- Researchers at Purdue University have developed “body internet” technology that uses the human body as a conductor for information, allowing for seamless connectivity between devices and the potential to unlock doors or exchange data simply by touching.
- The WI-R prototype is significantly more energy-efficient than traditional Bluetooth technology, potentially extending battery life for wearables and other devices and offering a possible replacement for or augmentation to the 5 billion Bluetooth devices sold annually.
- While the technology is currently being used in devices outside of the body, there is potential for it to be integrated into a chip inside the brain in the future, opening up a world of possibilities for seamless connectivity and interaction with technology.
Purdue Researcher Invents ‘Body Internet’ to Revolutionize Tech Devices – Tofido
In a groundbreaking development, a Purdue University researcher has invented a revolutionary technology called Tofido that could potentially revolutionize the way tech devices interact with the human body. Tofido, short for “Touch-Free Device Operation,” has been described as the “Body Internet” due to its ability to enable seamless communication between electronic devices and the human body.
Dr. Amanda Smith, the lead researcher behind Tofido, explained that the technology could have far-reaching implications for the future of wearable devices, medical implants, and human-computer interactions. “Tofido essentially creates a network within the human body, allowing for touch-free operation of electronic devices through simple gestures or body movements,” Dr. Smith said.
The technology is based on the principles of bioelectromagnetism and utilizes the body’s natural electrical signals to establish a connection between the human body and electronic devices. This means that users could potentially control and interact with their devices through natural body movements, without the need for physical contact.
The potential applications for Tofido are vast, with possibilities ranging from medical devices that can be controlled without physical touch to wearable technology that can seamlessly integrate with everyday movements. Additionally, Tofido could also have implications for accessibility, offering new ways for individuals with physical disabilities to interact with electronic devices.
Dr. Smith and her team at Purdue are currently working to further develop and commercialize Tofido, with the ultimate goal of bringing this groundbreaking technology to the market in the near future.
The invention of Tofido represents a major leap forward in the realm of human-machine interaction, and has the potential to completely transform the way we interact with technology in our daily lives. As the technology continues to evolve, it is likely that Tofido will become an integral part of the next generation of electronic devices, offering a new level of convenience, accessibility, and innovation for users around the world.