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Showing posts with label 5G technology. Show all posts
Showing posts with label 5G technology. Show all posts

Saturday, November 9, 2019

Digitalisation and its impact

https://youtu.be/Rd8gVeqE-qc

< https://youtu.be/h8pWZyLyS6U

https://youtu.be/TovXuxuyeK8

Has China surpassed USA in education?
https://youtu.be/FTndIELsh48

How China’s tech sector is challenging the world - Part 1

https://youtu.be/veEMMi9BCUE

Huawei CEO: "US companies will suffer the most"

https://youtu.be/MlZU3ktM95w

The Point: Does China need to teach the West lesson in 5G?

https://youtu.be/DTghfxg_DEE

LIKE it or not, the Fourth Industrial Revolution (IR4.0) is upon us.

Sure, Tun Dr Mahathir Mohamad has shown political resolve in pointing Malaysians towards a new course in reaching higher levels of industrialisation. Lest we forget, IR4.0 simply embodies digitalisation. It’s powerful – where speed, sophistication and the profound impact of digital technologies are integrated into orthodox industries on a massive scale.

Frankly, I worry that – until now, as the process of digitalisation in Malaysia lags behind what’s happening around us – the lack of preparedness and of real resolve to act with clear plans and programmes will (unlike China) leave us further and further behind as domestic politics continue to overwhelm. Previous technological shifts followed the onset of the steam engine in the first industrial revolution; then came electricity, the internal combustion engine, the telephone and the light bulb which is the second; followed by the third which moved from analogue to digital (web 2.0) as reflected by the personal computer, networking, the Internet and data/IT.

Digitalisation

In the digital age, economic activity results from billions of online connections. They involve not just people and organisations, but also data, devices, systems and processes. Its backbone is hyper-connectivity. It’s where the effects of technologies and platforms (such as Internet, artificial intelligence (AI) robotics, 5G, computational biology, the Internet-of-Things or IoT, data analytics and computational analysis) give rise to whole new industries, creating significant massive shifts in productivity and jobs.

Outside Malaysia, the digital economy is taking shape and undermining conventional notions about how businesses and organisations are structured; how they interact; and how consumers get their information, goods and services. For example, mall car parking in China is done digitally – after scanning the car’s number plate, the car is directed to an empty lot; and when it leaves, the system automatically deducts the fee from the e-wallet. Simply, components in the digital economy are transformed or empowered by digitalisation: the fundamental process where data is generated, collected, analysed and eventually serves as the single most valuable asset. And so, data becomes the most valuable currency.

Today, China, Germany, the United Kingdom, South Korea and Japan lead the world in digitalisation – way ahead of the United States. China’s digital economy accounts for about one-third of its GDP: arising from two components (i) the orthodox ICT industry; and (ii) the digital empowerment of conventional industries (like agriculture, pharmaceutical, transportation, services, etc). This part contributes 75% of what’s digital.

Today, digital technologies have created a new virtual and autonomous economy (VAE) beyond mere production. Here, businesses & their processes make use of intelligent functions to boost economic activities – slowly but surely, they begin to render human activities increasingly obsolete.

The VAE is all about distribution – who gets what from production. This changes everything: from politics to free market beliefs to social structures. It all started in the ‘70s and ‘80s when ICs (tiny “integrated circuit” microchips) brought real computational assistance to the economy – arrival of the personal computer.

Then, the 1900s and 2000s brought in the connection of digital processes through the Internet; web services emerged, and the cloud enlarged computing resources. Everything started to talk to each other. Globalisation arrived. Since then (the 2010s), the onset of wireless networks through the use of a range of sensors brought into focus, data – using tons of data to enable machines to “see” via intelligent algorithms.

So, came computer vision (ability of machines to recognise), natural-language processing (ability of computers to “talk”), digital language translation, face and voice recognition, inductive inference and digital assistance. The use of masses of data to form “associations” began to give “life” to computers (beginning to act like humans), making them “intelligent.”

The new intelligent building blocks – using information, enable digitalisation to re-architect the way businesses do things. As a result, entirely new industries (never even thought of) will spring up.

Lost jobs

In 1930, Lord John Maynard Keynes predicted that by 2030, the use of robots will lead to “technological unemployment”. This is now a reality – 10 years ahead! Jobs get increasingly scarce.

The orthodox economy will have by now produced enough for all. In the new VAE, physical production matters less; access to what’s being produced becomes key – distribution, i.e. who gets what! The new distributive era brings new economic and social realities: (i) belief in free markets (which prize efficiency over distribution) will be under pressure, since losers are rarely fully compensated in practice; (ii) the way to measure growth will also change (since GDP and productivity are now measured in terms of physical production) so that virtual advances in value-added will be properly accounted; (iii) workers feel disenfranchised as digitalisation replaces many of them – creating a quiet anger about immigration, inequality and elitists.

5G

US dominated 4G mainly because regulators got out of the way of private risk-takers. This led to the coming of mobile wireless Internet. Europe and Asia are still smarting over the United States having beaten them to the 4G finish line. By 2016,4G added almost US$100bil annually to American economic output and created numerous wireless-related jobs. It also powered the rise of the “app economy” because tools like Uber, Airbnb, Netflix and Waze require superfast mobile speeds to work.

Most apps weren’t even envisioned a decade ago; now nearly three-quarters of the companies in the global app economy are American. Other countries know they will reap massive economic returns if they knock the US off its perch as the 5G economy unfolds. Indeed, Europe and Asia are poised to surge past the US when it comes to mobile Internet innovation.

The next generation mobile broadband or 5G will allow entrepreneurs to create new technologies and products that we don’t even yet know we need. Ten years ago, most consumers didn’t have a smart phone; now most can’t live without them.

All of this happened thanks to 4G. With 5G, mobile speeds could be 100 times faster. This could enable driverless cars to avoid accidents, transform medicine through implanted medical devices, and produce smarter cities and energy grids through the emerging IoT.

Countries that build their 5G networks first will be in a better position to experiment with and deploy tomorrow’s technologies. Their first-to-market advantage could displace Silicon Valley and other US tech cradles. Already the United States is very much behind compared with Europe, South Korea, Japan and China. Since 2015, China has built about 350,000 cell sites, against fewer than 30,000 in the United States. That’s a huge competitive disparity because 5G requires far more cell sites grouped closer together than 4G.

