This communication proposes miniaturized implantable antenna systems for biomedical
applications, specifically for scalp implantation. The proposed designs exhibit dual-band …

In this paper, a miniaturized novel-shape dual-band implantable antenna operating in the
industrial, scientific, and medical bands (902-928 MHz and 2.4-2.4835 GHz) is developed …

A near-field wireless power transfer (WPT) system for implantable medical devices, such as
pacemakers, is proposed. Operating at 403 MHz within the medical implants communication …

Technological advancements in medical care have necessitated the development of efficient
and miniaturized implantable medical devices. This paper presents an ultra-wide-band …

The brain-machine interface (BMI) is a new area of research and it is still in the development
stage. The key component for the brain-machine interface is internal and external antennas …

In the recent past, we have experienced astonishing progress in map** human body
functionalities and interconnections, encouraging a holistic view of physiological processes …

An approach to improve wireless power transfer (WPT) to implantable medical devices using
loop antennas is presented. The antenna exhibits strong magnetic field and dense flux line …

This paper proposed the meander line based wideband implantable antenna for brain
implant applications operated at the industrial, scientific and medical (ISM) band (2.4–2.48 …

A dual-mode antenna with cooperative matching (co-matching) was designed for
implantable neurostimulators functioning within the Medical Implant Communications …

A wireless power transfer system based on inductive coupling for powering implantable
medical devices of diverse application is proposed. The system is composed of two …