Description
hardware flow control. It is an ideal choice in the field of industrial automation.
There will be many changes in employment patterns. The days when one generation learned one job and the next generation learned another are over. I
have two sons, ages 16 and 19, and I tell them to be prepared to forget their job skills two or three times in their careers and take on new challenges.
Artificial intelligence will reshape manufacturing
Caijing: What technology has the greatest impact on manufacturing?
Spiesshofer: Artificial intelligence. If applied properly, AI technology can unleash human potential and bring significant changes to production, wealth,
and prosperity. It will make automation more autonomous. There will be self-optimizing factories in the future. Repetitive and difficult work will be completed
through automation, and humans can focus on more creative work.
Caijing: How does ABB integrate artificial intelligence technology and automation technology? What are the differences between robots equipped with artificial
intelligence technology and previous robots?
Spiesshofer: Let me tell you a story first and then explain it systematically. Last September, at the Coliseum in Pisa, we asked our two-arm robot YuMi to conduct
a symphony orchestra, and the world-famous singer Andrea Bocelli sang under its command. Through this, we demonstrated what AI and robots can do.
If we put this learning process in an actual industrial environment, assuming you are a small company that produces toys in Wuhan, China, and you want to use
robots, what can we provide you? Through an AI technology-supported software package called Robot Studio, we can introduce experiences similar to your work
scenarios and provide support for professionals in robot application planning. All of this is supported by AI technology. Therefore, AI is involved in the planning process.
When you start using these robots in operation, you may worry that I am just a small company and I cannot afford to pay for a maintenance engineer. But ABB
can monitor the status of all robots, store the data in the cloud, and compare it with the data of thousands of other robots. It can intelligently predict its possible downtime
and accurately calculate the maintenance costs and time you need, even as a robot. A small company can also afford it.
So I think if AI can be applied well, it will enhance the value of technology to humans and enable it to serve more people at a lower cost. At present, the application
of technology is still expensive. Hardware is only part of it, and the engineering application of technology is still a large expense, whether it is setup, installation or operation
. If we can make it cheaper, more companies will Affordable, more companies can produce quality products at attractive costs, which means more people can afford them,
so more people can have jobs, and more people can be created. need.
ABB is part of Made in China 2025
Caijing: People have been talking about trade wars this year, anti-globalization sentiment is rising, and various trade protection policies are being introduced.
What impact do these changes have on you?
Spiesshofer: Market sentiment is generally positive, but there are also many uncertainties, including regulatory, trade, and political. As CEO, I have to
guide ABB forward in this challenging environment. For me, long-term certainty helps me lead the company better. I hope that the future world will be more certain.
Caijing: What do you understand by Made in China 2025?
Spiesshofer: ABB can play a fundamental role in this, because Made in China 2025 can only succeed when Chinese companies can produce enough internationally
competitive products. To this end, Chinese companies need automation and robots, and we can provide these technologies. Now we have a complete integrated value
The future of manufacturing is coming, and it will integrate artificial intelligence technology with traditional automation and robotics technologies. China is writing a
new history of integrating artificial intelligence technology with traditional manufacturing. China”s role is changing, its technological capabilities are changing, and China has
the opportunity to make greater contributions and become a world leader.
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AI950N | ABB | 3KDE175523L9500 Temperature Input Module
AO910N | ABB | Analog output module
PFTL201CE | ABB | PFTL 201CE Pillow block tensiometer horizontal load cell
PFTL201DE | ABB | PFTL 201DE Pillow block tensiometer horizontal load cell
PFTL201DE| ABB | PFTL 201DE Pillow block tensiometer horizontal load cell
PFTL201D | ABB | PFTL 201D Pillow block tensiometer horizontal load cell
PFVL 141C| ABB | PFVL141C round load cell
PFVL141R | ABB | PFVL 141R Ring load cell
PFVA401 | ABB | PFVA 401 Rolling force controller
B4233-1 | HIMA | B 4233-1 Security System Module
PFBL141B/C | ABB | PFBL 141B/C Vertical Force Test Unit
PFRL 101A| ABB | PFRL 101A radial load cell
PFRL101B | ABB | PFRL 101B Radial Load Cell
PFRL 101C| ABB | PFRL101C radial load cell
PFRL101D | ABB | PFRL 101D Radial Load Cell
PFCL301E | ABB | PFCL 301E Mini Web Tension Vertical Load Cell
PFTL 301E | ABB | PFTL301E Mini Web Tension Level Load Cell
PFSK167K01 3BSE048634R2 | ABB | Front Panel Kit Shield
PFSK193 3BSC990116R1 | ABB | Front Panel Kit Shield
PFSK152REP 3BSE018877R2 | ABB | Signal Concentrator Board
PFSK163V3 3BSE016323R3 | ABB | PFSK 163V3 Profibus communication board
PFSK163V1 3BSE016323R1 | ABB | Profibus communication board
PFSK126 3BSE002097R1 | ABB | server motherboard
PFSK163 3BSE016418R| ABB | PFSK 163 Channel Control Unit
PFSK126 3BSE002097R1 | ABB | Channel Control Unit
PFSK193 3BSC620104R1 | ABB | Computer motherboard
PFSK126 3BSE002097R1 | ABB | Signal processing board
PFSK110 YM322001-EP | ABB | Channel control panel
PFSK104 YM322001-EB | ABB | Signal processing board
PFSK110 YM322001-EP | ABB | Channel control unit
PFSK113 YM322001-ET | ABB | Amplifier sliding device
PFSK102 EXCYM322001-EG | ABB | Roll supply unit
PFTL 101B | ABB | PFTL101B Pillow block tensiometer
PFSK151 | ABB | DSP signal processing
PFCL201CD/CE | ABB | Vertical load cell for pillow block tensiometer
PFCL 201C | ABB | PFCL201C Pillow block tensiometer
PFTL 101A | ABB | PFTL101A Pillow block tensiometer
PFTL101AE | ABB | Pillow block tensiometer
PFTL 101A-0.5kN | ABB | PFTL101A load cell
PFTL101AER | ABB | Acid resistant type pillow block tensiometer
PFEA111 | ABB | Control unit
DSDI451 5716075-A | ABB | Digital input module
DSDI306 57160001-CM | ABB | Digital input circuit board
DSDI304 57160001-DB | ABB | Digital input module
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