The Next Generation of Distributed Computing-PlanetQuest

Imagine the next generation of distributed computing -a way not just to contribute your cpu cycles to other people's science projects, but also to perform your own experiments, collaborate with others around the world in different types of observations, classify stars no one has ever classified before, and learn about math, astronomy, and physics. Imagine a distributed computing tool that encourages you to create and share your own constellations and asterisms, that allows you to participate in global observing missions, and that creates communities. Watch the PlanetQuest website for additional details soon about what we're building into the Collaboratory-there's nothing like it!

PlanetQuest Collaboratory: The Next Generation of Distributed Computing Current Status: Development and Alpha Testing
The PlanetQuest Collaboratory will turn your computer (Mac, PC, Linux, and others) into a virtual astronomical observatory that you can use to make and share real scientific discoveries. You can classify stars no one has cataloged before, use the Collaboratory to do your own research, and maybe even find a new planet! We are working hard to develop and test the Collaboratory (you can help by making a tax-deductible donation), but here's a preview.

Producing Light Curves, Point by Point
This is where you'll store all the discoveries you've made, including planet candidates, classified stars, asteroids, comets, new star types, and more. A treasure chest full of your real discoveries.

Light Curve Production

The world's first automated rapid light curve production facility, which you can watch as it works on your data. It takes raw pixel data from observations and corrects and normalizes, given input constraints and PlanetQuest optimization algorithms.

Star Summary
This shows up-to-date thumbnail information about your current target star, including coordinates, name, status, and other information. You can export target coordinates to either your telescope or third party observing software (like Celestia).

Stellar Neighborhood Explorer
This module allows users to explore the region around the star they are currently working on. It uses RA & Dec coordinates to overlay onto a navigable starmap, giving you an opportunity to explore the neighborhood and learn about the nearby stellar bodies and formations around them. Explore Your Target's Stellar Neighborhood

Stellar Classifier/Modeler
This is a real-time rendering of the current star's light curve against known models displayed in 3-d OpenGL format. Eclipsing Binary Classifier/Modeler

Similar to the above, but focused only on modeling and mapping eclipsing binaries.

Light Curve Planetary Detector
Once you've got a light curve drawn, you'll use this to see a real-time rendering of the current star's light curve against hypothesis tests in 3-d OpenGL format.

Planet Finder

You'll be using our unique algorithms to hunt for planets. Watch as your Collaboratory automatically calibrates itself based on your star's type and tries all possible mathematical combinations to uncover the planet that might be lurking around your star.

Interact
See who's working on stars nearby you in the sky and strike up a conversation! You can meet friends while you learn about the universe together. Create science teams with your new friends.
Learn
Learn about your discoveries! What's a Delta Scuti star? What's a Cepheid Variable? How do comets form? The answers are a click away in your Collaboratory.

Sky Spotting
Collaborate with other astronomers around the world to track and report on astronomical events. The Collaboratory provides an easy way to record your observations and share your discoveries with the world!

Real-time Light Curve Planetary Detector Run Your Own Experiments
Want to look for asteroids? Comets? Gravitational lense events? We've built
the basic algorithms right into the Collaboratory. You change the variables
and assumptions as you like.

My Stats
Allows you to view your and your team's current processing statistics.
Planet Formation Modeling

Optional experiment that allows you to run hypothesis tests using given mathematical models to understand how and why planets form. The Collaboratory returns the degree of correlation for given models. You can help scientists learn how and why planets form the way they do!