Continuous health monitoring using wireless body area networks of implantable and
wearable medical devices is envisioned as a transformative approach to healthcare. Rapid …

The emerging in vivo communication and networking system is a prospective component in
advancing health care delivery and empowering the development of new applications and …

In vivo wireless nanosensor networks (iWNSNs) consist of nanosized communicating
devices, which can operate inside the human body in real time. iWNSNs are at the basis of …

In vivo wireless nanosensor networks (iWNSNs) consist of communicating miniature devices
with unprecedented sensing and actuation capabilities, which are able to operate inside the …

5G wireless is the next step in the evolution of mobile communications with the aim being to
provide connectivity for any kind of device and any kind of application. Wireless Body Area …

State-of-the-art laparoscopes for minimally invasive abdominal surgery are encumbered by
cabling for power, video, and light sources. Although these laparoscopes provide good …

Purpose To design a robust and patient friendly radiofrequency coil array (8‐channel
transmit and 16‐channel receive) for cross‐sectional body imaging at 7 T, and to improve …

The emerging in vivo communication and networking system is a prospective component in
advancing healthcare delivery and empowering the development of new applications and …

Continuous health monitoring using wireless body area networks (WBANs) of wearable,
epidermal and implantable medical devices is envisioned as a transformative approach to …

Nanomedical Device and Systems Design: Challenges, Possibilities, Visions serves as a
preliminary guide toward the inspiration of specific investigative pathways that may lead to …