San Diego, Oct. 2, 2013--What does autonomy mean in an age when technology is radically transforming the ability of objects and even ideas to have a life of their own – from smart cars, to viral videos?

That’s the big question addressed in a new exhibition to open Oct. 9 in the gallery@calit2, the art-and-technology space of Calit2’s Qualcomm Institute in Atkinson Hall on the UC San Diego campus. CalledAUTONOMOUS, the exhibition is the brainchild of curator Jordan Crandall, professor and chair in the university’s Department of Visual Arts. The exhibition runs through January 30.

“Aspects of our world that were formerly considered inert are becoming endowed with communicative ability and intelligence,” said Crandall. “Capacities of sensing, processing, communication and actuation are woven within and across the boundaries of objects, spaces, and systems at multiple scales… often bypassing the sensory and cognitive capacities of humans. So to what extent can we regard these forms as ‘autonomous’?”

Groping for an answer to that question, Crandall pulled together works by a dozen artists and researchers. The works represent a dizzying array of concepts that approach the concept of autonomy from very different angles. Some of the installations are interactive, some not. Some of the works are by dyed-in-the-wool artists, while others originated in the minds of scientists and technologists.

Take MIT’s Skylar Tibbits and Arthur Olson of The Scripps Research Institute in La Jolla. Together, they produced Autonomous Mass-Assembly. The work is the latest in a series of pieces based on the notions of self-selection and self-assembly. The 2013 installation uses an agitation machine to energize roughly 240 pieces modeled on the polio virus capsid. Each autonomous piece appears to assume a life of its own as it self-assembles with other pieces into closed, molecular-type structures. Certain parts appear to be attracted to others (mirroring patterns in life with complementary chemical traits and the left- and right-handedness known as chirality). 
 

“Over time and with the right amount of energy, precise structures emerge complete and self-sorted,” explained Tibbits and Olson. “This continual process shows the various stages of assembly from independent parts to a mixture of assembled parts, then a bath of fully assembled structures and finally with additional energy input broken again into autonomous pieces.”

Another 2013 piece,Liberator, is an object fabricated using 3D printing – the rapid prototyping of a solid object by building it up from melted polymer, one layer at a time. The design originated with Defense Distributed, an open-source organization that designs, develops and publishes design schematics that can be downloaded and reproduced with a 3D printer. In May, Defense Distributed made headlines worldwide when it released the files for printing the Liberator pistol, the first, fully 3D-printable gun made widely available online.

The files were downloaded over 100,000 times in the two days before the U.S. Department of State Office of Defense Trade Controls Compliance demanded that they be taken down. According to curator Crandall, the project “connects to new processes of additive manufacturing and the questions that arise – about production, ownership, materiality and ethics – when objects can be transmitted, customized and reproduced through the agency of individuals.”

The autonomous nature of modern weapons technology is also on display in German artist and film director Harun Farocki’s video piece,Auge/Maschine II (Eye/Machine II in English). Produced in 2002, the 15-minute video integrates military and civilian material – some real, some imagined using special effects – underscoring how computer vision has overtaken human sight, especially as a witness to history, turning the traditional man-machine distinction into an eye-machine divide.

“Intelligence is no longer limited to humans,” observed Crandall. “Human vision cedes to the power of global and tactical warning systems, surveillance apparatuses, and smart weaponry. The exhibition includes a series of works from the 1970s that offer new insights into the production process of artist Donald Judd. Four drawings of his works are paired with four fabrication drawings.

“Judd considered his sculptures to be specific and autonomous, to a certain extent, and the relationship between the sculptures and their fabrication process is key to understanding this,” explained the show’s curator. "In transferring a significant level of decision-making regarding details to his fabricators, Judd added a dimension of specificity that was unique to each work, in ways that foregrounded the role of craftsmanship. This ‘transference’ suggests new approaches to materiality in art and objecthood today. It offers new insights into the relationship between art work and the production process.”

Other works on display in the gallery@calit2 include:

  • Rami: Givati Brigade, Rotem Regiment, Golan Heights, Israel (2000), by Rineke Dijkstra;
  • Network B (2009), generative software by Casey Reas;
  • Untitled (Passenger #3), from a series of photographs of airline passengers, by John Schabel; and
  • Untitled, What Followed Was Amazing Bliss (2013), a video project with custom software by Nathan Wade.

http://www.calit2.net/images/graphics/arrows.gif);">Two UC San Diego works will also be exhibited. The first is View from Curiosity, August 2012, for which Trish Stone, an artist who performs visualization research in the Qualcomm Institute, manipulated an image from NASA/Jet Propulsion Laboratory at Caltech to produce large ink-jet prints.

The second work is a Mass-Efficient Deployable Tensegrity Structure. Made of balsa wood and tensioned string, it was built by Robert Skelton, a professor of mechanical and aerospace engineering in UC San Diego’s Jacobs School of Engineering. Tensegrity is a growing paradigm for designers of new materials and structures. Composed of continuous strings and sticks, structures built with tensegrity are malleable, flexible and adaptable. How they are put together can change the materials’ acoustic, mechanical or electromagnetic properties.

Tensegrity structures could be deployed into space as light-weight antennae, mirrors and satellites, or be used for airplane wings, water craft or anything else that needs to change shape to reduce drag,” said Skelton. “Built-in actuators, sensors and power storage devices make tensegrity structures a very attractive alternative to conventional designs for material systems.” 

Related Links

gallery@calit2

Media Contacts

Doug Ramsey, 858-822-5825, dramsey@ucsd.edu

Exhibition Dates October 9-January 30, 2014

October 10-December 20, 2013

January 6-January 31, 2014

Location: gallery@calit2, First Floor, Atkinson Hall, UCSD