Multimodal Wireless Implantable Medical Device (MW-IMD) Platform

Islam, Sayemul, 0000-0001-6062-1974

January 2022

Implantable medical devices (IMDs) have advanced significantly in the last few decades due to innovations in microelectronics and power sources. Today, IMDs can perform various vital functions such as stimulating muscular organs (e.g., heart, bladder, neurons) to maintain the body mechanics and regulating physiological fluid (e.g., blood, hormone, urine, etc.). All of these effectively improve the quality of life and prolong life expectancy. However, many existing IMDs often blindly deliver therapeutic means without knowing the state of the disease. Since IMDs are usually surgically introduced to the human body, post-operation adjustments are difficult, resulting in chronic stimulation. As such, the long-term operation of IMDs shall be precisely regulated based on the current state of the body, i.e., closing the loop, especially with unprecedented communication and powering techniques. The goal of this research is to develop an implantable medical device (IMD) platform that can close the loop not only between sensing and stimulation within the IMD itself but also between other IMDs and the outside world. Thus, we first demonstrate a standalone closed-looped IMD that regulates oxygen generation based on physiological levels. Second, the IMD platform can also bridge other passive implantable sensors to the outside world. To this end, this report discusses a passive sensor in the form of a Smart Stent that senses and transmits arterial blood pressure information to the IMD platform via magnetic resonance (MR) coupling. Therefore, such MR coupling intrabody communication in the body is rigorously investigated. Lastly, we report an effective and efficient powering technique for the IMD platform. Ultrasonic waves in the human body can travel long distances with relatively low attenuation, reaching deep tissue. In this thesis, we enhance the ultrasonic powering method for IMDs with a novel receiver design for omnidirectional powering. Overall, the proposed multifunctional, multimodal, wireless IMD platform can operate reliably for the long term due to novel MR coupling communication and omnidirectional ultrasonic powering. / Electrical and Computer Engineering

Electrical engineering

Biomedical engineering

Health care management

Biomedical

Devices

IMDs

Implantable

Oxygen

Piezoelectric

Výroba přírub s využitím postupu PPAP a normy ISO 9001 / Production of flanges using the procedure PPAP , and ISO 9001

Prokeš, Tomáš

January 2016

In the first part of this thesis is described implementation of quality management system in a small company according to ISO 9001. Next part is about production process by method PPAP. In this section is solved primarily ISO 9001 standard, statistical control of production and certification company according to requirements of ISO 9001. Second part is focused on mass production of flange by using the company facilities Kovobrábění Sobotka. In the end of thesis are reflected weaknesses of production. In the conclusion is described technical and economic evaluation of implementation QMS and machining sample parts.

Open instruments : framework para desenvolvimento e performance de instrumentos musicais digitais em MaxMSP

Ângelo, Tiago Alexandre da Silva

January 2012

Tese de mestrado. Mestrado em Multimédia. Faculdade de Engenharia. Universidade do Porto. 2012

Instrumentos musicais digitais em MaxMSP

An Information Management and Decision Support tool for Predictive Alerting of Energy for Aircraft

Engelmann, James E.

17 September 2020

No description available.

Electrical Engineering

Computer Science

Aerospace Engineering

Aircraft State Awareness

IMDS

AIME

Aircraft Energy State Predicition

Machine Learning

Deep Learning

Long Short Term Memory units