Implantable biomedical devices (IBDs) have garnered wide-scale attention in recent years
due to their enormous contribution to the biomedical sector. However, an uninterrupted and …

Near-field magnetic wireless systems have distinct advantages over their conventional
farfield counterparts in water-rich environments, such as underwater, underground, and in …

Bioengineering is a field in expansion. New technologies are appearing to provide a more
efficient treatment of diseases or human deficiencies. Implantable Medical Devices (IMDs) …

Additional surgeries for implantable biomedical devices are inevitable to replace discharged
batteries, but repeated surgeries can be a risk to patients, causing bleeding, inflammation …

Implantable and ingestible biomedical electronic devices can be useful tools for detecting
physiological and pathophysiological signals, and providing treatments that cannot be done …

Ageing population and a multitude of neurological and cardiovascular illnesses that cannot
be mitigated by medication alone have resulted in a significant growth in the number of …

Wireless energy harvesting represents an emerging technology that can be integrated into a
variety of systems for biomedical, physical, and chemical functions. The miniaturization and …

Implantable biomedical devices (IMDs) play essential roles in healthcare. Subject to the
limited battery life, IMDs cannot achieve long-term in situ monitoring, diagnosis, and …

In energy harvesting communications, users transmit messages using energy harvested
from nature during the course of communication. With an optimum transmit policy, the …

Advances in soft materials, miniaturized electronics, sensors, stimulators, radios, and battery-
free power supplies are resulting in a new generation of fully implantable organ interfaces …