The robot is part of a broader trend in China, where techcos are teaming up with a variety of industries – agriculture, auto-mobile, healthcare – to explore the possibilities of combining 5G and AI to revolutionise traditional sectors.

From conducting the world’s first 5G-enabled surgery on a human and transmitting 8K ultra-high-definition TV content through 5G networks, to piloting self-driving buses and cars, China is pioneering cutting-edge technologies for commercial use. The high-tech push is expected to accelerate now that China just kicked off the 5G era at speeds at least 10 times faster than 4G. So it is possible to gather high-quality data quickly, which is necessary to ensure AI is effective. AI applications have existed before the commercial use of 5G. But it is the superfast speed, gigantic computing capacity and massive device connectivity of 5G that will spawn the use of AI in most sectors and on a far larger scale. 5G’s responsive speed can empower mission-critical applications that are impossible with 4G networks.

When a needle pinches your finger, it takes one-hundredth of a second to feel the pain. And theoretical latency of 5G is one-tenth of that. Only with such speed can remote surgeries and autonomous driving see wider applications. In March 2019, a patient with Parkinson’s disease underwent China’s (and possibly the world’s) first 5G-based remote surgery. Digital technologies such as AI, next-generation network security, robotics, blockchain, IoT, 3D printing and virtual reality all depend on data. 5G addresses this need for data collection with its quick, smooth transmission.

The most important use of AI is to allow machines to automatically make decisions. The best application is self-driving vehicles where 5G will allow decisions to be made more reliably. When a car runs into emergencies (like a pedestrian suddenly jaywalking), a delay in seconds of data transmission among sensors equipped within the car will likely cause a potentially grievous, even fatal, accident. 5G can prevent such things from happening.

6G

While 5G is set to have a revolutionary influence on society and industries, 6G will bring more dramatic changes with super high speeds and ultralow latency. Theoretically, downloads over 6G can reach the astonishing speed of 1 Tbit per second, one thousand times faster than 5G’s capability of 1Gbit. In the 6G era, in less than a second, a new movie can be transmitted from the Internet to computers or smartphones. But 6G will go way beyond entertainment. For many researchers, 6G is capable of addressing some of the shortfalls of 5G and enabling streamlined connections with super performance in speeds and latency – for instance, the IoT and augmented reality.

Beijing started preliminary work on 6G research at the end of 2017. China’s 6G concept research and development work will start in 2020, with an expected commercial release in 2030. In Europe, 6G moves will mainly come from Finland. As I see it, Europe and China will need to join hands to work on 6G: because (a) cooperation is of strategic importance for both. 6G will greatly improve applications under 5G. With larger bandwidth, much lower latency and wider connections, it can revolutionise the structure of wired and wireless networks.

New 6G technical solutions can include satellite communication technology. This means a large number of places that are not covered by communication signals (for instance, deep oceans where base stations cannot be built) will have the possibility of transmitting and receiving signals in the future; (b) such cooperation will help Europe cope with the risks of lagging behind; and (c) it would be a natural extension of their proven 5G cooperation.

What then are we to do

The 5G technology promises to be the backbone of tomorrow’s Internet, transforming virtually every industry, including weaponry and manufacturing, by offering seamless wireless connections up to 100 times faster than current 4G networks. Its speed and capacity enable innovations, such as driverless cars, robot-run factories and Internet-connected pacemakers. It is said often enough that we tend to overstate the impact of technology in the short run and understate it in the long run.

One of the widely misquoted statistics concerns an imminent job apocalypse: automation will slash 47% of US jobs by mid-2030. In truth, the real finding of the two Oxford dons simply concluded that occupations accounting for 47% of current American jobs (including those in office administration, sales and various service industries) fall into the “high risk” category.

No attempt was made to estimate how many jobs will actually be lost. Much depends on cost, regulatory concerns, political pressure and social resistance. Historically, new technologies have always ended up creating more jobs than they destroyed. In the long run, all should work out fine. The short term is likely to be bumpy.

Simply because new technologies take time to raise productivity and produce wage gains. But, one thing is certain, automation is likely to boost inequality in the short run. So, policymakers need to really manage the transition: making greater use of insurance to compensate workers who have to move to jobs with lower salary; reforming education systems and support retraining and lifelong learning; extending income tax credit to improve incentives to work and reduce inequality; removing regulations that hinder job-switching; providing “mobility vouchers” to subsidise relocation as the distribution of jobs changes; and changing zoning rules to allow more people to live in the cities where jobs are being created. Sure, all these make sense. But will policymakers pay attention? To be frank, governments are incredibly unprepared for what’s to come.

The bottom line? Power brings with it great responsibility. Those in the technology and AI space have a moral imperative to ensure the ethics of data and technology – especially to help policymakers navigate complex ethical issues involved in using AI and robotics.

Most data relate to people – hence, the need to understand human behaviour. Technologies provoke a whole raft of new ethical issues involving transparency and accountability of business processes and decision making. Then, there are issues of privacy and rights connected with personal data. Not to forget that machine-learning algorithms often introduce bias.

Resolving them requires an approach grounded in ethics and an understanding of the causes of bias – traditionally the province of philosophy and sociology. In the end, the challenge lies in formulating transparent rules and ethical standards that can be agreed by the large scientific and technology community. That’s always tough!

BY Tan Sri Lin See-Yan who is Research Professor at Sunway University. His new book: Trying Troubled Times Amid Trauma &Tumult, 2017–2019 (Pearson). Feedback is most welcome. The views expressed are the writer’s own.


Image result for rying Troubled Times Amid Trauma & Tumultn by Tan Sri Prof Lin See-YanRelated 

 Ordinary folk inspired top economist's book | The Star Online

Work in progress: Sultan Nazrin glancing through pages of the book with Prof Lin (right) as Cheah looks on at Sunway University.
Ordinary folk inspired top economist's book | The Star Online


https://youtu.be/k3_OsdoLZCo

Digitalisation and its impact

https://youtu.be/Rd8gVeqE-qc

< https://youtu.be/h8pWZyLyS6U

https://youtu.be/TovXuxuyeK8

Has China surpassed USA in education?
https://youtu.be/FTndIELsh48

How China’s tech sector is challenging the world - Part 1

https://youtu.be/veEMMi9BCUE

Huawei CEO: "US companies will suffer the most"

https://youtu.be/MlZU3ktM95w

The Point: Does China need to teach the West lesson in 5G?

https://youtu.be/DTghfxg_DEE

LIKE it or not, the Fourth Industrial Revolution (IR4.0) is upon us.

