Open Access. Powered by Scholars. Published by Universities.®
- Discipline
Articles 1 - 2 of 2
Full-Text Articles in Engineering
Applications Of Digital Signal Processing With Cardiac Pacemakers, Merry Thi Tran
Applications Of Digital Signal Processing With Cardiac Pacemakers, Merry Thi Tran
Dissertations and Theses
Because the voltage amplitude of a heart beat is small compared to the amplitude of exponential noise, pacemakers have difficulty registering the responding heart beat immediately after a pacing pulse. This thesis investigates use of digital filters, an inverse filter and a lowpass filter, to eliminate the effects of exponential noise following a pace pulse. The goal was to create a filter which makes recognition of a haversine wave less dependent on natural subsidence of exponential noise.
Research included the design of heart system, pacemaker, pulse generation, and sensor system simulations. The simulation model includes the following components:
- Signal source, …
Characterization Of Quantization Noise In Oversampled Analog To Digital Converters, Eric W. Multanen
Characterization Of Quantization Noise In Oversampled Analog To Digital Converters, Eric W. Multanen
Dissertations and Theses
The analog to digital converter (ADC) samples a continuous analog signal and produces a stream of digital words which approximate the analog signal. The conversion process introduces noise into the digital signal. In the case of an ideal ADC, where all noise sources are ignored, the noise due to the quantization process remains. The resolution of the ADC is defined by how many bits are in the digital output word. The amount of quantization noise is clearly related to the resolution of the ADC. Reducing the quantization noise results in higher effective resolution.