Emergent Methods: Multi-lingual narrative tracking in the news - real-time ex...
Beginning arduino
1. TECH WORKSHOP 1
ARDUINO
1. Intro to Electricity
2. What is a microcontroller?
3. Analog vs. digital signal
4. Examples
5. LAB
2. ARDUINO LAB:
1. LED blink
2. Set up your breadboard
CIRCUITS:
3. Output: Turn a servo motor
4. Digital input: make a push button lights up LED's
5. Analog input: Make an photo cell
6. Bigger load Analog Input & output: make a potentiometer move
a motor
TECH WORKSHOP 1
ARDUINO
3. What is a Physical Interaction?
773_Value-added-004.jpg
WHAT IS PHYSICAL
INTERACTION?
What are examples of physical interfaces?
17. ELECTRICITY
The flow of electrons through a conductive material
ANALOGY: Water flowing through a hose
Current (amps) = how many electrons are flowing
Voltage (volts) = electrical energy (ie pressure)
Resistance (ohms) = a material's ability to RESIST current
ELECTRICIT
Y
18. ELECTRICITY
The flow of electrons through a conductive material
ANALOGY: Water flowing through a hose
Current (amps) = how much water
Voltage (volts) = water pressure
Resistance (ohms) = hose size
ELECTRICIT
Y
19. ELECTRICITY
The flow of electrons through a conductive material
ANALOGY: Water flowing through a hose
Current (amps) = how much water
Voltage (volts) = water pressure
Resistance (ohms) = hose size
ELECTRICIT
Y
20. CIRCUIT = A closed loop containing:
1. a source of electrical energy
2. a “load” (motor, light bulb)
ELECTRICIT
Y
22. ARDUINO LAB:
1. LED blink
2. Set up your breadboard
CIRCUITS:
3. Output: Turn a servo motor
4. digital input: make a push button lights up LED's
5. Analog input: Make an photo cell
6. Bigger load Analog Input & output: make a potentiometer move
a motor
TECH WORKSHOP 1
ARDUINO
23. Turn on the LED and make it blink
What you need:
Arduino LED USB cable
EXERCISE 1. LED
BLINK
24. Step 1. Download Arduino software
A. http://www.arduino.cc/en/Main/Software B. click OK!
EXERCISE 1. LED
BLINK
25. Step 1. Download Arduino software
C. Follow the prompts to put the Arduino application in the applicatio
folder
You’ve installed Arduino!
EXERCISE 1. LED
BLINK
26. Step 1. Download Arduino software
D. Open up Arduino program E. You should see this
EXERCISE 1. LED
BLINK
27. Step 2. Set up the Arduino board
A. Insert the longer leg of the LED into pin 13 of the Arduino.
B. Insert the shorter leg of the LED into the pin labelled
GND on the Arduino.
EXERCISE 1. LED
BLINK
28. Step 3. Program the Arduino board
A. Plug the Arduino into the computer using the USB cable
EXERCISE 1. LED
BLINK
29. Step 3. Program the Arduino board
B. Select chip C. Select Port
EXERCISE 1. LED
BLINK
In Arduino, select: TOOLS --->
Board ---> Arduino UNO ToIn
Select Tools ---> Serial Port --->
and click the TOP OPTION :
something like
"dev.tty.usbmodemfd131"
30. Now you are ready to program!
D. Open Blink sketch
Click on File ---> Examples---> Basics ---> Blink ToIn
EXERCISE 1. LED
BLINK
33. Step 5. Now that you have MODIFIED the BLINK sketch,
go ahead and save it
EXERCISE 1. LED
BLINK
34. RECAP: what did we just learn?
1. how to download and install Arduino software
2. about the Arduino software language
3. how to modify a sketch
4. how to upload a sketch to Arduino
5. how to blink LED's at different speeds
EXERCISE 1. LED
BLINK
35. 2. USING A
BREADBOARD
Follow this link to make the same circuit using a breadboard. Then get a
bit more advanced and use multiple LED’s, then an RGB LED.
http://levinegabriella.com/exploringbiomimicry/Arduino_tutorials/2_CIID_tutoria
36. 3. PUSHBUTTON
Follow this link to make a simple pushbutton ircuit.
http://www.levinegabriella.com/exploringbiomimicry/Arduino_tutorials/CIID_Be
37. Follow this link to get some practice using Arduino example code to
output rotational motion through a servo motor.
http://levinegabriella.com/exploringbiomimicry/Arduino_tutorials/3_CIID_Servo.p
4. USING A SERVO
MOTOR
38. The following excersizes are here:
http://www.levinegabriella.com/exploringbiomimicry/Arduino_tutorials/4_
CIID_Arduino_Analog_Digital.pdf
5 - 6. ANALOG / DIGITAL
INPUT
39. ARDUINO LAB:
1. LED blink
2. Set up your breadboard
CIRCUITS:
3. Output: Turn a servo motor
4. digital input: make a push button lights up LED's
5. Analog input: Make an photo cell
6. Bigger load Analog Input & output: make a potentiometer move
a motor
TECH WORKSHOP 1
ARDUINO
Notes de l'éditeur
based on what they found the day before - look at some of their blogs
Designed for EMBEDDED applications vs general purpose applications (like a computer) A microcontroller (sometimes abbreviated µC , uC or MCU ) is a small computer on a single integrated circuit containing a processor core, memory, and programmable input/output perip herals. Prog ram memory in the form of NOR flash or OTP ROM is also o ften incl uded on chip, as wel l as a typically small amount of RAM . Microcontrollers are designed for embedde d a pplications, in contrast to the microprocessors used in personal computers or oth er general purp ose applications.
inputs / outputs - show dif photos John Schimmel - Assistive Tech. RAMPS, wheelchair DJ interface.
Mudtub, Tom Gerhardt. Use mud to control a computer.
Botanicalls, Rob Faludi, Kate Hartmann, etc. Your plant tweets at you when it needs to be watered.
PROTEI
SAFECAST
SAFECAST
Urbbi A service product that fosters delight in urban horticulture through playful interaction. Urbbi is a product-service that helps people take care of the plants in their home and encourages learning in how to grow their own. Whether it be food, herbs or ornamentals, the Urbbi system allows people to keep their plants alive by creating a direct connection between the plants needs and the tools we already use everyday to prioritise and plan our busy lives.
audible color Audible color is an audio-visual instrument. Sound is generated based on color detected by a web cam connected to a computer. Red, green and blue correspond with certain music notes. When the colors are mixed, the resulting secondary colors produce different notes. The size of the colors influences the volume and frequency of the notes played. Color detection and sound generation were created and are controlled using Processing code. https://vimeo.com/43306909#at=0
inputs / outputs - show dif photos Natural History Museum