Sure, Tun Dr Mahathir Mohamad has shown political resolve in pointing Malaysians towards a new course in reaching higher levels of industrialisation. Lest we forget, IR4.0 simply embodies digitalisation. It’s powerful – where speed, sophistication and the profound impact of digital technologies are integrated into orthodox industries on a massive scale.

Frankly, I worry that – until now, as the process of digitalisation in Malaysia lags behind what’s happening around us – the lack of preparedness and of real resolve to act with clear plans and programmes will (unlike China) leave us further and further behind as domestic politics continue to overwhelm. Previous technological shifts followed the onset of the steam engine in the first industrial revolution; then came electricity, the internal combustion engine, the telephone and the light bulb which is the second; followed by the third which moved from analogue to digital (web 2.0) as reflected by the personal computer, networking, the Internet and data/IT.

Digitalisation

In the digital age, economic activity results from billions of online connections. They involve not just people and organisations, but also data, devices, systems and processes. Its backbone is hyper-connectivity. It’s where the effects of technologies and platforms (such as Internet, artificial intelligence (AI) robotics, 5G, computational biology, the Internet-of-Things or IoT, data analytics and computational analysis) give rise to whole new industries, creating significant massive shifts in productivity and jobs.

Outside Malaysia, the digital economy is taking shape and undermining conventional notions about how businesses and organisations are structured; how they interact; and how consumers get their information, goods and services. For example, mall car parking in China is done digitally – after scanning the car’s number plate, the car is directed to an empty lot; and when it leaves, the system automatically deducts the fee from the e-wallet. Simply, components in the digital economy are transformed or empowered by digitalisation: the fundamental process where data is generated, collected, analysed and eventually serves as the single most valuable asset. And so, data becomes the most valuable currency.

Today, China, Germany, the United Kingdom, South Korea and Japan lead the world in digitalisation – way ahead of the United States. China’s digital economy accounts for about one-third of its GDP: arising from two components (i) the orthodox ICT industry; and (ii) the digital empowerment of conventional industries (like agriculture, pharmaceutical, transportation, services, etc). This part contributes 75% of what’s digital.

Today, digital technologies have created a new virtual and autonomous economy (VAE) beyond mere production. Here, businesses & their processes make use of intelligent functions to boost economic activities – slowly but surely, they begin to render human activities increasingly obsolete.

The VAE is all about distribution – who gets what from production. This changes everything: from politics to free market beliefs to social structures. It all started in the ‘70s and ‘80s when ICs (tiny “integrated circuit” microchips) brought real computational assistance to the economy – arrival of the personal computer.

Then, the 1900s and 2000s brought in the connection of digital processes through the Internet; web services emerged, and the cloud enlarged computing resources. Everything started to talk to each other. Globalisation arrived. Since then (the 2010s), the onset of wireless networks through the use of a range of sensors brought into focus, data – using tons of data to enable machines to “see” via intelligent algorithms.

So, came computer vision (ability of machines to recognise), natural-language processing (ability of computers to “talk”), digital language translation, face and voice recognition, inductive inference and digital assistance. The use of masses of data to form “associations” began to give “life” to computers (beginning to act like humans), making them “intelligent.”

The new intelligent building blocks – using information, enable digitalisation to re-architect the way businesses do things. As a result, entirely new industries (never even thought of) will spring up.

Lost jobs

In 1930, Lord John Maynard Keynes predicted that by 2030, the use of robots will lead to “technological unemployment”. This is now a reality – 10 years ahead! Jobs get increasingly scarce.

The orthodox economy will have by now produced enough for all. In the new VAE, physical production matters less; access to what’s being produced becomes key – distribution, i.e. who gets what! The new distributive era brings new economic and social realities: (i) belief in free markets (which prize efficiency over distribution) will be under pressure, since losers are rarely fully compensated in practice; (ii) the way to measure growth will also change (since GDP and productivity are now measured in terms of physical production) so that virtual advances in value-added will be properly accounted; (iii) workers feel disenfranchised as digitalisation replaces many of them – creating a quiet anger about immigration, inequality and elitists.

5G

US dominated 4G mainly because regulators got out of the way of private risk-takers. This led to the coming of mobile wireless Internet. Europe and Asia are still smarting over the United States having beaten them to the 4G finish line. By 2016,4G added almost US$100bil annually to American economic output and created numerous wireless-related jobs. It also powered the rise of the “app economy” because tools like Uber, Airbnb, Netflix and Waze require superfast mobile speeds to work.

Most apps weren’t even envisioned a decade ago; now nearly three-quarters of the companies in the global app economy are American. Other countries know they will reap massive economic returns if they knock the US off its perch as the 5G economy unfolds. Indeed, Europe and Asia are poised to surge past the US when it comes to mobile Internet innovation.

The next generation mobile broadband or 5G will allow entrepreneurs to create new technologies and products that we don’t even yet know we need. Ten years ago, most consumers didn’t have a smart phone; now most can’t live without them.

All of this happened thanks to 4G. With 5G, mobile speeds could be 100 times faster. This could enable driverless cars to avoid accidents, transform medicine through implanted medical devices, and produce smarter cities and energy grids through the emerging IoT.

Countries that build their 5G networks first will be in a better position to experiment with and deploy tomorrow’s technologies. Their first-to-market advantage could displace Silicon Valley and other US tech cradles. Already the United States is very much behind compared with Europe, South Korea, Japan and China. Since 2015, China has built about 350,000 cell sites, against fewer than 30,000 in the United States. That’s a huge competitive disparity because 5G requires far more cell sites grouped closer together than 4G.

The robot is part of a broader trend in China, where techcos are teaming up with a variety of industries – agriculture, auto-mobile, healthcare – to explore the possibilities of combining 5G and AI to revolutionise traditional sectors.

