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図書

図書
John Essick
出版情報: New York : Oxford University Press, c2019  xviii, 702 p. ; 24 cm
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目次情報: 続きを見る
Preface
About the Author
Labview Program Development / 1:
Lab VIEW Programming Environment / 1.1:
Blank VI / 1.2:
Front-Panel Editing / 1.3:
Block-Diagram Editing / 1.4:
Program Execution / 1.5:
Pop-Up Menu and Data-Type Representation / 1.6:
Program Storage / 1.7:
Quick Drop / 1.8:
Do It Yourself
Use It!
Problems
The While Loop and Waveform Chart / 2:
Programming Structures and Graphing Modes / 2.1:
While Loop Basics / 2.2:
Sine-Wave Plot Using a While Loop and Waveform Chart / 2.3:
Lab VIEW Help Window / 2.4:
Waveform Chart Pop-Up Menu / 2.5:
Finishing the Program / 2.7:
Program Improvements / 2.8:
Data Types and Automatic Creation Feature / 2.10:
The for Loop and Waveform Graph / 3:
For Loop Basics / 3.1:
Sine-Wave Plot Using a For Loop and Waveform Graph / 3.2:
Waveform Graph / 3.3:
Owned and Free Labels / 3.4:
Creation of Sine Wave Using a For Loop / 3.5:
Cloning Block-Diagram Icons / 3.6:
Auto-Indexing Feature / 3.7:
Running the VI / 3.8:
X-Axis Calibration of the Waveform Graph / 3.9:
Sine-Wave Plot Using a While Loop and Waveform Graph / 3.10:
Front-Panel Array Indicator / 3.11:
Debugging with the Probe Watch Window and Error List / 3.12:
The Mathscript Node and XY Graph / 4:
MathScript Node Basics / 4.1:
Quick MathScript Node Example: Sine-Wave Plot / 4.2:
Waveform Simulator Using a Math Script Node and XY Graph / 4.3:
Creating an XY Cluster / 4.4:
Lab VIEW MathScript Window / 4.5:
Adding Shape Options Using an Enumerated Type Control / 4.7:
Finishing the Block Diagram / 4.8:
Control and Indicator Clusters / 4.9:
Creating an Icon Using the Icon Editor / 4.11:
Icon Design / 4.12:
Connector Assignment / 4.13:
Introduction to Data Acquisition Devices Using Max / 5:
Data Acquisition Hardware / 5.1:
Measurement & Automation Explorer (MAX) / 5.2:
Analog Input Modes / 5.3:
Range and Resolution / 5.4:
Sampling Frequency and the Aliasing Effect / 5.5:
Analog Input Operation Using MAX / 5.6:
Analog Output / 5.7:
Analog Output Operation Using MAX / 5.8:
Digital Input/Output / 5.9:
Digital Input/Output Operation Using Max / 5.10:
Data Acquisition Using DAQ Assistant / 6:
Data Acquisition Vis / 6.1:
Simple Analog Input Operation on a DC Voltage / 6.2:
Digital Oscilloscope / 6.3:
DC Voltage Storage / 6.4:
Hardware-Timed Waveform Generator / 6.5:
Placing a Custom-Made VI on a Block Diagram / 6.6:
Completing and Executing Waveform Generator (Express) / 6.7:
Data Files and Character Strings / 7:
ASCII Text and Binary Data Files / 7.1:
Storing Data in a Spreadsheet-Formatted File / 7.2:
Storing a One-Dimensional Data Array / 7.3:
Transpose Option / 7.4:
Storing a Two-Dimensional Data Array / 7.5:
Controlling the Format of Stored Data / 7.6:
The Path Constant and Platform Portability / 7.7:
Fundamental File I/O VIs / 7.8:
Adding Text Labels to a Spreadsheet File / 7.9:
Backslash Codes / 7.10:
Shift Registers / 8:
Shift Register Basics / 8.1:
Quick Shift Register Example: Integer Sum / 8.2:
Noise and Signal Averaging / 8.3:
Noisy Sine VI / 8.4:
Moving Average of Four Traces / 8.5:
Modularity and Automatic SubVI Creation / 8.6:
Moving Average of Arbitrary Number of Traces / 8.7:
The Case Structure / 9:
Case Structure Basics / 9.1:
Quick Case Structure Example: Runtime Options Using Property Nodes / 9.2:
State Machine Architecture: Guessing Game / 9.3:
