The company says its new IIoT unit will help manufacturers harness the Industrial Internet of Things (IIoT) and more rapidly deploy technologies that will allow them to better manage and analyze data, making their operations safer, more reliable and more efficient.
Vimal Kapur, HPS president, says: “Since HPS’s introduction of the modern automation control system, we have helped plants and manufacturing sites around the world use an increasing amount of data to solve customer’s productivity and safety challenges.
US President Barack Obama and German Chancellor Angela Merkel visited the Harting stand at the Hannover Messe, with the Harting family greeting the two heads of state. The US is this year’s partner country of the Hannover Messe.
President Obama was accompanied by a large delegation. Together with Chancellor Merkel, the 44th US president learned about Harting products and solutions, which are accompanying companies around the globe into Industrie 4.0.
LBR iiwa lightweight robots did a dance at the Hannover Messe opening ceremony on Sunday 24 April.
In front of almost 3,000 guests including Chancellor Angela Merkel and US President Barack Obama, dancers and Kuka LBR iiw robots turned human-robot-collaboration into a staged performance.
Human-robot collaboration is a central topic for the factory of the future.
The grand opening of Hannover Messe 2016 on Sunday was based entirely on the topic of Integrated Industry – Discover Solutions.
In a spectacularly choreographed performance, seven LBR iiwa robots visually depicted the five flagship themes at Hannover Fair over five acts: Digital Factory, Industrial Supply, Industrial Automation, Research & Technology, Energy.
The internet of things is enabling industry to connect individual robotic and automated work cells with other similar cells to create multicellular organisms within what could now be referred to as “smart factories”, particularly as the factory building itself can be connected to those multicellular organisms operating within its walls.
Not only that, those smart factories can themselves be connected to other smart factories within the body of the industrial company’s entire estate, which itself is all wired up to what could be called a central nervous system.
Martyn Williams, managing director of industrial automation software expert Copa-Data UK, discusses how machine builders can use predictive analytics to minimise the maintenance and downtime costs of their products
The cost of production downtime varies significantly from one industry sector to another, but without a doubt, when it occurs, downtime is a troublesome and expensive inconvenience for all manufacturers.
More often than not, halts in production could be avoided, so imagine just how much manufacturers could save if machine data was available to anticipate breakdowns.
Bosch has combined what it calls its ‘Industrie 4.0 platform’ with Industrial Internet Consortium standards for the first time, calling it ‘an international breakthrough for connected industry’
Connected industry is now becoming an international reality. In a new project, Bosch is working together with partners to combine the technical standards of Germany’s “Industrie 4.0” platform and of the Industrial Internet Consortium (IIC) for the first time. This combination of the two approaches allows the exchange of data between central areas of connected industry.
Kuka, one of the world’s biggest industrial robotics companies, is to develop a smart manufacturing platform in collaboration with Chinese communications giant Huawei.
Kuka and Huawei signed a deal to develop what could be a global network – built on the industrial internet of things – to enable the connection of robots across many factories. The companies say they plan to integrate artificial intelligence and deep learning into the system.
In the new manufacturing era, robots will play an increasingly important role in helping manufacturing businesses remain agile and drive growth, say the two companies.
Exclusive interview with Erik Walenza-Slabe, CEO of IoT ONE
Apparently, we are all either living in the Age of Industry 4.0 already, or we are entering it. And one of the main features of this age is a relatively new connectivity technology called the “internet of things”, often abbreviated to IoT.
The IoT is, as you might imagine or know, a network of “things”. These things can be computers, industrial robots or any other type of robot, any device or appliance – anything that is a thing or a machine, which is why it’s also sometimes referred to as the machine-to-machine (M2M) network.
Perhaps it’s not a particularly accurate label for it, mainly because the IoT can be part of the general internet that we all know and use, in that it can use the same Ethernet cables and WiFi and whatever other connections there are available, although it’s thought M2M communications could mainly be carried through radio-frequency identification technology. Continue reading The IoT – with Chinese characteristics
Industrial robots are increasingly being connected to the cloud, where they can be managed centrally in some sort of control room, which means that a small number of human staff could theoretically manage hundreds, if not thousands, of machines.
Previously they were almost always operated in isolated circumstances within factories, inside a work cell, fenced off from human workers because of safety concerns. They were programmed individually, using a teach pendant, which is like a 20-years-out-of-date oversized mobile phone.