From conducting the world’s first 5G-enabled surgery on a human and transmitting 8K ultra-high-definition TV content through 5G networks, to piloting self-driving buses and cars, China is pioneering cutting-edge technologies for commercial use. The high-tech push is expected to accelerate now that China just kicked off the 5G era at speeds at least 10 times faster than 4G. So it is possible to gather high-quality data quickly, which is necessary to ensure AI is effective. AI applications have existed before the commercial use of 5G. But it is the superfast speed, gigantic computing capacity and massive device connectivity of 5G that will spawn the use of AI in most sectors and on a far larger scale. 5G’s responsive speed can empower mission-critical applications that are impossible with 4G networks.

When a needle pinches your finger, it takes one-hundredth of a second to feel the pain. And theoretical latency of 5G is one-tenth of that. Only with such speed can remote surgeries and autonomous driving see wider applications. In March 2019, a patient with Parkinson’s disease underwent China’s (and possibly the world’s) first 5G-based remote surgery. Digital technologies such as AI, next-generation network security, robotics, blockchain, IoT, 3D printing and virtual reality all depend on data. 5G addresses this need for data collection with its quick, smooth transmission.

The most important use of AI is to allow machines to automatically make decisions. The best application is self-driving vehicles where 5G will allow decisions to be made more reliably. When a car runs into emergencies (like a pedestrian suddenly jaywalking), a delay in seconds of data transmission among sensors equipped within the car will likely cause a potentially grievous, even fatal, accident. 5G can prevent such things from happening.

6G

While 5G is set to have a revolutionary influence on society and industries, 6G will bring more dramatic changes with super high speeds and ultralow latency. Theoretically, downloads over 6G can reach the astonishing speed of 1 Tbit per second, one thousand times faster than 5G’s capability of 1Gbit. In the 6G era, in less than a second, a new movie can be transmitted from the Internet to computers or smartphones. But 6G will go way beyond entertainment. For many researchers, 6G is capable of addressing some of the shortfalls of 5G and enabling streamlined connections with super performance in speeds and latency – for instance, the IoT and augmented reality.

Beijing started preliminary work on 6G research at the end of 2017. China’s 6G concept research and development work will start in 2020, with an expected commercial release in 2030. In Europe, 6G moves will mainly come from Finland. As I see it, Europe and China will need to join hands to work on 6G: because (a) cooperation is of strategic importance for both. 6G will greatly improve applications under 5G. With larger bandwidth, much lower latency and wider connections, it can revolutionise the structure of wired and wireless networks.

New 6G technical solutions can include satellite communication technology. This means a large number of places that are not covered by communication signals (for instance, deep oceans where base stations cannot be built) will have the possibility of transmitting and receiving signals in the future; (b) such cooperation will help Europe cope with the risks of lagging behind; and (c) it would be a natural extension of their proven 5G cooperation.

What then are we to do

The 5G technology promises to be the backbone of tomorrow’s Internet, transforming virtually every industry, including weaponry and manufacturing, by offering seamless wireless connections up to 100 times faster than current 4G networks. Its speed and capacity enable innovations, such as driverless cars, robot-run factories and Internet-connected pacemakers. It is said often enough that we tend to overstate the impact of technology in the short run and understate it in the long run.

One of the widely misquoted statistics concerns an imminent job apocalypse: automation will slash 47% of US jobs by mid-2030. In truth, the real finding of the two Oxford dons simply concluded that occupations accounting for 47% of current American jobs (including those in office administration, sales and various service industries) fall into the “high risk” category.

No attempt was made to estimate how many jobs will actually be lost. Much depends on cost, regulatory concerns, political pressure and social resistance. Historically, new technologies have always ended up creating more jobs than they destroyed. In the long run, all should work out fine. The short term is likely to be bumpy.

Simply because new technologies take time to raise productivity and produce wage gains. But, one thing is certain, automation is likely to boost inequality in the short run. So, policymakers need to really manage the transition: making greater use of insurance to compensate workers who have to move to jobs with lower salary; reforming education systems and support retraining and lifelong learning; extending income tax credit to improve incentives to work and reduce inequality; removing regulations that hinder job-switching; providing “mobility vouchers” to subsidise relocation as the distribution of jobs changes; and changing zoning rules to allow more people to live in the cities where jobs are being created. Sure, all these make sense. But will policymakers pay attention? To be frank, governments are incredibly unprepared for what’s to come.

The bottom line? Power brings with it great responsibility. Those in the technology and AI space have a moral imperative to ensure the ethics of data and technology – especially to help policymakers navigate complex ethical issues involved in using AI and robotics.

Most data relate to people – hence, the need to understand human behaviour. Technologies provoke a whole raft of new ethical issues involving transparency and accountability of business processes and decision making. Then, there are issues of privacy and rights connected with personal data. Not to forget that machine-learning algorithms often introduce bias.

Resolving them requires an approach grounded in ethics and an understanding of the causes of bias – traditionally the province of philosophy and sociology. In the end, the challenge lies in formulating transparent rules and ethical standards that can be agreed by the large scientific and technology community. That’s always tough!

BY Tan Sri Lin See-Yan who is Research Professor at Sunway University. His new book: Trying Troubled Times Amid Trauma &Tumult, 2017–2019 (Pearson). Feedback is most welcome. The views expressed are the writer’s own.


Image result for rying Troubled Times Amid Trauma & Tumultn by Tan Sri Prof Lin See-YanRelated 

 Ordinary folk inspired top economist's book | The Star Online

Work in progress: Sultan Nazrin glancing through pages of the book with Prof Lin (right) as Cheah looks on at Sunway University.
Ordinary folk inspired top economist's book | The Star Online

https://youtu.be/k3_OsdoLZCo

Monday, September 16, 2019

Why China can take a lead in 5G and AI technology application

https://youtu.be/InPzlUE5Qckc

China is among the world’s first countries to apply 5G to business services. China’s telecommunications guides the global 5G-technology trend. An open China is becoming the “playground” for global AI businesses and a key landmark for a joint exploration of AI’s direction of end development. Check out this video and have a look at why China can take a lead in 5G and AI technology application.

Related-posts:

THE NEW YORK TIMES , USA TODAY , AND WALL STREET JOURNAL BESTSELLER Dr. Kai-Fu Lee—one of the world’s most respected expert..

