Difference between revisions of "UBISS2024"
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https://docs.arduino.cc/tutorials/nano-rp2040-connect/rp2040-ap-web-server-rgb/ | https://docs.arduino.cc/tutorials/nano-rp2040-connect/rp2040-ap-web-server-rgb/ | ||
https://www.datacamp.com/tutorial/markdown-in-jupyter-notebook | https://www.datacamp.com/tutorial/markdown-in-jupyter-notebook | ||
+ | https://scikit-learn.org/stable/auto_examples/datasets/plot_iris_dataset.html | ||
+ | https://docs.micropython.org/en/latest/library/socket.html | ||
+ | https://ubicomp.net/sw/db1/var2db.php? | ||
+ | http://localhost:8888/notebooks/ArduinoNanoRP2040_v01.ipynb | ||
+ | https://labs.arduino.cc/en/labs/micropython | ||
+ | https://labs.arduino.cc/en/labs/micropython-installer | ||
+ | https://micropython.org/ | ||
+ | https://www.arduino.cc/en/software | ||
+ | https://www.linkedin.com/pulse/arduino-truly-tiny-machine-learning-simone-salerno | ||
+ | https://eloquentarduino.com/posts/micropython-machine-learning | ||
+ | https://github.com/eloquentarduino/everywhereml | ||
+ | https://github.com/mocleiri/tensorflow-micropython-examples | ||
+ | https://dev.to/tkeyo/tinyml-machine-learning-on-esp32-with-micropython-38a6 | ||
+ | https://saturncloud.io/blog/how-to-import-python-file-as-module-in-jupyter-notebook/ | ||
+ | https://github.com/jposada202020/MicroPython_LSM6DSOX | ||
Revision as of 17:58, 6 April 2024
Contents
Random Links
https://docs.arduino.cc/micropython/basics/board-examples/ https://www.sketching-with-hardware.org/wiki/Jupyter https://docs.arduino.cc/resources/pinouts/ABX00083-full-pinout.pdf https://towardsdatascience.com/micropython-on-esp-using-jupyter-6f366ff5ed9 https://www.codemotion.com/magazine/backend/getting-started-with-micropython-on-arduino-nano-rp2040-connect/ https://docs.arduino.cc/tutorials/nano-rp2040-connect/rp2040-openmv-setup/ https://docs.arduino.cc/tutorials/nano-rp2040-connect/rp2040-data-logger/ https://www.penguintutor.com/programming/arduino-python https://micropython.org/download/ARDUINO_NANO_RP2040_CONNECT/ https://docs.arduino.cc/tutorials/nano-rp2040-connect/rp2040-ap-web-server-rgb/ https://www.datacamp.com/tutorial/markdown-in-jupyter-notebook https://scikit-learn.org/stable/auto_examples/datasets/plot_iris_dataset.html https://docs.micropython.org/en/latest/library/socket.html https://ubicomp.net/sw/db1/var2db.php? http://localhost:8888/notebooks/ArduinoNanoRP2040_v01.ipynb https://labs.arduino.cc/en/labs/micropython https://labs.arduino.cc/en/labs/micropython-installer https://micropython.org/ https://www.arduino.cc/en/software https://www.linkedin.com/pulse/arduino-truly-tiny-machine-learning-simone-salerno https://eloquentarduino.com/posts/micropython-machine-learning https://github.com/eloquentarduino/everywhereml https://github.com/mocleiri/tensorflow-micropython-examples https://dev.to/tkeyo/tinyml-machine-learning-on-esp32-with-micropython-38a6 https://saturncloud.io/blog/how-to-import-python-file-as-module-in-jupyter-notebook/ https://github.com/jposada202020/MicroPython_LSM6DSOX
Tasks
Task 1: connect a Arduino Nano ESP32 board
- connect the board
- control the internal RGB LED
Task 2: connect a Arduino Nano Connect RP2040
- connect the board
- read the accelerometer and the gyro and show it in the notebook
Task 2.1: is it moved?
- read acceleration and gyro
- calculate the differences between values
- show an ouput when it is move
- create a file on the device that logs, when it is moved
Task 2.2: it was turned upside down?
- read acceleration and gyro
- make a rule based "AI" that records
- it was put upside down
- it was turned 360
- it was moved "quickly"
Task 3: connect both boards to WIFI
- connect both boards to WIFI using Tutorial_Network
- use the Arduino Nano ESP32 as output (showing a color)
- use the Arduino Nano Connect RP2040 as input (recognize with rules 3 gestures)