Design of Powering Wireless Medical Sensor Based on Spiral-Spider Coils

Mahmood, Mustafa F.; Gharghan, Sadik Kamel; Mohammed, Saleem Latteef; Al-Naji, Ali; Chahl, Javaan

doi:10.3390/designs5040059

Cited by 12 publications

(15 citation statements)

References 49 publications

(68 reference statements)

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“…(i.e. Arduino IDE 1.8.18) [34], [35]. Figure 3, illustrate a prototype hardware for propose system, in Figure 3(a), illustrate an external appearance of the proposed system.…”

Section: Proposed Method/algorithmmentioning

confidence: 99%

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Management patients information based finger print

Fakhri

Jameel

Mahmood

2022

IJEECS

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<span>The fingerprint is <span>certainly one of the distinguishing features of the human body that is easily available and identifies one individual from another. The fingerprint sensor increases this distinctiveness, which is a device that can automatically classify or identify a person. The fingerprint based medical system is a more efficient means of storing clinical data for patients. It makes take advantage of fingerprint recognition technology to quickly and easily for determine the patient's past medical history. The system consists of an Arduino UNO board, a fingerprint sensor, an secure digital (SD) card module, and a micro-SD card. The suggested technology allows the use of a micro-SD card to store patient information as well as send it by internet. When this system was compared to the manual technique, the results indicate that the main advantage is that the proposed device saves a significant amount of time that manual searching and enrolling requires. Patients' information is simply collected and managed with this system, which has enhanced dependability, durability, and efficiency. It provides improved speed and performance, as well as better data security because the data is stored within the device.</span></span>

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“…(i.e. Arduino IDE 1.8.18) [34], [35]. Figure 3, illustrate a prototype hardware for propose system, in Figure 3(a), illustrate an external appearance of the proposed system.…”

Section: Proposed Method/algorithmmentioning

confidence: 99%

“…The board features digital and analog (I/O) connectors that may be linked to masks and other components on the extension board. The board has digital pins and can be configured with the Arduino programming environment [33], [34]. The output device used in this paper pc, laptop, and any smart phone to display a result.…”

mentioning

confidence: 99%

Management patients information based finger print

Fakhri

Jameel

Mahmood

2022

IJEECS

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“…Likewise, the energy source can be several centimeters from the surface of the skin, facilitating, in particular, the installation of ventricular assistance devices, cardiac pacemakers, defibrillators, the restoration of the motor functions of organs affected as a result of an accident or an illness, stimulation of the muscles, and alleviation of the effects of certain types of illness (Visual prostheses used to restore vision loss, diagnosis of the gastrointestinal tract, etc.) [101], [102]. The use of cardiac assist Wireless power transmission devices, for example, to bypass ventricular dysfunctions is beneficial.…”

Section: Wireless Power Transfer In the Medical Fieldmentioning

confidence: 99%

A Comprehensive Analysis of Wireless Charging Systems for Electric Vehicles

et al. 2022

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“…For BMIs, WPT provides a safe, efficient, and comfortable charging approach that overcomes the complication of power capacity and decreases the cost and complications associated with surgical battery replacement. Several BMSs and BMIs are highly dependent on WPT, including left ventricular assist FIGURE 1 Classification of wireless power transfer technology devices (LVADs) [10], capsule endoscopes [11], heart rate sensors [12], deep brain stimulators (DBSs) [13], and many other biomedical applications. A century ago, Nicola Tesla performed experiments to transfer power wirelessly.…”

Section: Introductionmentioning

confidence: 99%

Near‐field wireless power transfer used in biomedical implants: A comprehensive review

Mahmood

Gharghan

Soliman

2022

IET Power Electronics

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Wireless power transfer (WPT) techniques have been utilized in various biomedical applications to overcome the challenges of battery capacity and lifetime, and high-cost surgical interventions, using biomedical implants (BMIs) and biomedical sensors (BMSs), including deep brain stimulators, capsule endoscopes, pacemakers, and cardiac monitoring sensors. In this article, near-field WPT methods in BMIs and BMSs, including magnetic resonator coupling (MRC), inductive coupling (IC), and capacitive coupling (CC), are reviewed, and some biomedical applications of these methods are highlighted. The applications of WPT have been explored in recent years to enhance the major performance metrics of BMIs. The main topologies of MRC-WPT are presented, and the main mathematical models related to each type were extracted from previous studies and detailed here. Additionally, the main performance metrics and results achieved, along with their suggested biomedical applications, are summarized in a comparison table. Some challenges and limitations of using WPT in the biomedical field and suggestions for improving the efficiency of WPT for biomedical applications are also discussed. Furthermore, future trends in WPT-based BMIs are also highlighted.

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Design of Powering Wireless Medical Sensor Based on Spiral-Spider Coils

Cited by 12 publications

References 49 publications

Management patients information based finger print

Management patients information based finger print

A Comprehensive Analysis of Wireless Charging Systems for Electric Vehicles

Near‐field wireless power transfer used in biomedical implants: A comprehensive review

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