 KAI FU LEE: AI SUPERPOWERS

https://youtu.be/clbSkL3BiRg

Silicon Dragon: AI Superpowers Fireside Chat with Kai-Fu Lee https://youtu.be/ktF5dadf_D8

Trump US-China Trade War became Tech War


China to US: You’re lying :

Video: https://youtu.be/WdNobdkSQyA

'We lied, we cheated, we stole', ‘the Glory of American experiment’ by US Secretary of State/Ex-CIA director Mike Pompeo 

Video: https://youtu.be/DPt-zXn05ac 


Malaysian public universities’ worst nightmare is beginning, with local private universities rapidly rising and making their presence fe.


Why China can take a lead in 5G and AI technology application

https://youtu.be/InPzlUE5Qckc

China is among the world’s first countries to apply 5G to business services. China’s telecommunications guides the global 5G-technology trend. An open China is becoming the “playground” for global AI businesses and a key landmark for a joint exploration of AI’s direction of end development. Check out this video and have a look at why China can take a lead in 5G and AI technology application.

Related-posts:

THE NEW YORK TIMES , USA TODAY , AND WALL STREET JOURNAL BESTSELLER Dr. Kai-Fu Lee—one of the world’s most respected expert..

 KAI FU LEE: AI SUPERPOWERS

https://youtu.be/clbSkL3BiRg

Silicon Dragon: AI Superpowers Fireside Chat with Kai-Fu Lee https://youtu.be/ktF5dadf_D8

Trump US-China Trade War became Tech War


China to US: You’re lying :

Video: https://youtu.be/WdNobdkSQyA

'We lied, we cheated, we stole', ‘the Glory of American experiment’ by US Secretary of State/Ex-CIA director Mike Pompeo 

Video: https://youtu.be/DPt-zXn05ac 


Malaysian public universities’ worst nightmare is beginning, with local private universities rapidly rising and making their presence fe.


Sunday, May 26, 2019

Pride and prejudice

https://youtu.be/9JZ_Tej8XfY

https://youtu.be/DVz-DLBl_oQ

https://youtu.be/35qPCFP9nfs

https://youtu.be/I-d7YziXzII

THE United States ranks low in the credibility stakes. It can no longer wax lyrical about free trade and fair play because the world now knows that when it finds itself facing stiff competition, it uses a ruling the magnitude of a nuclear bomb to retaliate.

Firstly, US president Donald Trump declared a national emergency and barred American companies from doing business with companies deemed a national security risk.

Then, companies like Google and Microsoft stopped making software and services available to Huawei, China’s biggest smartphone vendor. The ban essentially means that future Huawei phones will no longer get Google play apps, YouTube, and almost certainly no updates to Android Q or other platform-level upgrades since these would require Google’s sign-off, too.

Sure, you can still make calls or use WeChat and other Chinese platforms, but for users in most parts of the world, the phone is pretty much useless.

Word is that Huawei poses a security risk, but no clarification has been forthcoming to what these threats include exactly.

There is a sense of déjà vu here.

The world was once told by the US and its allies that Iraq had weapons of mass destruction, but we learnt in the end there were none. Now, we have the Iran threat, but that’s another story all together.

From what little info has trickled into the worldwide web, the suggestion is that Chinese-manufactured devices have hidden back doors that could potentially allow an attacker to gain special access.

It sounds like a script excerpt from a James Bond movie, with spooks using a master password to break into high security facilities.

But incredibly, Huawei and ZTE Corp, another telecommunications equipment manufacturer, were cleared by the US House of Representatives permanent select committee on intelligence.

The two had been accused of providing “incomplete, contradictory and evasive responses to the committee’s core concerns” during their year-long investigation on the threat they supposedly pose to American interests.

In the end, the committee found no concrete evidence of infringement. But that didn’t stop the two companies from being labelled a national security risk and getting kicked out of the US.

IS, the German internet security watchdog, inspected Huawei laboratories in Germany and found no evidence of espionage, and The New York Times quoted American officials saying that the case against the company had “no smoking gun – just a heightened concern about the firm’s rising technological dominance”.

Rightly or wrongly, in the game of perception, the US has lost its moral ground. Thanks, in many ways, to an impulsive president.

Most of the world’s population thinks the bullying of Huawei is simply Trump’s hallmark. It isn’t about a security risk, but an economic threat.

Outside China, Huawei is arguably the most successful Chinese consumer brand so far. Thanks to a good and relatively cheaper product, it is now the second largest phone vendor in the world.

One strong accusation levelled at Huawei is that it enjoys Chinese government backing, and that China uses its spies to steal US technology for these private companies.

It’s a really warped perspective because, using the same logic, why is the US president taking such a hard line against a private company that’s merely selling phones?

The answer could well lie in the technology race.

Now, it’s about who launches 5G first, the next generation of mobile broadband imminently replacing 4G.

With 5G, we will see exponentially faster download and upload speeds. Huawei is widely renowned for being 12 months ahead of its competitors in the 5G race.

It began to develop its own 5G technology in as early as 2009. In 2013, Huawei hired more than 300 top experts from the wireless industry around the world and announced that they had invested US$600mil (RM2.5bil) in 5G research.

In 2016, Huawei set up a 5G product line for such devices.

What started as a three-man company now has thousands of employees engaged in 5G product development. Following this, in 2017, and then in 2018, Huawei invested almost US$1.4bil (RM5.8bil) in 5G product development.

The South China Morning Post has, however, also reported that apart from its tremendous commercial benefits, 5G – the fifth generation of mobile communication – is revolutionising military and security technology, which is partly why it has become a focal point in the US’ efforts to contain China’s rise as a tech power, and the Western nation’s allegations against Chinese companies is simply symptomatic of its insecurities.

“The future landscape of warfare and cybersecurity could be fundamentally changed by 5G.

“But experts say 5G is more susceptible to hacking than previous networks, at a time of rising security concerns and US-China tensions on various interconnected fronts that include trade, influence in the Asia-Pacific region and technological rivalry.

“These tensions provide the backdrop to controversy surrounding Huawei, the world’s largest telecoms equipment supplier.” It’s also a fight between China and the US on who leads the artificial intelligence domain, as with 5G advancements, it means “whereas existing networks connect people to people, the next generation will connect a vast network of sensors, robots and autonomous vehicles through sophisticated artificial intelligence.

“The so-called Internet of Things will allow objects to ‘communicate’ with each other by exchanging vast volumes of data in real time, and without human intervention.

