scholarly journals Efficient real-time blind calibration for frequency response mismatches in two-channel TI-ADCs

2018 ◽  
Vol 15 (12) ◽  
pp. 20180358-20180358 ◽  
Author(s):  
Guiqing Liu ◽  
Yinan Wang ◽  
Xiangyu Liu ◽  
Husheng Liu ◽  
Nan Li
Keyword(s):  
Frequency Response ◽  
Real Time ◽  
Blind Calibration

scholarly journals Frequency Response Characteristic (FRC) Curve and Fast Frequency Response Assessment in High Renewable Power Systems

2020 ◽  
Author(s):  
Shutang You
Keyword(s):  
Power Systems ◽  
Frequency Response ◽  
Real Time ◽  
Response Assessment ◽  
Response Characteristic ◽  
Assessment Method ◽  
Frequency Response Characteristic ◽  
Dynamic Simulations ◽  
Renewable Power ◽  
Response Performance

This letter introduces a frequency response characteristic (FRC) curve and its application in high renewable power systems. In addition, the letter presents a method for fast frequency response assessment and frequency nadir prediction without performing dynamic simulations using detailed models. The proposed FRC curve and fast frequency response assessment method are useful for operators to understand frequency response performance of high renewable systems in real time.

Optimization of Rapid State Estimation in Structures Subjected to High-Rate Boundary Change

2020 ◽  
Author(s):  
James Scheppegrell ◽  
Adriane G. Moura ◽  
Jacob Dodson ◽  
Austin Downey
Keyword(s):  
Frequency Response ◽  
State Estimation ◽  
Real Time ◽  
Performance Metrics ◽  
Numerical Models ◽  
Vertical Axis ◽  
High Rate ◽  
Position Measurement ◽  
Data Set ◽  
Variable Boundary

Abstract Many structures are subjected to varying forces, moving boundaries, and other dynamic conditions. Whether part of a vehicle, building, or active energy mitigation device, data on such changes can represent useful knowledge, but also presents challenges in its collection and analysis. In systems where changes occur rapidly, assessment of the system’s state within a useful time span is required to enable an appropriate response before the system’s state changes further. Rapid state estimation is especially important but poses unique difficulties. In determining the state of a structural system subjected to high-rate dynamic changes, measuring the frequency response is one method that can be used to draw inferences, provided the system is adequately understood and defined. The work presented here is the result of an investigation into methods to determine the frequency response, and thus state, of a structure subjected to high-rate boundary changes in real-time. In order to facilitate development, the Air Force Research Laboratory created the DROPBEAR, a testbed with an oscillating beam subjected to a continuously variable boundary condition. One end of the beam is held by a stationary fixed support, while a pinned support is able to move along the beam’s length. The free end of the beam structure is instrumented with acceleration, velocity, and position sensors measuring the beam’s vertical axis. Direct position measurement of the pin location is also taken to provide a reference for comparison with numerical models. This work presents a numerical investigation into methods for extracting the frequency response of a structure in real-time. An FFT based method with a rolling window is used to track the frequency of a data set generated to represent the range of the DROPBEAR, and is run with multiple window lengths. The frequency precision and latency of the FFT method is analyzed in each configuration. A specialized frequency extraction technique, Delayed Comparison Error Minimization, is implemented with parameters optimized for the frequency range of interest. The performance metrics of latency and precision are analyzed and compared to the baseline rolling FFT method results, and applicability is discussed.

