At the heart of an M2M telemetry system is a device that carries data from a single machine or network of machines to a central data source, typically a cloud-based server. Data also flows back to the networked machines, based on the particular application and analysis from business intelligence software.
Excellent article. It's going to be fascinating to see the varied ways that there will be far more data-driven transactions between machines than between people. Good examples of potential applications in health care, remote control of assets, security and fleet management. Thank you.
I am seeing this technology at work during volunteer exercises for my county's Medical Reserve Corps. At a simulated disaster, patients are triaged and the info is entered by a wireless scanner, then transmitted to various hospitals. This gives the emergency rooms information about the severity and number of casualties to expect. It's a whole lot easier than manually entering information.
We can use M2M in art, entertainment, festival lighting. M2M can be used to make a dance show attractive. Dancers costumes which embraced with lights which are controlled by M2M. These lights are switched on/off wirelessly according to music to match up the choreography.
Now dairy industry is completely automated, where as the cows are milked by robots. M2M software program can read the data, which can be communicated to farmers via text messages on their smart phones. Information can be like how many cows have been milked, how much milk each cow is producing, etc.
While every company might have their own solution for PLM, Aras Innovator 10 intends to make PLM easier for all company sizes through its customization. The program is also not resource intensive, which allows it to be appropriated for any use. Some have even linked it to the Raspberry Pi.
Using a 3D printer, CNC router, and existing powertrain components, a team of engineers is building an electric car from scratch on the floor of the International Manufacturing Technology Show in Chicago this week.
In November, a European space probe will try to land on the surface of a comet moving at about 84,000 mph and rotating with a period of 12.7 hours. Many factors make positioning the probe for the landing an engineering challenge.
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