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cbe61622
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cbe61622
¶
Index of Python Libraries used in this Repository
¶
asyncio
¶
A.4.2 Asyncio
cv2
¶
8.3.1.4 Capture to numpy array
10.11.1.1 Python Imports
10.11.2 Particle Labeling Classes
10.12.1.1 Labeler Class
10.12.1.2 Loading image files
10.12.1.3 Image Rescaling and Cropping
10.12.1.5 Integrating Channels into Labeler
10.12.3 Classes
10.13.1 Application
getpass
¶
7.2.1.3 Login to Particle
B.1.2 Login to Particle
B.2.2 Login to Particle
B.3.1.3 Login to Particle
B.4.1.3 Login to Particle
B.5.1.3 Login to Particle
[B.6.1.4 Select a device](
https://jckantor.github.io/cbe61622/B.06-Communicating
_via_TCP.html#B.6.1.4-Select-a-device)
glob
¶
10.12.1.1 Labeler Class
10.12.1.1 Labeler Class
10.12.1.2 Loading image files
10.12.1.3 Image Rescaling and Cropping
10.12.1.5 Integrating Channels into Labeler
10.13.2 Demonstrations
hello_world
¶
A.2.1 Method 1. Downloading individual Python files with wget
A.2.2 Method 2. Cloning a git repository
importlib
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A.2.1 Method 1. Downloading individual Python files with wget
A.2.2 Method 2. Cloning a git repository
json
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9.1.3 Version 1
9.2.2 Remote Operation of a Laboratory Experiment
machine
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5.1.3.1 Activity
5.3.1 Using the LCD 16x2 display
5.3.2 A simplified LCD16x2 class
5.3.3 A Simple Clock
6.1 Managing Multiple Devices with an Event Loop
6.3.3 Single threaded, imperative coding
math
¶
3.1.2.1 Shot Noise
10.2 Machine Vision Applications
10.2.1.3 Telecentric Lenses
matplotlib
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3.1.2.1 Shot Noise
3.2.1 Sampling signals
3.2.4 numpy.fft
3.2.5 Examples of Fourier Transforms
3.2.9 Inverse Discrete Fourier Transform
8.2.3 Matplotlib Demonstration
8.2.4 Scipy Demonstration
8.3.1.4 Capture to numpy array
8.3.1.4 Capture to numpy array
9.1.2.1 Proof of Concept
9.2.2 Remote Operation of a Laboratory Experiment
9.2.3 Version 1
10.11.1.1 Python Imports
10.11.2 Particle Labeling Classes
10.12.1.1 Labeler Class
10.12.1.2 Loading image files
10.12.1.3 Image Rescaling and Cropping
10.12.1.5 Integrating Channels into Labeler
10.12.3 Classes
10.13.1 Application
numpy
¶
3.1.2.1 Shot Noise
3.2.1 Sampling signals
3.2.4 numpy.fft
3.2.5 Examples of Fourier Transforms
3.2.9 Inverse Discrete Fourier Transform
8.2.1 Show numpy configuration
8.2.2 Matrix Multiplication Benchmark
8.2.4 Scipy Demonstration
8.3.1.4 Capture to numpy array
8.3.1.4 Capture to numpy array
9.1.2.1 Proof of Concept
9.2.2 Remote Operation of a Laboratory Experiment
9.2.3 Version 1
10.2.1.3 Telecentric Lenses
10.11.1.1 Python Imports
10.11.2 Particle Labeling Classes
10.12.1.1 Labeler Class
10.12.1.2 Loading image files
10.12.1.3 Image Rescaling and Cropping
10.12.1.5 Integrating Channels into Labeler
10.12.3 Classes
10.13.1 Application
os
¶
A.2.2 Method 2. Cloning a git repository
A.2.2 Method 2. Cloning a git repository
A.2.2.1 Commit and push changes
B.1.3.2 Toggle on-board led
B.1.3.3 Reading Grove Light Sensor V1.2
paho
¶
9.1.2.1 Proof of Concept
9.1.2.1 Proof of Concept
9.1.3 Version 1
9.1.3 Version 1
9.2.2 Remote Operation of a Laboratory Experiment
