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A toy for humans and their cats made from a cat toy hacked with Arduino. This was in response to the ask: “Hack a toy with Arduino to create a ludic (playful) experience and enhance the existing toy experience." My teammates for this project was Stephanie Louraine. This is one of the projects for Shaowen Bardzell’s Advanced Prototyping course at Indiana University Bloomington.
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I590 Advanced PurrototypingFall 2013Professor Meowen Bardzell (Shaowen Bardzell)
Associacat Instructor Gopinaath Catnabiran (Gopinaath Kannabiran)
Associacat Instructor Yue Paw (Yue Pan)
Indiana University’s Human-Cat Interaction Design (HCI/d) purrogram purresents:
Arduino CirCAT B ard
Stepurrnie Louraine (Stephanie Louraine)
Angélicat Rosenzweigato (Angélica Rosenzweig)
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Hack a toy with ArduinoOur task
Create a ludic (playful) experience.
Enhance the existing toy experience.
Use two inputs and two outputs.
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Even the grumpiest of cats likes feathersCats love to play!
Tardar Sauce, aka “Grumpy Cat”http://www.grumpycats.com/tag/pokey/#.UnaVkBbFpyxUsed under educational fair use
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The Internet is full of cat photos and videosHumans love their cats!
Lil BUBhttp://lilbub.com/image/62344630818Used under educational fair use
Hamilton the Hipster Cathttp://instagram.com/p/eySFqWRLhA/Used under educational fair use
MaruScreenshot from http://youtu.be/TbiedguhyvMUsed under educational fair use
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Animal-Computer InteractionHCI is interested in pets too!
“Important recent research directly related to Animal-Computer Interaction has focussed upon companion animals and has mainly sought to develop interactive technology that aims to foster human-animal interaction while benefitting both sides of the relationship.”
Mancini, C et al. “Animal-Computer Interaction SIG” (2012). CHI ‘12 Proceedings of the SIGCHI Conference on Human Factors in Computing Systems.
“...[Owners] actively assume the role of animals, and infer thoughts and feelings from the animal’s perspective... [Projecting] human capabilities onto pets makes them legitimate participants in social interaction.”
Noz, F et al. “Cat Cat Revolution” (2011). CHI ‘11 Proceedings of the SIGCHI Conference on Human Factors in Computing Systems.
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PetSmart, Bloomington, INResearch: Toy ethnography
We went to a pet shop to see what cat toys already exist in the world.
We were able to explore and play with a lot of different toys to test their movement, weight, etc.
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Cat toys are often colorful and festive, reflecting light and making sounds.
Insights
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Large numbers of cat toys involve some human interaction with the pet, rather than just watching.
Insights
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A large number of cat toys are amusing for humans just as much as cats (obviously cats don’t smoke cigars!).
Insights
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Stephanie’s house, Bloomington, INResearch: Our (feline) users
We studied two cats to see how they like to play, and which types of toys they love best.
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A sassy but skittish 10-year-old lady who loves playing with the ball track.
Kalinka
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An energetic 4-year-old guy who likes to attack feathers.
Chip
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Sketching to explore the spaceConcepting and ideation
Following are a few sketches showing our exploration of the cat-toy interaction space.
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Keep your cat off forbidden areasDisadvantage: Not very playful
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Pressure-sensing lighted cat matDisadvantage: Cats are mostly colorblind and don’t care about different colors of light
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Long-distance cat-cat interactionsDisadvantage: Not sure if cats feel the need to contact distant cat companions
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Training device to make cats into ninjasDisadvantage: If you can’t see your cat, you’re missing out on a lot of the fun
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Our final conceptColorful, playful, and can involve many cats and humans at once
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Arduino CirCAT BoardOur purrototype
Cats love to attack birds, feathers, and any moving objects!
This prototype combines two toys (ball track and stuffed bird) into one playful, colorful toy.
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Tail feather waggingHow it works
The ball in the track triggers a light sensor When the ball’s shadow passes over the light sensor, the servo motor (hidden in the box) wags the bird’s tail feathers
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Bird chirpingHow it works
The ball in the track triggers the flex sensor when it bounces against it
The piezo speaker hidden under the cardboard wire cover makes “chirping” sounds when the flex sensor triggers
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Wiring the prototype
Schematics of our wiring created in Fritzing (fritzing.org).
