Presentation is loading. Please wait.

Presentation is loading. Please wait.

§ 4.1 Instrumentation and Measurement Systems § 4.2 Dynamic Measurement and Calibration § 4.3 Data Preparation and Analysis § 4.4 Practical Considerations.

Published byScot Nelson Mason Modified over 8 years ago

Similar presentations

Presentation on theme: "§ 4.1 Instrumentation and Measurement Systems § 4.2 Dynamic Measurement and Calibration § 4.3 Data Preparation and Analysis § 4.4 Practical Considerations."— Presentation transcript:

1 § 4.1 Instrumentation and Measurement Systems § 4.2 Dynamic Measurement and Calibration § 4.3 Data Preparation and Analysis § 4.4 Practical Considerations Chapter 4 Data Acquisition and Preprocessing R. J. Chang Department of Mechanical Engineering NCKU

2 1. Introduction (1) Signal and Noise § 4.1 Instrumentation and Measurement Systems(1) * : convolution

3 (3) Measurement quality ─ S/N ratio § 4.1 Instrumentation and Measurement Systems(2) (2) Ideal measurement system

4 2. System structure (1) Fundamental structure § 4.1 Instrumentation and Measurement Systems(3)

5 (2) Three stages structure § 4.1 Instrumentation and Measurement Systems(4)

6 (3) Sensor/Transducer (a) Passive (b) Active Open loop type: Servo type: § 4.1 Instrumentation and Measurement Systems(5)

7 Ex : Accelerometer for vibration data Stress and strain gauges for deflection data Microphone for acoustical data Seismometers for seismic data STM probe for atom distribution § 4.1 Instrumentation and Measurement Systems(6)

8 3. Signal and Standard units (1) Signal space O ─ Optics E ─ Electricity M ─ Mechanics C ─ Chemistry § 4.1 Instrumentation and Measurement Systems(7)

9 (2) International system of unit (SI) (a) Base units Length ─ meter(m) Mass ─ Kilogram(kg) Time ─ second(s) Current ─ ampere(A) Temperature ─ kelvin(K) Amount of sunstance ─ mole(mol) Luminous intensity ─ candela(cd) (b) Supplement units Plane angle ─ radian(rad) Solid angle ─ steradian(sr) § 4.1 Instrumentation and Measurement Systems(8)

10 1. Instrument characteristics § 4.2 Dynamic Measurement and Calibration(1)

11 2. Uncertainties and Error (1) Causes Variations of system parameters External disturbance Uncertain operational state (2) Classification Absolute and relative System and random Static and dynamic Human and instrument § 4.2 Dynamic Measurement and Calibration(2)

12 (3) System and Random error Definition : Error sources : System ─ calibration, operation, loading Random─ noise, bits operation § 4.2 Dynamic Measurement and Calibration(3) Systematic error = ||True value – Estimated value|| Random error = Distribution deviation of estimated value

13 (4) Accuracy and Precision Physical meaning: Data interpretation : Accuracy error ─ systematic error Precision error─ random error Note: Errors of sample mean and variance need to be further analyzed statistically. § 4.2 Dynamic Measurement and Calibration(4) High Precision High Accuracy High Accuracy and Precision

14 3. Static and Dynamic characteristics § 4.2 Dynamic Measurement and Calibration(5) (1) Static

15 Frequency range § 4.2 Dynamic Measurement and Calibration(6) (2) Dynamic Time domain delay

16 4. Calibration and Measurement (1) Characteristics calibration § 4.2 Dynamic Measurement and Calibration(7) S y :Sample standard deviation

17 (2) Measurement applications § 4.2 Dynamic Measurement and Calibration(8)

18 1. Digitization (1) Signal transmission § 4.3 Data Preparation and Analysis(1)

19 (2)Signal classification Discrete, D t Continuous, C t Discrete, D a D a -D t D a -C t Continuous, C a C a -D t C a -C t Time Amplitude (1) Analog (C a -C t )(2) Sample (D a -C t ) (3) Discrete (C a -D t )(4) Digital (D a -D t ) § 4.3 Data Preparation and Analysis(2)

20 2. Interface card and Operation EX : A Capacitance S/H device (1) Sample and Hold Ideal sampler with zero-order hold(ZOH), h<< ∆t § 4.3 Data Preparation and Analysis(3)

21 Mathematical analysis § 4.3 Data Preparation and Analysis(4)

22 (2) A/D and D/A converter EX : 4 bits D/A converter § 4.3 Data Preparation and Analysis(5)

