The mobile clinic’s new equipment consists of a digital portable X-ray camera, AI software, a teleradiology network that allows remote reading of X-rays, 4G and 5G routers, roaming SIM cards, and a smart antenna system.
These tools have so far enabled real-time remote diagnosis and referral from mobile medical units. These examples show the real prospects brought about by the introduction of his 5G and 6G technologies into the medical field.
How will these technologies develop in the future?
The numerous medical advances brought about by 5G pave the way for those created by 6G (sixth generation wireless technology), opening the door to even greater changes in the role technology plays in improving healthcare. Let loose.
As the burden on health services continues to increase, the potential to use AI and 6G together to digitize operations and drug prescribing could free up valuable time, especially during prolonged staff shortages. , could bring much-needed relief to health care workers.
What are some ways 6G can enhance healthcare?
6G is expected to operate over a wider frequency band and have lower network communication delays than 5G. The current data sharing capabilities of 5G are best suited only for short distances, so the advent of 6G will improve this distance, allowing remote surgery from greater distances and allowing surgeons to work more efficiently. There is a possibility that In this way, 6G can improve patient outcomes, enhance telemedicine capabilities, and usher in a new era of digital health technology.
The key growth areas enabled by 6G technology focus on improved communication and collaboration. The integration of 6G and AI will enable healthcare professionals, including researchers, to exchange ideas and information faster and more effectively, regardless of location.
This includes accessing and sharing patient data, research results, and other important information. As mentioned above, 6G’s ability combined with AI to analyze large amounts of data will free up valuable time for healthcare professionals to identify patterns and predict possible health problems and outcomes. It will be. Additionally, data can be shared in real-time, allowing staff to make critical decisions quickly and securely.
What medical advances will 6G enable that 5G could not?
6G technology has the potential to improve the way healthcare providers work, as it allows for greater coverage than that offered by 5G.
For example, taking telemedicine appointments a step further, 6G brings the possibility of holographic communication between medical professionals and patients. It could also allow surgeons to perform procedures directly or remotely based on a holographic representation of a patient’s anatomy.
Second, 6G’s high-speed data transfer and low-latency capabilities facilitate the development of personalized treatment plans tailored to a patient’s unique genetic makeup through rapid analysis of large datasets.
The advanced sensing and imaging technology of 6G networks could help in the early detection of cancerous growths through real-time enhanced high-resolution 3D imaging. This may increase the chances of successful treatment for the patient.
The technology also allows surgeons to perform delicate surgeries with extreme precision using real-time, high-resolution visualization, improving outcomes and minimizing the risks associated with traditional surgery.
Are there other use cases that could potentially be supported with 6G technology?
6G’s increased computing power and data transfer capabilities will help improve medical research, including drug discovery and potential treatments. 6G is expected to enable the development of energy-efficient technologies and energy harvesting, which will eliminate continuous dependence on power lines and the need to charge and replace device batteries.
It also enables real-time monitoring of physiological information, providing a continuous data stream for monitoring and early intervention, potentially revolutionizing digital health technology.
Finally, looking at prosthetic technology, 6G has the potential to provide a more robust and reliable connection between prosthetic devices and the user’s nervous system. This gives users greater control and intuitive behavior, making it easier to perform daily activities. The possibility of comprehensive sensory feedback helps users better respond to changes in their environment and improves their overall safety and quality of life.
**************
Be sure to check out the latest industry news and insights. healthcare digital Also, join us in our Global Conference Series – Tech & AI LIVE 2024
**************
Healthcare digital is biz click brand
**************