Here’s a look at how the teams’ beests have developed after 20 full hours of hacking (and some napping and snacking):
T-11 hours until the end of the Hackathon!
While some folks have taken the opportunity to rest their eyes, many of the teams are still hard at work making AMAZING creations. Each team seems to have taken their own unique approach to the challenges, and we are loving what we’ve seeing so far.
Who do you think will take it all? Let us know by tagging @peabodyessex #PEMhack!
Team Name: Clark School Solvers
Team Motto: We’re gonna be the very beest, like no one ever was!
Materials Being Used: A little bit of everything.
Beest Bio: Unwilling to give too much away, one thing this team will disclose is their dedication to Strandbeest evolution. If everything works out the way they plan the whole world could open up to the beests.
Beestly Blurb: This team’s innovation could be huge for the species as a whole.
Our hackers are hard at work building their beests. Each team brings something different to the table; unique perspectives, vibrant energies…and big plans for their beests!
That’s why the next few posts will be devoted to Team Spotlights.
But before we dive into that, here’s a quick overview of the criteria that will be used to judge our hacker’s creations:
- Survivability! Or the beest’s ability to thrive. Will the beest be able to sustain itself in its given environment?
- Imaginative Adaptations! Or the creativity of the beest. Does the beest represent the next step in Strandbeest evolution?
- Reproductibility! Or the aesthetics of the beest. Is the design easy to replicate and does it inspire others to do so?
We’ll see which of our teams hits all of the above criteria, and keep an eye out for those Team Spotlights. Don’t forget, the winning team will have their hack featured in the Strandbeest exhibition!
The teams are gathering their supplies, and the beests are ready to evolve!
Theo Jansen spoke of evolution earlier today when he met with the hackers. He stated how the beests “use humanity to multiply”, and how the hackers will contribute to their evolutionary history.
The name of the game? Survivability! It is Theo’s dream that his animals will thrive long after he is gone. The challenge that the teams will face is creating a creature that’ll be able to sustain itself within its given environment.
The two types of animals in question? “American mutants” built from electrical conduit PVC pipe (larger than the Dutch PVC which Jansen uses), and beests of a different structure and genetic code all together.
With the larger PVC piping Jansen expects not only a bigger beest, but a bigger challenge. When creating these “American mutants” the hackers must pay special attention to the pipe joints, and “develop their own language” with the tubes.
The poetics of Jansen’s language (and his special relationship with the Strandbeests) was demonstrated earlier today when the hackers encountered his creations up close. Each team drew inspiration from the joints and spines of Jansen’s unique animals.
As for the other structures to be utilized throughout the hackathon?
Time will tell how these will contribute to the evolution of the beests.
Hello fellow hackers!
Today is a beautiful day to have a 24-hour hackathon, don’t you think? We have eight fantastic teams ready to step up to the plate and solve some #Strandbeest challenges.
Want to see how the teams progress? Want to get a first-hand look at Hackathon happenings? Follow @peabodyessex #PEMhack on Twitter and Instagram. Use #Evolucionarios #MullenLowe #ClarkSchoolSolvers #PEApod #MayorsOfSimpleton #HampsteadAcademyHackers #DADAs and #Devilbeests to reach out and keep track of specific teams.
Want to video in? Skype us @maker.lounge
Stay tuned, we’ll be releasing the challenges soon!
T-4.5 hours until the Hackathon begins…
The time has come to release our Hackathon challenges! Below are two design prompts inspired and devised by Theo Jansen himself. We’ve also included the list of supplies we have given each team in case you would like to give the challenges a shot from the comfort of your own home, office, or work space.
Make sure you share your final products with us by tagging @peabodyessex #PEMhack #Strandbeest on Twitter and Instagram!
Background – After sharing the genetic codes of the Strandbeest with the world, Theo Jansen has been pleasantly surprised by the new iterations of the creatures produced by his fans. Impressed by the cleverness of the Beests and their continued use of humans to ensure their reproduction and survival, a new type of Strandbeest is waiting to be conceived.
Problem to solve – The Dutch electrical conduit PVC tubing that Jansen’s Strandbeests are built from is not sold in the United States. It is not an easy material to obtain, and makes building a large scale Dutch Beest in Salem, MA both impractical because of the material and impossible, because Salem isn’t in Holland.
The alternative and your challenge, should you choose to accept: Conceive of and create a the beginnings of a Beest that will be build from electrical conduit PVC available locally.
Please consider the local environment that this Beest will be living, and how this Beest will contribute to species as a whole. Also, what are the advantages and disadvantages of the American PVC?
- 30-40ft of 1-inch diameter Electrical PVC conduit
- Zip Ties
- Various fasteners
- Drinking straws
Background – The Strandbeest’s genetic code, developed by a computer program in 1991 is known as the 13 holy numbers. Theo Jansen has used this genetic code to create the leg and leg movements of the Strandbeests for nearly 25 years. This code has allowed his Strandbeests to walk with relative ease and produce the movement that we find so captivating. Some Strandbeest mutations have slightly different genetic codes, and Jansen himself has praised their efficiency.
When giving advice to students about building their own Strandbeests, Jansen will often explain that the crank system is typically the component with the most problems. This is both due to the mechanics and the PVC tubing.
While he himself is committed to the PVC tubes and the original genetic code, we’d like to see your team shake things up.
Challenge: Develop a genetic code for a strandbeest specifically adapted to a non-PVC material.
You must be able to defend the code that you have created and demonstrate why/how your adaptation serves the particular Strandbeest mutation, and how you think it will help to ensure the survival of the species.
Also consider, where will this Beest live?
- Cardboard Drinking Straws
- Craft Sticks
- Pool Noodles
- Zip Ties
- Duct Tape
*You may choose a different non-PVC material and bring it to Hackathon.
Tools/Supplies Available for all teams:
- Heat Guns
- 1 Power Drill
- 1 Rotary Cutter 1 Jigsaw
- Basic Toolbox (hammers, screwdrivers etc.) Extension Cords
- 1 Laser Printer
- 1 Silhouette Printer