Latest News

For the most recent updates, check my blog.

• A History of the Sky for One Year:: A full-year version of the project is available online.
• Recent Events: Create:Fixate and MAPP: Some pictures from some recent events where I showed A History of the Sky
• On July 28, 2010, I reached the one-year milestone, where I've collected images of the sky for a full 365 days. The camera continues to collect images from the roof of the Exploratorium, and I'm now in the process of post-processing the images and building the display.
• Success! My Kickstarter reached its funding goal. Many thanks to all of you who helped with your support!
• My project has been awarded the first Bay Area Awesome Foundation grant!
• I've created a project on Kickstarter where you can purchase these matted prints to help support the project. Help out if you can, and spread the word!

Project Overview

Time-lapse movies are compelling because they give us a glimpse of events that are continually occurring around us, but at a rate normally far too slow to for us to observe directly. A History of the Sky enables the viewer to appreciate the rhythms of weather, the lengthening and shortening of days, and other atmospheric events on an immediate aesthetic level: the clouds, fog, wind, and rain form a rich visual texture, and sunrises and sunsets cascade across the screen.

This is a work in progress. Currently, an image of the sky is being captured every 10 seconds from a camera installed on the roof of the Exploratorium, on the edge of San Francisco Bay. The images collected over each 24-hour period are assembled into a 6 minute movie (at 24 frames/second).

The final piece will consist of a large projected grid of 365 movies, each representing one day of the year, and cycling in parallel through consecutive 24-hour periods. The viewer can stand back and observe the atmospheric phenomena of an entire year in just a few minutes, or approach the piece to focus on a particular day.

This will also be an active piece. The camera will continue to collect images and integrate them with the montage daily. The visualization will therefore vary from day to day, and will always display the most recent 365 days.

Events and Exhbitions

Upcoming:

• Nothing on the calendar now. Check back soon...

Past:

• Mission Arts Performance Project, San Francisco, August 6, 2011
• Create:Fixate, Los Angeles, July 16, 2011
• The Exploratorium, San Francisco: January 2010
• Television of Tomorrow Conference, at the Yeba Buna Center for the Arts, San Francisco: March 3-5, 2010
• Maker Faire UK, at the Life Science Centre Planetarium, Newcastle UK: March 13-14, 2010
• Yuri's Night, NASA Ames Research Center, Mountain View, CA, April 9-10, 2010
• Google I/O Conference After Hours Party, at Moscone West, San Francisco: May 19, 2010
• Bay Area Maker Faire, at the San Mateo County Event Center: May 22-23, 2010
• SIGGRAPH Conference, LA Convention Center, July 25-29, 2010

Movies

Here is the latest full-year version of "A History of the Sky" (I suggest watching it in full-screen HD mode):

This is an earlier movie made from images from the camera's first 42 days on the roof of the Exploratorium. The earliest day is in the upper left, and consecutive days follow left to right, then down, with the most recent day in the lower right. It starts a little before sunrise, so it's dark for the first few seconds:

Keep in mind that all of the days are synchronized, so at any given moment, you're looking at the sky at the exact same time of day for each of the panels. The cascading effect at sunrise and sunset is caused by the variations in day length.

Here is a more recent movie, showing 126 days, with some titles and music thrown in (I encourage you to click through to YouTube and watch it in full screen at 720p):

Presentation

I envision this as a large projected piece, as illustrated at the top of thie page. However there are many possible approaches, and the site of installation could be a consideration. For example, the images could be arranged circularly, which would play interestingly with the year's cyclical nature. Here is another illustration of how the piece might be displayed:

The Camera Rig

The rig consists of an old four-megapixel compact digital camera controlled by a small, low-power computer. I looked into some of the "netcams" that are available, but even the pricey ones had unimpressive image quality. On the other hand, my old Canon A520 takes pretty nice pictures.

I'm trying to capture as much of the sky as possible, so I attached a wide-angle conversion lens, which fits over the existing optics.

The computer is a Soekris net4801, on which I've installed Ubuntu Linux. The hardware is intended for use as a general-purpose networking computer, but it works perfectly for this job, as it has a USB port, and ethernet ports (remote access is a requirement). This system has 4GB of Compact Flash storage, enough for several days' images. The software controlling the camera is gPhoto, an open-source image capture application.

This all fits inside of a NEMA Type 3 enclosure, which I salvaged from a junk yard.

The enclosure is mounted so that the optical axis of the camera points 45 degrees above the horizon. One important factor is that the sun never enter the frame. This would complicate exposure issues, and I think the piece works best with just sky, clouds, and fog. To accomplish this, the camera is faced due north. Even with the wide-angle lens, the sun will always be just out of view.

More pictures:

• Recent (within the last 10 minutes) image from Exploratorium roof
• Full Flickr set of current rig
• Flickr set of my first time-lapse rig

If you're interested in building your own system, check out my how-to article, "Slow Down To Speed Up" in issue 21 of Make Magazine.

Storage System

Images from the camera computer are are continually downloaded over the network to another system, sitting safely inside the building: a desktop PC running Linux, with a one-terabyte external RAID disk array.

Uptime

Maintaining uptime is important for this project. The camera computer and the camera itself run off an uninterruptable power supply. If the network is tempoarily interrupted, the camera computer can continue to store image files locally until connectivity is restored, and the downloads to the storage system can resume.

I also built a simple relay circuit to power cycle the camera if it gets in a bad state, which can be controlled by software (relay circuit is on the right):

Dealing with the Data This system will take over three million pictures over the course of a year. With a resolution of 1024 x 768, the image file sizes range from 100 to 200KB, which should total a bit less than half a terabyte per year. Due to the large number of images, these files need to be managed carefully, and accurate timestamping is crucial. All of the systems are configured to ignore daylight savings time, and each image is downloaded immediately after capture, and renamed according to its EXIF timestamp (the date and time info embedded in the image file). The images are organized into directories by day.

Processing the Images

The job of assembling the images into a movie is done on the main storage system. The process is currently a manual one, but will be automated in the future to produce a new movie every day, based on the prior 365 days' images. The process includes:

• Indexing the images, and dealing gracefully with any gaps in footage
• Resizing the images
• Composing individual images into the larger movie frames
• Assembling the composite movie frames into the final movie

More Information

If you have any comments or questions, feel free to contact me.