Human body communication (HBC) and wireless body area networks (WBANs) represent emerging paradigms in the field of personalised medicine and wearable technology. These systems utilise the human body ...

NIST wants to develop a virtual human body and virtual electrodes to study how low frequency human body communications can aid in the future of Internet of Things platforms. The National Institute of ...

Radio waves are poorly suited for water-based environments such as the ocean, or even the body. A relatively large amount of energy is required for RF signal propagation in water because it is ...

Multidisciplinary research on the interactions between the brain and other body systems not only advances our knowledge of how the human body works but also offers critical insights into our ...

Introduced by electrical engineers from the University of California, San Diego, a new wireless communication method works by sending magnetic signals through the human body, and offers a lower-power, ...

Designed for in-body communications systems, the ZL70100 transceiver chip fully complies with MICS (Medical Implant Communication Service) standard and operates from 402 to 405 MHz and from 433 to 434 ...

Inside your body, an intricate communication network constantly monitors breathing, heart rate, digestion, and immune function — a hidden “sixth sense” called interoception. Now, Nobel laureate Ardem ...