23 If V i =10V for rating value 11111110 For 5V analog input EX : Successive approximation 4 bits A/D converter § 4.3 Data Preparation and Analysis(6)

24 § 4.3 Data Preparation and Analysis(7) (3)Computer sampling

25 A/D conversion procedure § 4.3 Data Preparation and Analysis(8)

26 § 4.3 Data Preparation and Analysis(9) 2. Filtering (1) Types of filter

27 § 4.3 Data Preparation and Analysis(10) (a)Analog filter Pass band – High pass, Low pass, Band pass, Band stop, … Power supply – Active filter, Passive filter (b) Digital filter Pass band Algorithm – Batch type, Recursive type Realization – Software filter, Hardware filter Adaptive / Non-adaptive

28 (b) Practical filter EX : Butterworth low–pass filter (2) Analog filter (a) Ideal filter § 4.3 Data Preparation and Analysis(11) Low PassBand PassHigh Pass

29 (3) Digital filter (a) Nonrecursive filter § 4.3 Data Preparation and Analysis(12) Req’d : Stable operation BIBO stability iff IIR filter Infinite impulse response FIR filter Finite impulse response

30 (b) Recursive filter § 4.3 Data Preparation and Analysis(13) Fourier transform

31 EX : 2 nd – order recursive filter (a) Low pass (b) Band pass (c)High pass § 4.3 Data Preparation and Analysis(14)

32 § 4.3 Data Preparation and Analysis(15) (4) Filter design Filter specs → Analog filter → Digital filter → Realization Filter specs → Digital filter → Realization (5) Filter realization a. Software digital filter b. Hardware digital filter EX : DSP realization- Use key operations Convolution Correlation Filtering Discrete transformation c. Error – Finite bits operation, Round off error Discretization

33 § 4.3 Data Preparation and Analysis(16) Continuous and Discrete transformations.. Continuous systemsDiscrete systems

34 3. Trend removing x(t) = r(t) + z(t) r(t) : deterministic trend Effects of trend : (a) Distortion in correlation and spectral estimations (b) Nullify the estimation of low frequency spectral content (c) Finite bits computation problem (d) Possible extraction of deterministic time function for obtaining stationary data § 4.3 Data Preparation and Analysis(17)

35 Linear least square estimation § 4.3 Data Preparation and Analysis(18) (1) Linear trend t t t

36 § 4.3 Data Preparation and Analysis(19) (2) Polynomial trend Use nonlinear curve fitting for trend removing. t t t

37 § 4.3 Data Preparation and Analysis(20) (3) Periodic trend Use low-pass filter for trend removing. t t t

38 1. Finite sampling frequency Sampling frequency ω s is finite. (1) Aliasing issue (a) Line spectrum § 4.4 Practical Considerations(1)

39 (b) Continuous spectrum § 4.4 Practical Considerations(2)

40 (2) Solution (a) Nyquist sampling rule Nyquist frequency : § 4.4 Practical Considerations(3) (b) Practical solution Cascaded Anti-aliasing filter

41 2. Finite record length § 4.4 Practical Considerations(4) w ( t ): Window function

42 (1) Leakage problem § 4.4 Practical Considerations(5) (a) Ideal record length (b) Non-ideal record length A

43 (2) Solution Use zero taping Data mirror extension Use improved window functions § 4.4 Practical Considerations(6)

44 3. Finite bits representation § 4.4 Practical Considerations(7) (1)Issues Finite resolution Fixed point Floating point (2) Solution Higher bits representation Proper coding scheme Least Significant Bit (LSB) Most Significant Bit (MSB)

45 § 4.4 Practical Considerations(8) 4. Wild point Causes: Data transmission loss Digital bit error (1)Issues (a) Raising overall noise level in estimated spectrum (b) Produce spurious frequencies in estimated power spectrum

46 (2) Solution § 4.4 Practical Considerations(9) Note: Other issues include signal clipping, temporary dropouts, etc. Use predictor-corrector algorithm for replacing wild data

Download ppt "§ 4.1 Instrumentation and Measurement Systems § 4.2 Dynamic Measurement and Calibration § 4.3 Data Preparation and Analysis § 4.4 Practical Considerations."