“Autonomous factories, long-distance surgery or robots preparing your breakfast – things that previously existed only in science fiction – will be made possible.

“Meanwhile, though, it is being identified by many military experts as the cornerstone of future military technology,” the newspaper reported.

As TV personality Trevor Noah says, humorously, in his show, the 5G war isn’t just about “loading an entire movie in three seconds but about the Chinese spying – which the US also wants to do.”

He sarcastically added that “the US is losing the 5G race and luckily, we have a maniac in our team who’s willing to play dirty.”

As the battle rages on, spilling into the already acrimonious US-China trade war, the controversy has become more bitter, and complicated, with the US egging its allies to ban Huawei from building its next generation of mobile phone networks. So far, Britain, Germany, Australia, New Zealand and Canada have either banned Huawei or are reviewing whether to do so.

Japan, a US ally, seems to have been dragged into the propaganda of persecuting Huawei, too.

In China, the actions against Huawei have stirred a storm of nationalism, with the Chinese calling for a boycott of iPhone, a reaction which could eventually affect other American and European products, at the rate things are escalating.

Even within the Chinese diaspora, the messages of unequivocal support for Huawei have gone viral in the world’s social media sphere.

The irony is that the iPhone is not only assembled in China, but its very inception starts in that country at a much earlier stage, and from a much deeper part of the earth, too.

At least 90% of rare earth minerals – naturally occurring solids whose combination comprises essential iPhone parts – are mined in China, notably in Mongolia, it’s reported.

“Lanthanides, scandium, yttrium and some other alien-sounding names at the bottom of the periodic table (remember your secondary school?) make the iPhone ‘light, bright and loud.’ Its colour screen, glass polishing, circuitry, speakers and vibration unit come from a mix of these rare earth minerals,” it says in Finances Online.

The report added that where American companies would take months to pool thousands of industrial engineers, and even more months to construct new assembly lines to accommodate a trivial but urgent change in an iPhone spec (say, its glass panel needing to curve to hatch on the body six weeks prior to launching), it only takes 15 days in China to do the same.

“To put it in perspective, one production line in China can assemble 72,000 iPhone 5 back plates daily; one factory can have four to five production lines and China can have as much as a hundred of these factories, opening or closing a few of them depending on the current demand.

“The last part – opening and closing plants like a mom-and-pop store – is almost impossible in an American economy.

“It is no longer a city counting the number of manufacturing plants it has, but the manufacturing plant can be counted as a city in many Asian economic zones.”

And it’s common knowledge that Mickey Mouse merchandise is made in China, and likewise all the branded sportswear sold globally. The profits these companies are raking in are simply down to the low cost of operation.

Trump should know and do better. Instead of threatening and bullying Huawei with trumped up charges, he should urge American companies to be more competitive, make better products and keep prices low.

I am dumping my iPhone, upgrading my South Korean Samsung and for the first time, getting myself a Huawei. I hear the camera is really good, and it doesn’t even need a zoom lens for magnification. And that sophistication comes from a license to thrill.

By Wong Chun Wai

Wong Chun Wai began his career as a journalist in Penang, and has served The Star for over 27 years in various capacities and roles. He is now editorial and corporate affairs adviser to the group, after having served as group managing director/chief executive officer.

On The Beat made its debut on Feb 23 1997 and Chun Wai has penned the column weekly without a break, except for the occasional press holiday when the paper was not published. In May 2011, a compilation of selected articles of On The Beat was published as a book and launched in conjunction with his 50th birthday. Chun Wai also comments on current issues in The Star.

 Source link


Read ,more:

China digs in for protracted trade fight with US - The Sun Daily


Commentary: China fights U.S. trade bullying with "Long March" spiri

 

Trade war gives US unfavorable image

US President Donald Trump on Thursday announced a $16 billion aid package for farmers to offset their losses from the trade war with China. He said the package "will be paid for by the billions of dollars" from tariffs on Chinese imports.

Bannon promotes economic fascism

All Chinese companies wishing to get to the high-tech mountaintop should learn from Huawei's composed example. If only there were a group of Chinese companies sharing intellectual property with foreign partners, then certain malicious forces would hesitate at a crackdown.

Fast economic development best way to deal with security challenge

China's economic potential is far greater than that of the US, the largest economy. There is no doubt that China's economic prospects are the best in the world. These facts drive China's core competitiveness. They will make Washington feel its ability falls short of its wishes when it comes to containing Beijing.

US orchestrates self-defeating maneuvers

Chinese people do not know whether we should call US approaches hegemonic politics or profiteering politics. But in short, they are crooked means. The threat of tariffs will not work. Neither will US threats against Chinese companies create a shock wave against China. The US is picking a wrong opponent at a wrong time. It will find no way of crafting a good result from a strategic mistake.

Growing US pressure won't force China to submit

The US is having a profound effect on the global economic order by abusing national security and trampling on commercial principles. Current US administration is destroying the reputation and national image that generations of Americans have built. Such arrogance and hegemony are by no means good signs for the US.

Pride and prejudice

https://youtu.be/9JZ_Tej8XfY

https://youtu.be/DVz-DLBl_oQ

https://youtu.be/35qPCFP9nfs

https://youtu.be/I-d7YziXzII

THE United States ranks low in the credibility stakes. It can no longer wax lyrical about free trade and fair play because the world now knows that when it finds itself facing stiff competition, it uses a ruling the magnitude of a nuclear bomb to retaliate.

Firstly, US president Donald Trump declared a national emergency and barred American companies from doing business with companies deemed a national security risk.

Then, companies like Google and Microsoft stopped making software and services available to Huawei, China’s biggest smartphone vendor. The ban essentially means that future Huawei phones will no longer get Google play apps, YouTube, and almost certainly no updates to Android Q or other platform-level upgrades since these would require Google’s sign-off, too.

Sure, you can still make calls or use WeChat and other Chinese platforms, but for users in most parts of the world, the phone is pretty much useless.

Word is that Huawei poses a security risk, but no clarification has been forthcoming to what these threats include exactly.

There is a sense of déjà vu here.

The world was once told by the US and its allies that Iraq had weapons of mass destruction, but we learnt in the end there were none. Now, we have the Iran threat, but that’s another story all together.

