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Here are some recent changes:
 
Here are some recent changes:
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* Introduction to the [[Workshop]] in Frauenlobstr.
 
* There is now more information about the [[RGB LED]] including a tutorial video: https://www.youtube.com/watch?v=K2m6ttZ1bJw
 
* There is now more information about the [[RGB LED]] including a tutorial video: https://www.youtube.com/watch?v=K2m6ttZ1bJw
 
* There is an example of how to program the [[LED Ring NeoPixel]]
 
* There is an example of how to program the [[LED Ring NeoPixel]]
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* there is also a gallery with results from the last course: [[Gallery 2020]]
 
* there is also a gallery with results from the last course: [[Gallery 2020]]
  
= Foreword to the Sketching With Hardware wiki =
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= Foreword and Introduction to Sketching With Hardware =
TODO - basically what we had in the first live session
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The course is part of our question of how to create functional prototypes for exploring interactive systems. There are some introductory slides (
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[https://www.sketching-with-hardware.org/files/WhySKHW2020.pptx pptx], [https://www.sketching-with-hardware.org/files/WhySKHW2020.pdf pdf]) that are shown in the introductory video (https://youtu.be/Irxo9b5cexs).
 +
 
 +
In the article "Understanding and researching through making: a plea for functional prototypes" ([https://dl.acm.org/doi/10.1145/3058498 in the ACM DL] , [https://www.sketching-with-hardware.org/files/functional3058498.pdf as PDF]) we discuss three different approaches to create prototypes. In this course, we focusing custom hardware development for research and development in human-computer interaction.
 +
 
 +
<youtube>Irxo9b5cexs</youtube>
  
 
== Learning Goals ==
 
== Learning Goals ==
The overall learning goal is the equip students with skills to '''Envision a new interactive physical object and implements a functional prototype''', this includes:
+
The overall learning goal is the equip students with skills to '''Envision a new interactive physical object and implement it a functional prototype''', this includes:
 
* understand why sketching with hardware is relevant
 
* understand why sketching with hardware is relevant
 
* understand the challenges in creating function prototypes
 
* understand the challenges in creating function prototypes
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* Discord Server for LMU students- Invitation: https://discord.com/invite/JhMs6jX
 
* Discord Server for LMU students- Invitation: https://discord.com/invite/JhMs6jX
 
* Course page: https://www.um.informatik.uni-muenchen.de/studium_lehre/ss20/swh/index.html
 
* Course page: https://www.um.informatik.uni-muenchen.de/studium_lehre/ss20/swh/index.html
 +
* if you have questions, please email to [mailto:swh@um.ifi.lmu.de swh@um.ifi.lmu.de]
  
 
= Video Tutorials =  
 
= Video Tutorials =  
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* https://youtu.be/0KGgYsEZcZM Digital Output - adding an LED to the controller [30:30 on Youtube]
 
* https://youtu.be/0KGgYsEZcZM Digital Output - adding an LED to the controller [30:30 on Youtube]
 
* https://youtu.be/G6HZ1etMRbM Digital Output - connecting an LED - WebREPL based[16:54 on Youtube]**
 
* https://youtu.be/G6HZ1etMRbM Digital Output - connecting an LED - WebREPL based[16:54 on Youtube]**
* https://youtu.be/_4bXk8JjQSk PWM Output - connecting a servo - WebREPL based [14:40 on Youtube]**
+
* https://youtu.be/XovIHYo7s1A PWM Output - connecting a servo [45:38 on Youtube]**
 
* https://youtu.be/va1beT6sxLs Digital Input - connecting a switch [30:31 on Youtube]**
 
* https://youtu.be/va1beT6sxLs Digital Input - connecting a switch [30:31 on Youtube]**
 
* https://youtu.be/gjj5KyK2qGI Analog Input - ADC - connecting a resistor, voltage divider [46:23 on Youtube]**
 
* https://youtu.be/gjj5KyK2qGI Analog Input - ADC - connecting a resistor, voltage divider [46:23 on Youtube]**
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* https://youtu.be/3J3GbD2PrCs Connecting the analog Joystick
 
* https://youtu.be/3J3GbD2PrCs Connecting the analog Joystick
 
* https://youtu.be/C0W-wI0qHIQ Connecting a PIR motion sensor
 
* https://youtu.be/C0W-wI0qHIQ Connecting a PIR motion sensor
* https://youtu.be/PEKjvD1uQe4 Connecting a stepper motor (28BYJ-48) and driver (ULN2003)
+
* https://youtu.be/EIwjeek5hnM Connecting a stepper motor (28BYJ-48) and driver (ULN2003)
 
* https://youtu.be/PJdDUZWeIDs Connecting the HC-SR04 distance sensor
 
* https://youtu.be/PJdDUZWeIDs Connecting the HC-SR04 distance sensor
 
* https://youtu.be/YFKACI_TfqA Connecting the MPU-6050 sensor (acceleration, gyro, temperature)
 
* https://youtu.be/YFKACI_TfqA Connecting the MPU-6050 sensor (acceleration, gyro, temperature)

Revision as of 01:30, 31 December 2020

Latest News

The LMU SKWH 2020 - LMU Sketching with Hardware course (Summer Term 2020) we have completed the Preparation phase (self-paced), and done the Individual Tasks. Please get organized in your group.

We will answer your questions in the discord server (links below).

Todos for you:


Here are some recent changes:

Courses

At this point there is only one course (summer term 2020 at LMU) ... but we hope for more in the future.

Please go to the course page for details, timeline, and requirements:

  • LMU SKWH 2020 - LMU Sketching with Hardware, Summer Term 2020
  • there is also a gallery with results from the last course: Gallery 2020

Foreword and Introduction to Sketching With Hardware

The course is part of our question of how to create functional prototypes for exploring interactive systems. There are some introductory slides ( pptx, pdf) that are shown in the introductory video (https://youtu.be/Irxo9b5cexs).

In the article "Understanding and researching through making: a plea for functional prototypes" (in the ACM DL , as PDF) we discuss three different approaches to create prototypes. In this course, we focusing custom hardware development for research and development in human-computer interaction.

Learning Goals

The overall learning goal is the equip students with skills to Envision a new interactive physical object and implement it a functional prototype, this includes:

  • understand why sketching with hardware is relevant
  • understand the challenges in creating function prototypes
  • being able to create basic hardware sketches
  • being able to program and debug MicroPython on ESP32/ESP8266
  • being able to build basic circuits connected to the microcontroller, including
    • output: LEDs, servos, motors, speakers, display
    • input: buttons, dials, sliders, LDR, accelerometer, distance, I2C sensors
  • being able to program basic networking (network variables)

Important Links

Video Tutorials

List of Videos available