Similar presentations

Design of Digital IIR Filter

Design of Digital IIR Filter
| Page 1 09.11.2012 Angelo Farina UNIPR | All Rights Reserved | Confidential Digital sound processing Convolution Digital Filters FFT.

| Page Angelo Farina UNIPR | All Rights Reserved | Confidential Digital sound processing Convolution Digital Filters FFT.
Digital Coding of Analog Signal Prepared By: Amit Degada Teaching Assistant Electronics Engineering Department, Sardar Vallabhbhai National Institute of.

Digital Coding of Analog Signal Prepared By: Amit Degada Teaching Assistant Electronics Engineering Department, Sardar Vallabhbhai National Institute of.
Lecture 7 Linear time invariant systems

Lecture 7 Linear time invariant systems
Learning Objectives Static and Dynamic Characteristics of Signals

Learning Objectives Static and Dynamic Characteristics of Signals
Filtering Filtering is one of the most widely used complex signal processing operations The system implementing this operation is called a filter A filter.

Filtering Filtering is one of the most widely used complex signal processing operations The system implementing this operation is called a filter A filter.
Analog to Digital Converters (ADC) 2 ©Paul Godin Created April 2008.

Analog to Digital Converters (ADC) 2 ©Paul Godin Created April 2008.
Analog Sensing 101 WITH P14452. Agenda  Analog Signal Characteristics  Common Problems with A/D Conversion  Clipping  Small Signals  Aliasing  Analog.

Analog Sensing 101 WITH P Agenda  Analog Signal Characteristics  Common Problems with A/D Conversion  Clipping  Small Signals  Aliasing  Analog.
Digital Signal Processing – Chapter 11 Introduction to the Design of Discrete Filters Prof. Yasser Mostafa Kadah

Digital Signal Processing – Chapter 11 Introduction to the Design of Discrete Filters Prof. Yasser Mostafa Kadah
Digital Signal Processing

Digital Signal Processing
Sampling and quantization Seminary 2. Problem 2.1 Typical errors in reconstruction: Leaking and aliasing We have a transmission system with f s =8 kHz.

Sampling and quantization Seminary 2. Problem 2.1 Typical errors in reconstruction: Leaking and aliasing We have a transmission system with f s =8 kHz.
Mixed Signal Chip Design Lab Analog-to-Digital Converters Jaehyun Lim, Kyusun Choi Department of Computer Science and Engineering The Pennsylvania State.

Mixed Signal Chip Design Lab Analog-to-Digital Converters Jaehyun Lim, Kyusun Choi Department of Computer Science and Engineering The Pennsylvania State.
Chapter 1 Introduction § 1.1 Problem and Analysis § 1.2 Data Engineering § 1.3 Scope § 1.4 Limitations of Course R. J. Chang Department of Mechanical Engineering.

Chapter 1 Introduction § 1.1 Problem and Analysis § 1.2 Data Engineering § 1.3 Scope § 1.4 Limitations of Course R. J. Chang Department of Mechanical Engineering.
Science is organized knowledge. Wisdom is organized life.

Science is organized knowledge. Wisdom is organized life.
Data Acquisition. Data Acquisition System Analog Signal Signal Conditioner ADC Digital Processing Communication.

Data Acquisition. Data Acquisition System Analog Signal Signal Conditioner ADC Digital Processing Communication.
Calibration of TAMA300 in Time Domain Souichi TELADA, Daisuke TATSUMI, Tomomi AKUTSU, Masaki ANDO, Nobuyuki KANDA and the TAMA collaboration.

Calibration of TAMA300 in Time Domain Souichi TELADA, Daisuke TATSUMI, Tomomi AKUTSU, Masaki ANDO, Nobuyuki KANDA and the TAMA collaboration.
Kathy Grimes. Signals Electrical Mechanical Acoustic Most real-world signals are Analog – they vary continuously over time Many Limitations with Analog.

Kathy Grimes. Signals Electrical Mechanical Acoustic Most real-world signals are Analog – they vary continuously over time Many Limitations with Analog.
Sigma Delta A/D Converter SamplerModulator Decimation Filter x(t) x[n]y[n] Analog Digital fsfs fsfs 2 f o 16 bits e[n] Over Sampling Ratio = 2f o is Nyquist.

Sigma Delta A/D Converter SamplerModulator Decimation Filter x(t) x[n]y[n] Analog Digital fsfs fsfs 2 f o 16 bits e[n] Over Sampling Ratio = 2f o is Nyquist.
Computational Geophysics and Data Analysis

Computational Geophysics and Data Analysis
Introduction to Spectral Estimation

Introduction to Spectral Estimation

Similar presentations

Ads by Google