State Machine Architecture: Express VI-Based Digital Oscilloscope / 9.4:
Data Dependency and the Sequence Structure / 10:
Data Dependency and Sequence Structure Basics / 10.1:
Event Timer Using a Sequence Structure / 10.2:
Event Timer Using Data Dependency / 10.3:
Highlight Execution / 10.4:
Analysis VIs: Curve Fitting / 11:
Thermistor Resistance-Temperature Data File / 11.1:
Temperature Measurement Using Thermistors / 11.2:
The Linear Least-Squares Method / 11.3:
Inputting Data to a VI Using a Front-Panel Array Control / 11.4:
Inputting Data to a VI by Reading from a Computer File / 31.3:
Slicing Up a Multidimensional Array
Curve Fitting Using the Linear Least-Squares Method / 11.5:
Residual Plot / 11.6:
Curve Fitting Using the Nonlinear Least-Squares Method / 11.7:
Analysis VIs: Fast Fourier Transform / 12:
Quick Fast Fourier Transform Example / 12.1:
The Fourier Transform / 12.2:
Discrete Sampling and the Nyquist Frequency / 12.3:
The Discrete Fourier Transform / 12.4:
The Fast Fourier Transform / 12.5:
Frequency Calculator VI / 12.6:
FFT of Sinusoids / 12.7:
Applying the FFT to Various Sinusoidal Inputs / 12.8:
Magnitude of the Complex-Amplitude / 12.9:
Observing Leakage / 12.10:
Windowing / 12.11:
Estimating Frequency and Amplitude / 12.12:
Aliasing / 12.13:
Data Acquisition and Generation Using DAQmx VIs / 13:
DAQmx VI Basics / 13.1:
Express VI Automatic Code Generation / 13.2:
Limitations of Express VIs / 13.5:
Improving Digital Oscilloscope Using State Machine Architecture / 13.6:
Analog Output Operations / 13.7:
Waveform Generator / 13.8:
Control of Stand-Alone Instruments / 14:
Instrument Control Using VISA VIs / 14.1:
The VISA Session / 14.2:
The IEEE 488.2 Standard / 14.3:
Common Commands / 14.4:
Status Reporting / 14.5:
Device-Specific Commands / 14.6:
Specific Hardware Used in This Chapter / 14.7:
Simple VISA-Based Query Operation / 14.8:
Message Termination / 14.10:
Getting and Setting Communication Properties Using a Property Node / 14.11:
Performing a Measurement over the Interface Bus / 14.12:
Synchronization Methods / 14.13:
Measurement VI Based on the Serial Poll Method / 14.14:
Measurement VI Based on the Service Request Method / 14.15:
Creating an Instrument Driver / 14.16:
Using the Instrument Driver to Write an Application Program / 14.17:
Formula Node Programming for Chapter 4 / Appendix A:
Formula Node Basics / A.1:
Quick Formula Node Example: Sine-Wave Plot (Section 4.2) / A.2:
Formula Node-Based Waveform Simulator (Sections 4.3-4.4) / A.3:
Formula Node-Based Waveform Simulator (Section 4.8) / A.4:
Formula Node-Based Waveform Simulator (Section 4.10) / A.5:
Mathematics of Leakage and Windowing / Appendix B:
Analytic Description of Leakage / B.1:
Description of Leakage Using the Convolution Theorem / B.2:
PID Temperature Control Project / Appendix C:
Project Description / C.1:
Voltage-Controlled Bidirectional Current Driver for Thermoelectric Device / C.2:
PID Temperature Control Algorithm / C.3:
PID Temperature Control System / C.4:
Construction of Temperature Control System / C.5:
Index
Preface
About the Author
Labview Program Development / 1:
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シリーズ名: 基礎生物学テキストシリーズ ; 7
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目次情報: 続きを見る
植物の起源と進化
植物の構造と特徴
ヒトと植物の関わり合い—過去・現在・未来
植物細胞における物質輸送と生体膜輸送体
同化と異化
光合成
植物に特徴的な代煮
組織、個体における物質輸送
細胞分裂と細胞成長
形態形成と成長調節物質
光応答
栄養成長と生殖成長
環境適応
病原体に対する植物の防御
微生物との共生
植物の起源と進化
植物の構造と特徴
ヒトと植物の関わり合い—過去・現在・未来
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