Advances in materials, mechanics, and manufacturing now allow construction of high-quality
electronics and optoelectronics in forms that can readily integrate with the soft, curvilinear …

This paper presents a solution for energy microgeneration through energy harvesting by
taking advantage of temperature differences that are converted into electrical energy using …

In this review, biomedical-related wireless miniature devices such as implantable medical
devices, neural prostheses, embedded neural systems, and body area network systems are …

This paper presents a complete non-invasive Wireless acquisition system based on dry
electrodes for electroencephalograms (WiDE-EEG) with emphasis in the electronic system …

This paper presents a battery-powered wireless ion sensing platform featuring complete
sensing-to-transmission functionality. A 1 mm× 1.2 mm chip fabricated in 65 nm includes a …

This article's objective is to discuss the anatomical and technical challenges associated with
designing subcutaneously implanted antennas for continuous wireless medical telemetry …

Compressive sensing is a recent highly applicative approach. It enables efficient data
sampling at a much lower rate than the requirements indicated by the Nyquist theorem …

Background: It is necessary to deploy mobile and wireless systems in healthcare, because
they have many benefits for healthcare systems. The objectives of this article were …

A 2.4 GHz reference-less single chip wireless receiver for 1 Mbps QPSK demodulation is
presented. The receiver accomplishes LO carrier recovery and data demodulation directly …

A unique neural electrode design is proposed with 3 mm long shafts made from an
aluminum-based substrate. The electrode is composed by 100 individualized shafts in a 10× …