IOIO Seek Redux

I published my code for the IOIOSeek project to GitHub.

Here it is

Fork it, do what you will.

git hub ioio swantron

got git

My next step is to refine the project, add some automation, and make it cooler in general.

I grabbed a few thing to make that happen:

ioio seek solar panels extra

3x the possibilities

Second IOIO board for bootloader work…which will allow for bluetooth communications between the board and a phone. Two additional solar panels…to increase the complexity of my sensor setup.

Stay tuned…things should be in the works.

Android IOIO Project | IOIOSeek

I hope you don’t mind, but I went ahead and stepped it up a few notches.

My newest project brings my end-goal a few steps closer. I now have the pieces in place to put together an actual robotic implementation with the IOIO…since things have officially reached the cool stage, I decided to drop this as a stand-alone project. Complete with pics, a vid, and an app.

IOIOSeek:

IOIO android servo seek

dig the lighting

What I have here are two slider bar controlled servos, an analog input-read solar panel, and some LEDs toggled via a button. The control is via the IOIO / Android.

servos and solar panels on ioio android

dig the wires

The pictures, however nice, don’t really tell the story. Take a look at the video to see this thing in action:

As the video alludes to, I am going to run with this concept. The automation (robotics) lies in the analog reading with respect to the servo positions. I plan to ‘scan’ the panel…that is the piece that is missing. Once I can implement that mess, I will have a tracking system. Implementations will fall out of that.

analog input ioio

+1 tape

As with the last few projects, I have dumped the app on the Android Market for general perusal. The app’s description provides the details of the pin configuration, which is straight forward. I have two PWM outputs, a pure 3.3V digital toggle, and a pin configured for analog input. That is that.

I will push my code to GitHub as well eventually, and provide a link therein. I still need to polish my generic servo code, since my latency was borderline awful in retrospect. Look for that in the near future as well.

As always, drop any questions to joe[at]swantron[dot]com. Feel free to share your IOIO projects with me…

Arduino Solar Cell Night Light Concept

So, I’ve formalized the solar cell project I have been poking at for a while. I managed to clean up my code and mess with some initial conditions, etc., and now have a fairly solid proof of concept for a solar cell-centered night light.

lighty

you may want to ramp up that LED a bit

As was the case in my first few runs, my sketch incorporates a five second initialization phase. This acts to set both relative minimum and maximum values which act to provide “full light on” and “full light off” values, respectively. The generated power from the solar cell is read in to the Arduino via analog input, and the LEDs are driven via digital outs. The rest is some simple math that transforms the range of the analog signal into a digital range of zero to two hundo fifty five.

It’s giant-ass-text-having snippet time!

// Solar LED IO
// Joseph Swanson | http://swantron.com
// 2011

// Define constants
const int sensorPin = A3; // Solar cell Pin
const int ledPin = 5; // varuiable LED Pin

// Define variables
int sensorValue = 0; // wipe read value
int sensorMin = 0; // set initial min
int sensorMax = 1023; // set initial max

void setup() {

// turn on Pin 11 LED…indicates calibration period begin
pinMode(11, OUTPUT);
digitalWrite(11, HIGH);

// stay lit for five seconds
while (millis() < 5000) { sensorValue = analogRead(sensorPin); // adjust for real max if (sensorValue < sensorMax) { sensorMax = sensorValue; } // adjust for real min if (sensorValue > sensorMin) {
sensorMin = sensorValue;
}
}

// end Pin 11… calibration period finito
digitalWrite(11, LOW);
}

void loop() {
// read the solar cell analog
sensorValue = analogRead(sensorPin);

// apply a little calibration to the sensor reading
// bit from example sketch at http://arduino.cc
sensorValue = map(sensorValue, sensorMin, sensorMax, 0, 255);

// set constraint for outliers with respect to min/max
sensorValue = constrain(sensorValue, 0, 255);

// fade the LED from one to 255
analogWrite(ledPin, sensorValue);
}

Pretty straight forward. On to the vid…


It’s web2.0-too-many-script-ass-calling embedded video time!

Not too bad. Again, I used an Arduino Duemilanove and a Solar World panel. I might try to further this concept by incorporating my 120V switch and getting a lamp up in here. Stay tuned, as always.

Bonus LED Action

Aftermath of my last Arduino session in my garage/workshop? Bonus LED action.

bonus

bonus LED action is bonusy

It turns out my florescent lamp was pretty weak…the 7 O’Clock sun put it to shame, in the day-after mess of my ‘lab.’

Indirectly awesome.

***ADDITIONAL BONUS MATERIAL***

See if you can spot the following

* Netbook
* Notebook
* Zoot Badge
* Solar Panel
* USB cord
* Table
* Cardboard Box
* Other Random Electronics Crap

Good Luck!