Jiancao Hou, senior analyst for mobile network infrastructure and 5G network at ABI Research said: “X Reality (XR) is a combination of augmented reality (AR), virtual reality (VR) and mixed reality (MR), which is a promising solution for technology. 6G to create a mixed virtual and real environment, by enabling real-time or non-real-time human-machine communication.” 6G is expected to be commercialized from 2028 The network’s self-organizing and self-healing capabilities to support self-driving cars, drones, and pervasive networks are also critical to reducing network deployment time and costs, the analyst adds. and provide greater mobile coverage. In the 2030s, 6G could be the key driver for realizing universal connectivity with a wide range of devices/sensors for use in diverse communication environments.” Since 2018, Finland’s University of Oulu has validated theoretical studies and provided early 6G prototypes in the mobile industry. Many other countries, including China, South Korea, the European Union and the United States have also launched projects and programs to shape the 6G framework and key business focus for this new technology. The standardization department and authorities, such as the International Telecommunication Union (ITU) and the Institute of Electrical and Electronics Engineers (IEEE), have also shown particular interest in supporting studies and potential 6G use cases. “Processing complexity and power consumption of infrastructure hardware and devices are key factors that can limit the progress of advanced radio technology. Dynamic spectrum sharing and computing resource allocation as well as highly efficient noise reduction algorithm designs are also key to providing guaranteed network service and user experience. With the advent of technologies such as big data, cloud computing, artificial intelligence (AI), machine learning (ML) and open source, the issue of network security and privacy of Users will become more and more important and will be well addressed by 6G technology,” said Mr. Jiancao Hou. Regarding the commercialization of 6G, the rotating chairman of Chinese telecommunications equipment supplier Huawei, Eric Xu, said that 6G technology is expected to hit the market around 2030. Mr. Eric Xu said that Huawei is currently working to determine the key specifications of 6G technology, adding that the company may release a 6G white paper soon. “We are working with other players in the mobile industry to define what 6G really is. Maybe in the near future we will roll out our 6G white paper. We want to discuss with businesses and consumers what 6G will look like. Driven by our vision and the possible definition of 6G, we are also working on basic science and cutting-edge technologies, aiming to realize the 6G we define together.” Besides, Mr. Xu also noted that the future development of 6G technology will depend on the potential use cases that need the support of this technology. Last month, the German government said it planned to provide up to 700 million euros ($852 million) in funding for research into 6G technologies by 2025. Phan Van Hoa (according to Rcrwireless)

Recently, the team upgraded the technique to power and program the multipoint biostimulator from a single transmitter. Thanks to new research, electrical and computer engineer Kaiyuan Yang and colleagues at the George R. Brown School of Engineering (Rice University) won an award at the Society of Electrical and Electrical Engineers’ Custom Integrated Circuits Conference death (IEEE). The researchers performed experiments showing that an alternating magnetic field can be controlled by a battery-powered generator outside the body. The transmitter can be mounted on a belt or harness, powering and programming two or more implants at least 60 millimeters away. The implant can be programmed with a delay measured in microseconds. That could allow them to coordinate the activation of multiple wireless pacemakers in individual heart chambers, says engineer Yang. “Our study shows that it is possible to program the implants to stimulate in a coordinated pattern. We sync every device, like a symphony. That gives us a lot of scope in stimulant treatments, whether it’s for the heart rhythm or the spinal cord.” The scientists also experimented using small implants. Each tissue is about the size and weight of a vitamin. Experiments performed on hydra vulgaris rodents have demonstrated that, for at least a short distance, such devices can stimulate two separate hydras to contract. Then, activate a fluorescent tag to respond to electrical signals and respond at controlled amplitudes along the rodent’s sciatic nerve. “A study on spinal cord regeneration showed that multipoint stimulation in a certain pattern helps restore the nervous system. Several clinical studies are underway, but all are using desktop devices. There is no implantable tool that can do this,” said engineer Yang. Lab devices, called MagNI (for electromagnetic nerve implantation). MagNI was introduced early last year as a cordless spinal cord stimulator for power and programming. That means the wire does not need to be passed through the patient’s skin. Because, putting the wire through the skin is a method that can cause infection.