI-complete problem, teams from big players in the US lose again, to a Chinese AI start-up company this time.:rofl:

It seems that AI is most likely an area China will leave the US in the dust very very soon if not already: when it comes to brags the US act as if they are the world leader, but when it come to real deal like puting your much-hyped AI machines/algrothims in an open competition, they fall short against the real champion which is China.:enjoy::lol:

http://mil.news.sina.com.cn/jssd/2017-12-01/doc-ifypikwt0155109.shtml
 
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No surprise, the aim of this competition is just to spot achievements from small initial companies worldwide and than transfuse fresh blood to huge companies and high tech realm...

same old wallstreet harvesting game~
no country boundary for the capital

we can guess that with investment and share control/cooperation afterward, western world again seized their top level position on one of the human technology aspects.

congr...congr...
 
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But they will have the fastest supercomputer. SP2012 style.
It really is amazing how the US is becoming more and more like India with each passing year. Rampant corruption, growing wealth divide, simmering public anger, political paralysis, etc.
I expect them to shout and holler from the rooftops about how they're back and "'Murica #1 :usflag:" when they manage to briefly squeeze into first place before Tianhe-3 comes online.
 
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China is suffering from a serious shortage of qualified people to staff its ambitions to become a leader in artificial intelligence, part of a global mismatch as countries employ advanced computing sciences to drive the next stage of growth, according to a report released Friday.

There is a global AI talent pool of about 300,000 people, while the actual needs by industry number in the millions, according to a 73-page report released by Tencent Research Institute. Competition for the top tier of talent is the most intense, as there are fewer than 1,000 people who are considered capable of steering the direction of AI research and development, according to the report.

The US leads other countries in both the quantity and quality of AI personnel, and China won’t be able to immediately solve the talent shortage despite elevating AI to a national priority, Tencent said in the report co-authored with Beijing-based recruitment portal zhipin.com.

About one-third of the available AI talent pool is spread across 367 colleges or universities around the world, with the US accounting for about 46 per cent of those. However, China only has 20 universities doing AI research and these also have weaker academic study capability as they developed much later than US, according to the study.

Not only does the US lead in AI academic research but it also has the most AI start-ups globally, accounting for 41 per cent compared with China’s share of 22.6 per cent.

The large tech companies in both countries, including Google and Facebook in the US and Tencent and Baidu in China, have invested billions of dollars into research and development to develop AI technologies.

Dubbed the fourth industrial revolution, technology related to artificial intelligence is expected to boost global economic output by a further 14 per cent by 2030 – the equivalent of an additional US$15.7 trillion – and China, as the world’s second largest economy, will see an estimated 26 per cent boost to its economy by that time, PwC said in a report in June.

China’s State Council, or cabinet, laid out goals in July to build a domestic AI industry worth almost US$150 billion in the next few years and to make the country an innovation centre for the technology by 2030.

http://www.scmp.com/tech/innovation...d-shortage-talent-us-home-lions-share-experts
 
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There is nth surprising about the US having more AI capabilities in terms of the quantity of experts in the field for now(quality? How do u define 'quality' in the first place anyway?)

Im would be more concerned if developing China still has not overtaken the US in the field of AI in the next decade by 2030.

Will that happen? We just gave to take a look at China's track record n the Chinese way of doing things.

In other words, the US(and specifically you) should be the 1 praying to god that China will not progress any further in AI.

Haha thanks.
 
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There is nth surprising about the US having more AI capabilities in terms of the quantity of experts in the field for now(quality? How do u define 'quality' in the first place anyway?)

Im would be more concerned if developing China still has not overtaken the US in the field of AI in the next decade by 2030.

Will that happen? We just gave to take a look at China's track record n the Chinese way of doing things.

In other words, the US(and specifically you) should be the 1 praying to god that China will not progress any further in AI.

Haha thanks.

The track record you should be paying attention to is the US. The US has a long history of producing/inventing technological revolutions on a global scale. You can't say the same for China in the last couple hundred years.

An considering its resources, the US is well positioned to be at the forefront of artificial intelligence development.
 
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