Gain Enhancement of a Compact Implantable Dipole for Biomedical Applications

Lesnik, Roi; Verhovski, Nastya; Mizrachi, Idan; Milgrom, Benny; Haridim, M.

doi:10.1109/lawp.2018.2866233

Cited by 25 publications

(13 citation statements)

References 13 publications

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“…Different research studies have investigated the integration of patch and planar inverted-F antennas (PIFA) [138], [139]. Planar dipole [140] and monopole [141] antennas have been also suggested. In [142], a loop antenna has been presented.…”

Section: B Implantable Wireless Body Area Networkmentioning

confidence: 99%

A Review on the State of the Art in Atrial Fibrillation Detection Enabled by Machine Learning

Rizwan

Zoha

Mabrouk

et al. 2021

IEEE Rev. Biomed. Eng.

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Atrial Fibrillation (AF) the most commonly occurring type of cardiac arrhythmia is one of the main causes of morbidity and mortality worldwide. The timely diagnosis of AF is an equally important and challenging task because of its asymptomatic and episodic nature. n this paper, state-ofthe-art ECG data-based machine learning models and signal processing techniques applied for auto diagnosis of AF are reviewed. Moreover, key biomarkers of AF on ECG and the common methods and equipment used for the collection of ECG data are discussed. Besides that, the modern wearable and implantable ECG sensing technologies used for gathering AF data are presented briefly. In the end, key challenges associated with the development of auto diagnosis solutions of AF are also highlighted. It is the first review paper of its kind that comprehensively presents a discussion on all these aspects related to AF auto-diagnosis at one place. It is observed that there is dire need of low energy, low cost but accurate auto diagnosis solutions for the proactive management of AF.

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Section: B Implantable Wireless Body Area Networkmentioning

confidence: 99%

A Review on the State of the Art in Atrial Fibrillation Detection Enabled by Machine Learning

Rizwan

Zoha

Mabrouk

et al. 2021

IEEE Rev. Biomed. Eng.

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“…The researchers suggested the use of the rectenna in the medical device band (401-406 MHz) and in industrial, scientific research and medical (ISM) bands (902.8-928 MHz) to provide wireless data telemetry and transmit power. A novel, low-profile, implantable planar dipole was introduced by Lesnik, Verhovski, Mizrachi, Milgrom, and Haridim [51], in which a folded meander section was included in the proposed dipole. The work made two new contributions: firstly, a specially tailored folded meander section was used; secondly, the replacement of only part of each otherwise straight arm by the meander section was performed.…”

Section: Rectennamentioning

confidence: 99%

Synthesis, Characterization and Development of Energy Harvesting Techniques Incorporated with Antennas: A Review Study

Ibrahim

Singh

Al‐Bawri

et al. 2020

Sensors

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The investigation into new sources of energy with the highest efficiency which are derived from existing energy sources is a significant research area and is attracting a great deal of interest. Radio frequency (RF) energy harvesting is a promising alternative for obtaining energy for wireless devices directly from RF energy sources in the environment. An overview of the energy harvesting concept will be discussed in detail in this paper. Energy harvesting is a very promising method for the development of self-powered electronics. Many applications, such as the Internet of Things (IoT), smart environments, the military or agricultural monitoring depend on the use of sensor networks which require a large variety of small and scattered devices. The low-power operation of such distributed devices requires wireless energy to be obtained from their surroundings in order to achieve safe, self-sufficient and maintenance-free systems. The energy harvesting circuit is known to be an interface between piezoelectric and electro-strictive loads. A modern view of circuitry for energy harvesting is based on power conditioning principles that also involve AC-to-DC conversion and voltage regulation. Throughout the field of energy conversion, energy harvesting circuits often impose electric boundaries for devices, which are important for maximizing the energy that is harvested. The power conversion efficiency (PCE) is described as the ratio between the rectifier’s output DC power and the antenna-based RF-input power (before its passage through the corresponding network).

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“…• [48] and (c) Semi-circular PIFA with tuning slits [51]. All prototypes are laid on a high relative permittivity substrate.…”

Section: Structure Of the Thesismentioning

confidence: 99%

Compact Implantable Antennas for Cerebrospinal Fluid Monitoring

Manoufali

Bialkowski

Mohammed

et al. 2019

IEEE Trans. Antennas Propagat.

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Gain Enhancement of a Compact Implantable Dipole for Biomedical Applications

Cited by 25 publications

References 13 publications

A Review on the State of the Art in Atrial Fibrillation Detection Enabled by Machine Learning

A Review on the State of the Art in Atrial Fibrillation Detection Enabled by Machine Learning

Synthesis, Characterization and Development of Energy Harvesting Techniques Incorporated with Antennas: A Review Study

Compact Implantable Antennas for Cerebrospinal Fluid Monitoring

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