Beating the Multiplex Disadvantage in Shot-Noise-Limited Interferometry with Self-Adaptive Filtering

1989 ◽  
Vol 43 (2) ◽  
pp. 235-238 ◽  
Author(s):  
Ron Williams
Keyword(s):  
Data Acquisition ◽  
Frequency Response ◽  
Real Time ◽  
Adaptive Filtering ◽  
Shot Noise ◽  
Signal Intensity ◽  
Data Acquisition System ◽  
Acquisition System ◽  
Constant Amount ◽  
Acquisition Scheme

A new data acquisition scheme is presented which produces interferograms with constant standard deviations from shot-noise-limited signals. This is accomplished by tuning the frequency response of the data acquisition system in real time in response to the noise in the interferogram. A constant amount of shot noise is recorded with each datum, regardless of signal intensity, so that the multiplex disadvantage is nullified for these data.

scholarly journals Pressure Signal Enhancement of Slowly Increasing Leaks Using Digital Compensator Based on Acoustic Sensor

Sensors ◽  
2019 ◽  
Vol 19 (19) ◽  
pp. 4317
Author(s):  
Fang Wang ◽  
Weiguo Lin ◽  
Zheng Liu ◽  
Xianbo Qiu
Keyword(s):  
Frequency Response ◽  
Real Time ◽  
Response Analysis ◽  
Acoustic Sensor ◽  
Frequency Response Analysis ◽  
Pipeline Transportation ◽  
Safety Protection ◽  
Enhancement Method ◽  
Adaptive Adjustment ◽  
Detection Technologies

Pipeline leak detection technologies are critical for the safety protection of pipeline transportation. However, they are insensitive to slowly increasing leaks. Therefore, this study proposes an enhancement method for slowly increasing leak signals. By analyzing the characteristics of pressure signals of slowly increasing leaks, a digital compensator is developed to overcome the disadvantages of pressure signals and enhance the pressure signals. According to the frequency response analysis of the digital compensator, the enhancement principle is the parameter adjustment of the digital compensator. Therefore, this paper further proposes an adaptive adjustment method of the parameter to enhance different degrees of leak signals online in real-time, and the proposed method is evaluated using two field pipelines. The experimental results demonstrate that this method is suitable not only for enhancing slowly increasing leaks but also for enhancing abrupt leaks.

scholarly journals DIGITAL HEARING AID SIGNAL PROCESSING SYSTEM USING ANDROID PHONE

2019 ◽  
pp. 177-181
Author(s):  
YEH-HUANN GOH ◽  
YOON-KET LEE ◽  
MUM-WAI YIP ◽  
KOK-SENG EU ◽  
YANN LING GOH ◽  
...  
Keyword(s):  
Signal Processing ◽  
Hearing Loss ◽  
Frequency Response ◽  
Real Time ◽  
Hearing Aid ◽  
Processing Algorithm ◽  
Signal Processing Algorithm ◽  
Digital Hearing Aid ◽  
Simulation Results ◽  
Digital Algorithm

Objective: The objective of this research is to propose an Android-based digital hearing aid signal processing algorithm with following key features:(1) Regenerated audio match the patient-specific pattern of hearing loss, (2) noise reduction, and (3) provide flexibility to the users.Methods: The proposed signal processing algorithm is designed based on the specific hearing loss of the hearing disorder patient using inverse Fouriertransform; besides, noise reduction feature is included in the digital algorithm design as well. Proposed digital algorithm has been implemented intoan Android-based smartphone and its performance has been tested under real-time condition.Results: Simulation results show that the frequency response of the proposed digital hearing aid signal processing algorithm is in agreement withthe initial theoretical design that was carried out based on the hearing impaired patient’s audiogram. The proposed algorithm has been implementedin the Android-based smartphone and tested in real time. Results show that most of the patients are satisfied with the regenerated audio quality.According to patient’s comments, the regenerated audio is clear and the users are allowed to control the volume level. Besides, no obvious hearinglatency can be detected.Conclusion: Audio signals generated by the proposed digital signal processing algorithm show similar audio signal frequency response in boththeoretical design and MATLAB simulation results. The only difference between the design and simulation results is the amplification levels. Theproposed algorithm provides flexibility to the users by allowing them to choose the desired amplification level. In real-time testing, the proposedAndroid-based digital hearing aid is able to reduce noise level from the surrounding and the output processed speech match the patient-specifichearing loss.

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