9.2.2 Remote Operation of a Laboratory Experiment
9.2.3 Version 1
9.2.3 Version 1
9.3.3 Receiving data from Particle Argon device
9.3.3 Receiving data from Particle Argon device
picamera
¶
8.3.1 PiCamera
8.3.1.1 Camera preview
8.3.1.1 Camera preview
8.3.1.2 Capture to stream and display
8.3.1.3 Camera Settings
8.3.1.3 Camera Settings
8.3.1.4 Capture to numpy array
8.3.1.4 Capture to numpy array
PIL
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8.3.1.2 Capture to stream and display
8.3.1.3 Camera Settings
random
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3.1.2.1 Shot Noise
re
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7.2.1.2 Utility functions
B.1.3.3 Reading Grove Light Sensor V1.2
B.3.1.2 Utility functions
B.4.1.2 Utility functions
B.5.1.2 Utility functions
[B.6.1.2 Utility functions](
https://jckantor.github.io/cbe61622/B.06-Communicating
_via_TCP.html#B.6.1.2-Utility-functions)
rp2
¶
6.5.3 Interacting PIO programs
7.1.4 Programmable Input/Ouput (PIO)
simpy
¶
9.1.3 Version 1
A.4.1 Blinkers
subprocess
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7.2.1.2 Utility functions
A.2.1 Method 1. Downloading individual Python files with wget
B.1.2 Login to Particle
B.1.3.2 Toggle on-board led
B.1.3.3 Reading Grove Light Sensor V1.2
B.2.2 Login to Particle
B.3.1.2 Utility functions
B.4.1.2 Utility functions
B.5.1.2 Utility functions
[B.6.1.2 Utility functions](
https://jckantor.github.io/cbe61622/B.06-Communicating
_via_TCP.html#B.6.1.2-Utility-functions)
sys
¶
7.1.4 Programmable Input/Ouput (PIO)
7.1.4 Programmable Input/Ouput (PIO)
7.1.4 Programmable Input/Ouput (PIO)
A.2.2 Method 2. Cloning a git repository
A.2.2 Method 2. Cloning a git repository
A.2.2 Method 2. Cloning a git repository
time
¶
5.1.3.1 Activity
5.3.3 A Simple Clock
6.1 Managing Multiple Devices with an Event Loop
6.2.3 Single threaded, imperative coding
6.2.3 Single threaded, imperative coding
6.3.3 Single threaded, imperative coding
6.3.3 Single threaded, imperative coding
6.3.3 Single threaded, imperative coding
6.4.2.1 Polling
6.4.2.2 Timer
6.4.2.2 Timer
6.4.3 Interrupt Requests and Service Routines: IRQ/ISR
6.4.3 Interrupt Requests and Service Routines: IRQ/ISR
6.4.3.1 Capturing data via IRQ/ISR's
6.5.1 Setting multiple pins from Python
6.5.2 Writing Stepper Steps to pins
6.5.2 Writing Stepper Steps to pins
6.5.2 Writing Stepper Steps to pins
6.5.3 Interacting PIO programs
6.5.3 Interacting PIO programs
7.1.3 Driving the 28BYJ-48 Stepper Motor
7.1.4 Programmable Input/Ouput (PIO)
7.3.1 ESP01 class
8.3.1.1 Camera preview
8.3.1.1 Camera preview
8.3.1.2 Capture to stream and display
8.3.1.3 Camera Settings
8.3.1.3 Camera Settings
8.3.1.4 Capture to numpy array
8.3.1.4 Capture to numpy array
9.1.2.1 Proof of Concept
9.1.3 Version 1
9.2.2 Remote Operation of a Laboratory Experiment
9.2.3 Version 1
9.3.3 Receiving data from Particle Argon device
A.3.3 Blinker
A.3.4 Handling a Keyboard Interrupt
A.3.5 Getting Information about the Arduino
A.3.6 Temperature Control Lab Shield
A.4.1 Blinkers
A.4.2 Asyncio
B.1.3.2 Toggle on-board led
B.1.3.3 Reading Grove Light Sensor V1.2
urllib
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A.2.2.1 Commit and push changes
uuid
¶
9.2.2 Remote Operation of a Laboratory Experiment