From what little info has trickled into the worldwide web, the suggestion is that Chinese-manufactured devices have hidden back doors that could potentially allow an attacker to gain special access.

It sounds like a script excerpt from a James Bond movie, with spooks using a master password to break into high security facilities.

But incredibly, Huawei and ZTE Corp, another telecommunications equipment manufacturer, were cleared by the US House of Representatives permanent select committee on intelligence.

The two had been accused of providing “incomplete, contradictory and evasive responses to the committee’s core concerns” during their year-long investigation on the threat they supposedly pose to American interests.

In the end, the committee found no concrete evidence of infringement. But that didn’t stop the two companies from being labelled a national security risk and getting kicked out of the US.

IS, the German internet security watchdog, inspected Huawei laboratories in Germany and found no evidence of espionage, and The New York Times quoted American officials saying that the case against the company had “no smoking gun – just a heightened concern about the firm’s rising technological dominance”.

Rightly or wrongly, in the game of perception, the US has lost its moral ground. Thanks, in many ways, to an impulsive president.

Most of the world’s population thinks the bullying of Huawei is simply Trump’s hallmark. It isn’t about a security risk, but an economic threat.

Outside China, Huawei is arguably the most successful Chinese consumer brand so far. Thanks to a good and relatively cheaper product, it is now the second largest phone vendor in the world.

One strong accusation levelled at Huawei is that it enjoys Chinese government backing, and that China uses its spies to steal US technology for these private companies.

It’s a really warped perspective because, using the same logic, why is the US president taking such a hard line against a private company that’s merely selling phones?

The answer could well lie in the technology race.

Now, it’s about who launches 5G first, the next generation of mobile broadband imminently replacing 4G.

With 5G, we will see exponentially faster download and upload speeds. Huawei is widely renowned for being 12 months ahead of its competitors in the 5G race.

It began to develop its own 5G technology in as early as 2009. In 2013, Huawei hired more than 300 top experts from the wireless industry around the world and announced that they had invested US$600mil (RM2.5bil) in 5G research.

In 2016, Huawei set up a 5G product line for such devices.

What started as a three-man company now has thousands of employees engaged in 5G product development. Following this, in 2017, and then in 2018, Huawei invested almost US$1.4bil (RM5.8bil) in 5G product development.

The South China Morning Post has, however, also reported that apart from its tremendous commercial benefits, 5G – the fifth generation of mobile communication – is revolutionising military and security technology, which is partly why it has become a focal point in the US’ efforts to contain China’s rise as a tech power, and the Western nation’s allegations against Chinese companies is simply symptomatic of its insecurities.

“The future landscape of warfare and cybersecurity could be fundamentally changed by 5G.

“But experts say 5G is more susceptible to hacking than previous networks, at a time of rising security concerns and US-China tensions on various interconnected fronts that include trade, influence in the Asia-Pacific region and technological rivalry.

“These tensions provide the backdrop to controversy surrounding Huawei, the world’s largest telecoms equipment supplier.” It’s also a fight between China and the US on who leads the artificial intelligence domain, as with 5G advancements, it means “whereas existing networks connect people to people, the next generation will connect a vast network of sensors, robots and autonomous vehicles through sophisticated artificial intelligence.

“The so-called Internet of Things will allow objects to ‘communicate’ with each other by exchanging vast volumes of data in real time, and without human intervention.

“Autonomous factories, long-distance surgery or robots preparing your breakfast – things that previously existed only in science fiction – will be made possible.

“Meanwhile, though, it is being identified by many military experts as the cornerstone of future military technology,” the newspaper reported.

As TV personality Trevor Noah says, humorously, in his show, the 5G war isn’t just about “loading an entire movie in three seconds but about the Chinese spying – which the US also wants to do.”

He sarcastically added that “the US is losing the 5G race and luckily, we have a maniac in our team who’s willing to play dirty.”

As the battle rages on, spilling into the already acrimonious US-China trade war, the controversy has become more bitter, and complicated, with the US egging its allies to ban Huawei from building its next generation of mobile phone networks. So far, Britain, Germany, Australia, New Zealand and Canada have either banned Huawei or are reviewing whether to do so.

Japan, a US ally, seems to have been dragged into the propaganda of persecuting Huawei, too.

In China, the actions against Huawei have stirred a storm of nationalism, with the Chinese calling for a boycott of iPhone, a reaction which could eventually affect other American and European products, at the rate things are escalating.

Even within the Chinese diaspora, the messages of unequivocal support for Huawei have gone viral in the world’s social media sphere.

The irony is that the iPhone is not only assembled in China, but its very inception starts in that country at a much earlier stage, and from a much deeper part of the earth, too.

At least 90% of rare earth minerals – naturally occurring solids whose combination comprises essential iPhone parts – are mined in China, notably in Mongolia, it’s reported.

“Lanthanides, scandium, yttrium and some other alien-sounding names at the bottom of the periodic table (remember your secondary school?) make the iPhone ‘light, bright and loud.’ Its colour screen, glass polishing, circuitry, speakers and vibration unit come from a mix of these rare earth minerals,” it says in Finances Online.

The report added that where American companies would take months to pool thousands of industrial engineers, and even more months to construct new assembly lines to accommodate a trivial but urgent change in an iPhone spec (say, its glass panel needing to curve to hatch on the body six weeks prior to launching), it only takes 15 days in China to do the same.

“To put it in perspective, one production line in China can assemble 72,000 iPhone 5 back plates daily; one factory can have four to five production lines and China can have as much as a hundred of these factories, opening or closing a few of them depending on the current demand.

“The last part – opening and closing plants like a mom-and-pop store – is almost impossible in an American economy.

“It is no longer a city counting the number of manufacturing plants it has, but the manufacturing plant can be counted as a city in many Asian economic zones.”

And it’s common knowledge that Mickey Mouse merchandise is made in China, and likewise all the branded sportswear sold globally. The profits these companies are raking in are simply down to the low cost of operation.

Trump should know and do better. Instead of threatening and bullying Huawei with trumped up charges, he should urge American companies to be more competitive, make better products and keep prices low.

I am dumping my iPhone, upgrading my South Korean Samsung and for the first time, getting myself a Huawei. I hear the camera is really good, and it doesn’t even need a zoom lens for magnification. And that sophistication comes from a license to thrill.

