Miniaturised wireless power transfer systems for neurostimulation: A review
In neurostimulation, wireless power transfer is an efficient technology to overcome several
limitations affecting medical devices currently used in clinical practice. Several methods …
limitations affecting medical devices currently used in clinical practice. Several methods …
Enhancing ultrasound power transfer: Efficiency, acoustics, and future directions
Implantable medical devices (IMDs), like pacemakers regulating heart rhythm or deep brain
stimulators treating neurological disorders, revolutionize healthcare. However, limited …
stimulators treating neurological disorders, revolutionize healthcare. However, limited …
Fully implantable wireless batteryless vascular electronics with printed soft sensors for multiplex sensing of hemodynamics
The continuous monitoring of hemodynamics attainable with wireless implantable devices
would improve the treatment of vascular diseases. However, demanding requirements of …
would improve the treatment of vascular diseases. However, demanding requirements of …
A review of power management integrated circuits for ultrasound-based energy harvesting in implantable medical devices
This paper aims to review the recent architectures of power management units for
ultrasound-based energy harvesting, while focusing on battery-less implantable medical …
ultrasound-based energy harvesting, while focusing on battery-less implantable medical …
Design and optimization of ultrasonic links with phased arrays for wireless power transmission to biomedical implants
Ultrasound (US) is an attractive modality for wireless power transfer (WPT) to biomedical
implants with millimeter (mm) dimensions. To compensate for misalignments in WPT to a …
implants with millimeter (mm) dimensions. To compensate for misalignments in WPT to a …
An ultrasound-induced wireless power supply based on AlN piezoelectric micromachined ultrasonic transducers
Wireless power transfer is one of the enabling technologies for powering implantable
biomedical devices. Biocompatibility and CMOS compatibility of wireless power transfer …
biomedical devices. Biocompatibility and CMOS compatibility of wireless power transfer …
[HTML][HTML] Intra-body communications for nervous system applications: Current technologies and future directions
Abstract The Internet of Medical Things (IoMT) paradigm will enable next generation
healthcare by enhancing human abilities, supporting continuous body monitoring and …
healthcare by enhancing human abilities, supporting continuous body monitoring and …
Challenges in scaling down of free-floating implantable neural interfaces to millimeter scale
Implantable neural interface devices are an emerging technology for continuous brain
monitoring and brain-computer interface (BCI). Recording of electrical signals from neurons …
monitoring and brain-computer interface (BCI). Recording of electrical signals from neurons …
A dual-band wireless power transmission system for evaluating mm-sized implants
Distributed neural interfaces made of many mm-sized implantable medical devices (IMDs)
are poised to play a key role in future brain-computer interfaces because of less damage to …
are poised to play a key role in future brain-computer interfaces because of less damage to …
Emerging trends of biomedical circuits and systems
Biomedical circuits and systems are heading toward a multidisciplinary race in two main
directions. On the one hand, advanced smart medical devices must be built to improve …
directions. On the one hand, advanced smart medical devices must be built to improve …