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The code/*Code adapted by Stephanie Louraine and Angelica Rosenzweigfrom the Arduino Starter Kit example Project 6 - Light Theremin by Scott Fitzgerald*/
#include <Servo.h>
//servo Servo myservo;int val;
// variable to hold sensor value for flexsensorint sensorValue;// variable to calibrate low valueint sensorLow = 1023;// variable to calibrate high valueint sensorHigh = 0;// LED pinconst int ledPin = 13;int flexSensorPin = A0;
void setup() { Serial.begin(9600); myservo.attach(12); // Make the LED pin an output and turn it on pinMode(ledPin, OUTPUT); digitalWrite(ledPin, HIGH);
// calibrate flex sensor for the first five seconds after program runs while (millis() < 5000) { // record the maximum sensor value sensorValue = analogRead(flexSensorPin); if (sensorValue > sensorHigh) { sensorHigh = sensorValue; } // record the minimum sensor value if (sensorValue < sensorLow) { sensorLow = sensorValue; }
} // turn the LED off, signaling the end of the calibration period digitalWrite(ledPin, LOW);}
void loop() { // light sensor read value val = analogRead(5); val = map(val, 0, 1023, 0, 179); myservo.write(val); //read the input from flexsensor and store it in a variable sensorValue = analogRead(flexSensorPin); Serial.println(sensorValue); // map the sensor values to a wide range of pitches int pitch = map(sensorValue, sensorLow, sensorHigh, 50, 4000); // Serial.println(pitch);
if (sensorValue < 290){ // play a variable tone as output tone(8, pitch, 20); delay(200); } else{ noTone(8); } // wait for a moment delay(100);}
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They liked it!User testing
Both cats played with the toy!
(Although shy Kalinka hid from it at first.)
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Humans can play too!User testing
Humans can also get in on the fun, bringing them closer to their pets and increasing enjoyment for everyone.
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Video
See the video of our user testing at: http://vimeo.com/78488147
Scan to view on your phone!
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Making of the Arduino CirCAT BoardConstruction process
Following is a series of photos showing our general process in working with Arduino and our toys.
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Examining the toys to see just how we can hack them
Trying the original toys
For our proof-of-concept prototype, we chose to use only a portion of the available track, just to make sure the sensors were easily triggered.
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Making the electronic components work
Wiring the Arduino
We used online tutorials and the help of our fellow classmates to determine how to wire all of the components.
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Making sure it’s doing what we want it to do
Testing and more testing
Before building the actual prototype, we had to test each component many times to make sure the output was what we expected.
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Hooking the sensors up to the toy
Putting the hacked toy together
We used hot glue to affix the toy together with our various sensors and other electronic components.
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Making sure the cats can’t chew through the wires
Covering the wires
For safety of both our cat users and our toy, we covered the wires and Arduino board using an inexpensive cardboard box that we decorated with paw-print paper.
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Thinking about materials and our processReflection
Originally we planned to add a feather that shakes, and LEDs to attract the cats’ attention depending on where the ball hit. We quickly decided not to use LEDs as it did not add much to the experience, and it would have gone mostlyunnoticed by the cats.
We added a piezo speaker instead to buzz when the ball pressed on it. While tuning the piezo, we started calling the beeping “the bird chirp”, and we tuned it to a noise that resembles a bird. As we were setting the pieces in their final spots, we realized we could integrate a toy bird easily.
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Things we’ll remember in the futureLessons learned
Prototyping is about playingWe eagerly iterated to improve our prototype aesthetically as well as functionally. We believe this was because we were having a lot of fun. Playing with Arduino as we started was essential to getting us excited about the technology, and triggered ideas for possible applications.
Don’t rebuild the wheel (or code)Rapid prototyping embraces the idea of proof-of-concept. It is OK to reuse code and re-purpose existing solutions to fit our concept. As long as it illustrates the interaction and it works, it’s fair game.
Tutorials, Youtube, and other people are keyLeverage existing knowledge for troubleshooting and to gain insights as to why something might not work.
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Things we want to try out next!Ideas for the future
We’d love to play around some more and try out the following with Arduino:
• Something wearable (cat collar Arduino?)
• A cat tracker (to easily find where they’re hiding)
• Embedding sensors in the house (ambient detection)
• Something that we could use on a regular basis (hacking or augmenting daily use items)
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We a-paw-reciate the help from the following:Spurrcial thanks
Austin ToombsIU’s HCI/d 2014 litter (cohort)