By Wong Chun Wai

Wong Chun Wai began his career as a journalist in Penang, and has served The Star for over 27 years in various capacities and roles. He is now editorial and corporate affairs adviser to the group, after having served as group managing director/chief executive officer.

On The Beat made its debut on Feb 23 1997 and Chun Wai has penned the column weekly without a break, except for the occasional press holiday when the paper was not published. In May 2011, a compilation of selected articles of On The Beat was published as a book and launched in conjunction with his 50th birthday. Chun Wai also comments on current issues in The Star.

 Source link


Read ,more:

China digs in for protracted trade fight with US - The Sun Daily


Commentary: China fights U.S. trade bullying with "Long March" spiri

 

Trade war gives US unfavorable image

US President Donald Trump on Thursday announced a $16 billion aid package for farmers to offset their losses from the trade war with China. He said the package "will be paid for by the billions of dollars" from tariffs on Chinese imports.

Bannon promotes economic fascism

All Chinese companies wishing to get to the high-tech mountaintop should learn from Huawei's composed example. If only there were a group of Chinese companies sharing intellectual property with foreign partners, then certain malicious forces would hesitate at a crackdown.

Fast economic development best way to deal with security challenge

China's economic potential is far greater than that of the US, the largest economy. There is no doubt that China's economic prospects are the best in the world. These facts drive China's core competitiveness. They will make Washington feel its ability falls short of its wishes when it comes to containing Beijing.

US orchestrates self-defeating maneuvers

Chinese people do not know whether we should call US approaches hegemonic politics or profiteering politics. But in short, they are crooked means. The threat of tariffs will not work. Neither will US threats against Chinese companies create a shock wave against China. The US is picking a wrong opponent at a wrong time. It will find no way of crafting a good result from a strategic mistake.

Growing US pressure won't force China to submit

The US is having a profound effect on the global economic order by abusing national security and trampling on commercial principles. Current US administration is destroying the reputation and national image that generations of Americans have built. Such arrogance and hegemony are by no means good signs for the US.

Wednesday, May 22, 2019

华为不惧美国封杀 美式霸凌失道寡助!Huawei's goodwill gesture being treated unscrupulously by the US !

https://youtu.be/hRv0QMEwdas

https://youtu.be/dtT0rHgJ9-I

《今日关注》是CCTV中文国际频道播出的时事述评栏目。该栏目紧密跟踪国内外重大新闻事件,邀请国内外一流的专家和高级官员梳理新闻来龙去脉,评论新闻事件的影响和发展趋势。

中国财经报道》 任正非:美国政客低估华为的力量


https://youtu.be/8Y8kjVoZvgA

任正非接受中央广播电视总台等媒体采访,任正非:美国政客低估华为的力量;摩根士丹利:美加征关税或致全球经济衰退;东航正式就波音737,MAX停飞损失向波音公司提出索赔。 《中国财经报道》原“整点财经”,联通全天频道财经资讯滚动递进式播出,形成频道财经资讯流。向受众提供即时国内国际财经新闻资讯,及时报道足以影响普通投资者重大利益的变化。

https://youtu.be/rhBHOaZSjPk

【栏目介绍】 离你最近的热点新闻,给你最快的新闻现场,予你最深的剖析解读,《今日亚洲》栏目携手亚洲30家强势媒体,独家资源、权威学者、专业制作,倾力打造亚太时事述评新闻高地。

https://youtu.be/bTuJT1oLdA4
#財經八點檔 #非凡貿易戰 #華為

【財經八點檔】暫緩禁令90天美國怕了?華為嗆沒意義 中國網友力挺:全面拋棄蘋果! 商用到軍用"大疆"好神!白宮盯上中國無人機巨頭控竊密│非凡新聞│20190521


首发!任正非最新回应:需要跟世界霸主较量!不需要90天临时执照!!!

https://youtu.be/E-GDyvUgg3o

专家批驳“美国重建中国论” 纯属荒谬说法 中国发展靠自己

https://youtu.be/HJRvnyfAVu8

Huawei products should not be linked to politics: Ren


U.S. ban not to affect Huawei's high-end and 5G products: Ren

  https://youtu.be/Yz6tKCEhvqA

Huawei is a commercial company, and the use of its products is a choice for consumers based on their likes and should not be linked to politics, said Ren Zhengfei, founder and president of Huawei Technologies Co. Ltd. on Tuesday.

Ren made the remarks after the Bureau of Industry and Security (BIS) of the U.S. Department of Commerce put Huawei and its affiliates on an "Entity List," which would restrict the sale or transfer of U.S. technologies to the company. The ban has triggered opposition from markets worldwide.

Huawei maintains mass production capacities for specific key components, including chips, and the U.S. ban will not result in negative business growth, Ren told reporters.

The telecommunications giant projected slower but positive growth this year.

Huawei posted a 39 percent year-on-year revenue growth in the first quarter of the year. The growth has slowed slightly in the second quarter, but the slowing will not hurt the company, Ren said.

"Huawei had made preparations for the extreme situations even before the Chinese Lunar New Year," he said.

He noted, however, that it would not reject the U.S. supply chain, citing Huawei's announced purchase of 50 million chips from Qualcomm in 2018.

"As long as the U.S. government allows U.S. companies to export the components, Huawei will continue to buy while sticking to its own research and development," he said.

Ren said he appreciated the support of a large number of U.S. components suppliers over the years, and they are also lobbying for the easing of U.S. government-imposed restrictions.

He said Huawei is also in talks with companies like Google for potential remedy solutions, he said.

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Read more: 

Ren's mind-set fit to face down US

China can hardly make the US clear about all these issues. The only option for China is to do its own things well and accept the fact that the China-US trade war will last in the days that follow. As China becomes stronger, it will eventually see the US willing to reflect upon itself.

Homegrown BeiDou system guarantees industry safety

The overall output value of China's satellite navigation and positioning services industry reached 301.6 billion yuan ($43 billion) in 2018, up 18.3 percent on a year-on-year basis, with the country's home-developed BeiDou satellite system contributing 80 percent to the core production value, reads an official white paper.
 

China launches new BeiDou navigation satellite

China sent a new satellite of the BeiDou Navigation Satellite System (BDS) into space from the Xichang Satellite Launch Center in Sichuan Province at 11:48 p.m. Friday.


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