There was an article: “The weakness and the way out of smart hardware from the Nest smoke alarms.†Finally, the article pointed out that the smart hardware, or is the biggest obstacle to the Internet of Things products: they are more than enough, less durable. Often these products are placed in the home, no one will manage them, this time the power supply has become the biggest problem. No one climbs up from low to high to change batteries for various furniture. If it is an alarm device, there is no electricity and no one realizes that it is even more troublesome if the danger does not play its due role!
However, today's wireless RF technology has made new breakthroughs, and the Internet of Things products may finally get rid of the dependence on artificial charging!
The Internet of Things era is a grand vision. Every product can be intelligently connected through the Internet. From your lawn mower to your curtains to your office desk chair, every piece of furniture or appliance can communicate with each other. This may sound beautiful, but if you want to move toward such a future, you must completely change the way IoT products are powered.
Today, researchers from the University of Washington bring us the latest solutions: Through radio frequency identification technology (RFID), get a computer that is free from battery dependence.
The radio frequency technology (RFID) that everybody can generally see is generally applied to the labels on the inside of shopping clothes, electronic components and bus stations. In the past, they could not provide a source of power for anything, but the latest results of the University of Washington’s research team allowed its radio frequency signals to be converted into electricity.
The power generated is actually very small and it is not enough to support the operation of smart phones, but it is sufficient to run IoT devices that require less power. According to Aaron Parks, a researcher at the University of Washington's SensorLab, getting rid of dependence on traditional batteries allows the device to run for decades without any physical hardware intervention!
This technology allows IoT devices to run applications like smart phones, allowing IoT devices to formally enter the category of computing devices. Today, computational RFID technology has become part of the larger system in modern computing.
Although this is of extraordinary significance to the future IoT industry, it has not officially entered the functional testing process. The University of Washington expects to conduct in-depth testing in the near future to ensure that the new transmission protocol (named WISP) can truly perform its function in the real world.
For the IoT industry, the battery has always been dependent on a very big problem, no one wants to climb high, such as to take off a sensor on the top of the bridge of the Golden Gate Bridge, or in a large field of farmland, squinting Find an unpowered sensor. The sensor can supply power by itself without manual maintenance. This is the key to completely liberating the enormous potential of the Internet of Things.
Just don't expect to realize overnight, and the road to the Internet of Things is still very long.
However, today's wireless RF technology has made new breakthroughs, and the Internet of Things products may finally get rid of the dependence on artificial charging!
The Internet of Things era is a grand vision. Every product can be intelligently connected through the Internet. From your lawn mower to your curtains to your office desk chair, every piece of furniture or appliance can communicate with each other. This may sound beautiful, but if you want to move toward such a future, you must completely change the way IoT products are powered.
Today, researchers from the University of Washington bring us the latest solutions: Through radio frequency identification technology (RFID), get a computer that is free from battery dependence.
The radio frequency technology (RFID) that everybody can generally see is generally applied to the labels on the inside of shopping clothes, electronic components and bus stations. In the past, they could not provide a source of power for anything, but the latest results of the University of Washington’s research team allowed its radio frequency signals to be converted into electricity.
The power generated is actually very small and it is not enough to support the operation of smart phones, but it is sufficient to run IoT devices that require less power. According to Aaron Parks, a researcher at the University of Washington's SensorLab, getting rid of dependence on traditional batteries allows the device to run for decades without any physical hardware intervention!
This technology allows IoT devices to run applications like smart phones, allowing IoT devices to formally enter the category of computing devices. Today, computational RFID technology has become part of the larger system in modern computing.
Although this is of extraordinary significance to the future IoT industry, it has not officially entered the functional testing process. The University of Washington expects to conduct in-depth testing in the near future to ensure that the new transmission protocol (named WISP) can truly perform its function in the real world.
For the IoT industry, the battery has always been dependent on a very big problem, no one wants to climb high, such as to take off a sensor on the top of the bridge of the Golden Gate Bridge, or in a large field of farmland, squinting Find an unpowered sensor. The sensor can supply power by itself without manual maintenance. This is the key to completely liberating the enormous potential of the Internet of Things.
Just don't expect to realize overnight, and the road to the Internet of Things is still very long.
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