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My summer lab at NASA GSFC included a high school media team, who continuously had the rest of us on film. They compiled a great documentary describing the two main projects going on in the lab — the Greenland ROVER and Lidar-Assisted Robotic Group Exploration:

Engineering Boot Camp Documentary 2011

There are some other videos up now, too — click over to the GSFC robotics youtube channel; there are more than I’m linking here:

GROVER on the beach: The Greenland ROVER during a test run on the beach, during our trip to Wallops.

LIDAR image test: Watch a 360-degree image from the LIDAR sensor on one of my team’s robots as it’s formed.

I encourage you to take a look!

Wallops photos!

Earlier this month, everyone in my lab took a trip to NASA Wallops Flight Facility and Assateague State Park to test GROVER2 on the beach. There’s a video of some of the lab’s preparations over on Geeked on Goddard – take a look!

Although I’m not specifically working on GROVER2 (I’m working on the LIDAR-assisted robotic group exploration project, as briefly mentioned earlier), it was a good trip. A few photos:

A control center we saw while touring the Wallops facilities

One of the ballons constructed by the Wallops balloon program researchers

We spent the night at Wallops; I spent three minutes outside taking photos of the sky and was biten at least five times by mosquitos

We were on the beach bright and early! I took a bunch of photos of the sunrise.

GROVER2's first field tests on the beach.

Questions vs answers

Recently, I had a discussion with a friend about the key difference between science and engineering.

As a computer engineer, my friend found that the more advanced his coursework got and the more he learned about electronics, circuits, and microprocessors, the better he understood the subjects as a whole.

Which shouldn’t be too surprising. That’s the point of a college engineering degree: learn how stuff works and how to make stuff work.

But me, I find that as I learn more about brains and minds, filled with complex interactions between neurons, glial cells, neurotransmitters, and hormones, the picture gets steadily more complicated. The universe is one big dynamic system, full of chaotic pieces, and I keep finding more questions. The more I learn, the less I know.

That’s the scientist’s perspective on the world: more knowledge means more questions. More astonishment, more confusion.

(This is not a novel pronouncement, merely a recent observation supporting previously suggested differences between the two disciplines.)

A month after graduation, I’m well on my way to learning all sorts of crazy new things.

This summer, I’m learning about…

• HAM radio. On Tuesday, I attended the first of a summer-long amateur radio FCC licensing class. I know very little about radios and their components – the president of GSFC’s amateur radio club told a story about how easy it was to build a circuit to convert 5 volts down to 3.3 volts, and kept throwing out electronics jargon. I’m looking forward to increasing my knowledge of the subject!
• Computer innards. On a similarly technical note, my laptop’s hard drive stopped spinning up last week. With the help of a computer engineering friend, I opened up the laptop and replaced the drive. Didn’t even lose a screw! It’s a small step into the world of computer hardware, but that was the first time I’ve opened up a computer, so it counts for a lot.
• Multiple realizability. That is, that people can take entirely different paths to the same place. People with ridiculously different beliefs can still be thinking exactly the same thing at exactly the same time on ridiculously frequent occasions.
• Tae Kwon Do. An activity I’d never done before: martial arts! All the interns/apprentices in my lab this summer were encouraged to try it out, since the GSFC club is so friendly. We’ve learned miscellaneous self-defense maneuvers and more ways of kicking than I remember names for – I even got to kick through a board!
• And software… My lab group is using a variety of software tools and open source code libraries that are new to me: ROS (the Robot Operating System), a code repository via SVN, the MRPT libraries, the point cloud library (PCL), and many more. I’m remembering C++, delving into path planning algorithms, and reading up on SLAM (simultaneous localization and mapping). Yes, it’s a whirlwind of acronyms.

Don’t ever stop

This one’s a life update post, but it’s also a “here’s some cool science!” post.

A few days ago, I graduated from Vassar College with a Bachelor of Arts in Cognitive Science and a correlate in Computer Science. I was decorated with general honors, departmental honors, membership to Psi Chi, and membership to Sigma Xi. My time there was awesome.

What’s next?

No lazy summer!

Well, no lazy summer break for me! I’ve already spent three days in my summer lab at NASA Goddard Space Flight Center, where I’ll be working on a number of software development projects. The primary one is a LIDAR-assisted robotic group exploration project, in which we’re going to have a small fleet of robots — a mothership and some workerbots — use 3D LIDAR data to autonomously map and plot paths through an area. This kind of robot fleet could, eventually, be used to explore other planets. One of the big challenges will be dealing with the 3D image data. I’m looking forward to learning more image processing algorithms!

Another project is the redesign of the Greenland Robotic Vehicle, a big autonomous rover that’ll drive across Greenland, collecting a data about snowfall, mapping, and exploring. Did you know there’s ice on that country two miles thick? I may also get to play with a robot that has stereo vision.

You can see some of these robots (and what life in the lab may be like) in this great video about last year’s interns.

So far, I’ve met a bunch of intelligent, friendly folks, started catching up on already-written code, and begun to delve into the platforms, libraries, and algorithms we’ll be using and developing this summer. Our mentors have already proven themselves to be enthusiastic and helpful. Just yesterday, one of them told us,

“You’re engineers at NASA. You want to go where things are, and then go beyond.”

That may end up being our theme for the summer.

A little overwhelming?

There’s going to be so much going on. It’d be easy to get overwhelmed — especially now, jumping in and floundering around in the code, the projects, the people. So much to learn.

But as I sat in the lab today, reading about ROS, going through tutorials, reading about PCL and feature detection in point clouds, digging through last summer’s confusing pile of C# and C++ programs, I realized I wasn’t overwhelmed. And it was because of all the other experiences I’ve had that’ve gotten me to this point.

Confidence. My first URSI summer, flailing through Microsoft Robotics Studio and complicated conceptual theories. Figuring out how to deal with webcams and image data my second URSI summer, reading papers on optical flow and implementing algorithms. Last summer: excavations of an open source flight simulator, the Aeronautics Student Forum, dealing with different work styles and communication styles in my LARSS lab. And more.

I think about all those experiences, and I’m not afraid of this summer. I could almost be overwhelmed — perhaps thinking that everyone else has more of the right kind of experience; I wasn’t trained as a classic engineer — but I know I can succeed. My non-engineering, cognitive science background sets me apart and lets me look at problems a little differently than everyone else. I’m an asset.

I know how to learn. I know how to do research.

I can conquer this summer.