Instrumental engineering is indispensable for almost all the area of the science and engineering. Especially, the measured
data contributes much for the quality of products . Furthermore, measured data are generally digitized and processed in computer,
therefore not only the theory but also the signal processing in digitized domain need to be learned. This lecturer aims for
students to learn brand new instrumental technology by learning the area from generous theory including unit and error theory
to the digitized signal processing and its application.
To learn basis of instrumental engineering
To learn statistical data processing
To learn digital signal processing
To learn cutting edge technology in instrumental engineering
To learn statistical data processing
To learn digital signal processing
To learn cutting edge technology in instrumental engineering
- Enable to understand physical dimensions and SI units
- Enable to understand various cause of errors and statistical analysis and minimization methods
- Enable to understand basis of digital signal processing
- Enable to understand analogue signal processing, amp, and filters
- Enable to understand Fourier transformation and FFT
- Enable to understand various sensors and its measurement theory
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Guideline: Introduction and units | Textbook P1〜p20 | 285minutes |
| 2. | Dimensions and dimensional equation | Textbook P20〜p29 and printed handout | 285minutes |
| 3. | Measurement errors and accuracy | Textbook P30〜p38 and printed handout | 285minutes |
| 4. | Statistical processing, the least square method | Textbook P39〜p53 and printed handout | 285minutes |
| 5. | Analog and digital signal processing, OP-amp | Textbook P54〜p63 and printed handout | 285minutes |
| 6. | Filters and lock-in amp | Textbook P63〜p70 and printed handout | 285minutes |
| 7. | Evaluation of understanding (mid-term exam) | Textbook P1〜p70 and printed handout | 285minutes |
| 8. | Digital signal processing and signal transformation | Textbook P70〜p81 and printed handout | 285minutes |
| 9. | Noise attenuation and Fourier transformation | Textbook P81〜p95 and printed handout | 285minutes |
| 10. | Display of signal, characteristic of measurement system | Textbook P95〜p106 and printed handout | 285minutes |
| 11. | Mechanical sensors | Textbook P107〜p119 and printed handout | 285minutes |
| 12. | Electrical sensors | Textbook P119〜p139 and printed handout | 285minutes |
| 13. | Optical and fluid mechanical sensors | Textbook P139〜p165 and printed handout | 285minutes |
| 14. | Evaluation of understanding (final exam) | Textbook P70〜p165 and printed handout | 285minutes |
| Total. | - | - | 3990minutes |
| midterm esam | final exam | others | Total. | |
|---|---|---|---|---|
| 1. | 7% | 9% | 2% | 18% |
| 2. | 7% | 9% | 2% | 18% |
| 3. | 7% | 8% | 2% | 17% |
| 4. | 7% | 8% | 2% | 17% |
| 5. | 6% | 8% | 1% | 15% |
| 6. | 6% | 8% | 1% | 15% |
| Total. | 40% | 50% | 10% | - |
Minimal requirement is 60% composed of mid-term exam 40%, final 50%, exercises/ reports 10%.
The minimal qualified level corresponds to understand the basis of instrumental engineering ans system.
The minimal qualified level corresponds to understand the basis of instrumental engineering ans system.
Basic mathematical analysis, Advanced mathematical analysis, Probability and statistics, Information processing etc are desired.
- After the lecture, in the classroom or lecturer's room. Form 12:30PM
- Course that cultivates an ability for utilizing knowledge
Last modified : Wed Oct 17 06:23:15 JST 2018