Even though consumers won’t see it for years, researchers around the world are already laying the foundation for the next generation of wireless communications, 6G. An international team led by researchers at The University of Texas at Austin has developed components that will allow future ラーメンベット 出金 銀行 to achieve increased speeds necessary for such a technological jump.
In a ラーメンベット 出金 銀行 paper published inNature Electronics, the researchers demonstrated new radio frequency ラーメンベット 出金 銀行 that are responsible for keeping devices connected by jumping between networks and frequencies while receiving data. In contrast with the ラーメンベット 出金 銀行 present in most electronics today, these new devices are made of two-dimensional materials that take significantly less energy to operate, which means more speed and better battery life for the device.
“Anything that is battery-operated and needs to access the cloud or the 5G and eventually 6G network, these ラーメンベット 出金 銀行 can provide those low-energy, high-speed functions,” said Deji Akinwande, professor in the ラーメンベット 禁止ゲーム of Engineering’s Department of Electrical and Computer Engineering and the principal leader of the project.
Because of the increased demand for speed and power, 6G devices will probably have hundreds of ラーメンベット 出金 銀行 in them, many more than the electronics currently on the market. To reach increased speeds, 6G devices will have to access higher frequency spectrum bands than today’s electronics, and these ラーメンベット 出金 銀行 are key to achieving that.
Making these ラーメンベット 出金 銀行, and other components, more efficient is another important part of cracking the code for 6G. That efficiency goes beyond battery life. Because the potential uses for 6G are so vast, including driverless cars and smart cities, every device will need to virtually eliminate latency.
Akinwande previouslydeveloped ラーメンベット 出金 銀行 for 5G devices. One of the main differences this time is the materials used. These new ラーメンベット 出金 銀行 use molybdenum disulfide, also known as MOS2, stuck between two electrodes.
These types of devices, called memristors, are typically used for memory. But the adaptation to use these as ラーメンベット 出金 銀行 opens potential for devices, both current and future, to hit new standards of speed and battery life.
Akinwande is part of agroup of researchers at UT Austin preparing for 6G. Last year, 6G@UT launched, with industry leaders including Samsung, AT&T, NVIDIA, Qualcomm and more partnering with researchers to advance 6G development.
The next generation of wireless will be infused with technologies that have come of age during the past decade: ubiquitous sensing, augmented reality, machine learning and the ability to use higher frequency spectrum at mmWave and THz bands. These technologies will be at the heart of the ラーメンベット 出金 銀行 happening at the 6G@UT center.
Each wireless generation lasts about a decade, and the 5G rollout began in 2020. Akinwande said 6G deployment isn’t likely to happen until around 2030. But the time is now to put all the necessary building blocks in place.
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The next step in this project is to integrate the ラーメンベット 出金 銀行 with silicon chips and circuits. The researchers are looking at improving how well the ラーメンベット 出金 銀行 can jump between frequencies, which would give devices better connections on the go. They are pursuing collaborations with industry partners on developing the ラーメンベット 出金 銀行 for commercial adoption.
Team members include Myungsoo Kim and Sung Jin Yang of the Department of Electrical and Computer Engineering; Emiliano Pallecchi, Guillaume Ducournau, Simon Skrzypczak, Henri Happy and Pascal Szriftgiser of the University of Lille in France; Nicolas Wainstein, Keren Stern and Eilam Yalon of the Technion, Israel Institute of Technology. The project was funded by grants from the U.S. Office of Naval ラーメンベット 出金 銀行 and the Air Force ラーメンベット 出金 銀行 Laboratory.