Chuck Hoberman

Chuck Hoberman (born 1956 in Cambridge, Massachusetts, US) is an artist, engineer, architect, and inventor of folding toys and structures, most notably the Hoberman sphere.

Chuck Hoberman
Hoberman (right) speaking with MIT design professor Neri Oxman
Occupationartist, engineer, architect, and inventor of folding toys
Known forHoberman sphere

Early life and education

Hoberman's father was an architect, and his mother was a children's book author.[1] He wanted to be an artist from an early age, doing drawing and painting, and eventually taking courses at Cooper Union in New York City. He studied liberal arts at Brown University, and went on to earn a bachelor's degree in sculpture from Cooper Union in 1979, and a master's degree in mechanical engineering from Columbia University. At some point during his education, he was asked to produce a sculpture that could move. He made a work that unrolled colored plastic sheets on the floor, and he became fascinated with kinetic art.[1] Finishing his formal education, he then went to work for a robotics engineering firm, where he added computer modeling (CAD-CAM) to his skills.[1] After six years, he left to pursue his artistic and technical interests full-time.

Temporary and permanent installations

The second largest Hoberman sphere is displayed at Liberty Science Center in Jersey City, New Jersey, in an atrium where it periodically contracts and then expands to a diameter of 18 feet (5.5 m).

Hoberman also has designed folding architectural structures like the Expanding Hypar (1997) at the California Museum of Science and Industry; the Hoberman Arch, the centerpiece of the medals plaza for the 2002 Salt Lake City Olympics; and a retractable dome featured at the World's Fair 2000 in Hanover, Germany. His artwork has been exhibited at international museums including the New York's Museum of Modern Art, the Centre Georges Pompidou in Paris, and the Mycal Otaru Bay in Hokkaidō, Japan.

Hoberman has installed permanent building facades that transform in transparency at the Wyss Institute for Biologically Inspired Engineering of Harvard University and the Simons Center for Geometry and Physics at Stony Brook University.[2]

In July 2011, the rock band U2 concluded a nearly three-year world-wide concert tour (called "360°") that featured Hoberman's expanding video screen, a 3,800 square feet (350 m2) elliptical display that would grow into a seven-story cone. The display weighed 120,000 pounds (54,000 kg), and incorporated 888 LED screens displaying a total of 500,000 pixels. The complex apparatus was successfully transported and reassembled for 110 concerts during that time.[2]

Toys

In addition to toys such as the Hoberman sphere, Hoberman created the BrainTwist, a hard plastic tetrahedron that folds, stellates, and becomes self-dual while having a component that rotates similarly to a Rubik's Cube. Likewise, Chuck Hoberman's Pocket Flight Ring is a folding, throwable toy resembling a chakram. Hoberman has also created the Expandagon Construction System, a kind of construction toy.

Business

In 1990, he formed Hoberman Associates. In 1995, he co-founded Hoberman Designs with his wife and business partner, Carolyn Hoberman.

Teaching

Second largest Hoberman sphere in the world, undergoing maintenance at Liberty Science Center

In the Fall 2012 term at the Harvard Graduate School of Design, Hoberman led "Transformable Design Methods", a hands-on design course. Three-person student teams devised transformable structures under Hoberman's guidance, which were exhibited publicly in early 2013.[3][4]

In the Spring 2013 term at the Massachusetts Institute of Technology, Hoberman co-taught a course with MIT professors Erik Demaine and Daniela Rus called "6.S080: Mechanical Invention through Computation". Student teams built transformable structures, including scale models and a full-sized reconfigurable table, which were exhibited in mid-2013.[5][6]

Awards and honors

In 1994, the Museum of Modern Art added the Hoberman sphere into its permanent collection.[7] Hoberman won the Chrysler Design Award for Innovation and Design in 1997 and was a finalist for the 2000 Smithsonian National Design Award.

Patents

Hoberman has been granted numerous US and foreign patents including for:

Reversibly expandable doubly-curved truss structure [8]
Radial expansion/retraction truss structures [9]
Curved pleated sheet structures [10]
Reversibly expandable structures having polygon links [11]
Continuously rotating mechanisms [12]
Loop assemblies having a central link [13]
Retractable structures composed of interlinked panels [14]
Folding covering panels for expanding structures [15]
Geared expanding structures [16]
Synchronized ring linkages [17]
Transforming puzzle [18]
Synchronized four-bar linkages [19]
Panel assemblies for variable shading and ventilation [20]
Covering structure having links and stepped overlapping panels [21]
Panel assemblies having controllable surface properties [22]

Exhibitions

gollark: Now, *technically* I could implement all the filtering and sensor fusion algorithms and calibration myself in python, however no.
gollark: So, I want to read some values from an I2C device. Now, you might think "foolish gollark that's something like 50 lines of python at absolute most", and it is except to get anything but raw values I need to use some on-chip "digital motion processor" which is extremely poorly documented.
gollark: Yes, I was replying to ubq.
gollark: I'm having to edit and use 3000 lines of code I don't understand which is doing low-level sorcery to interface with some hardware.
gollark: What did you THINK horrible constant segfaults meant?

See also

References

  1. "Chuck Hoberman: Unfolding Structures". Lemelson-MIT Program, Massachusetts Institute of Technology. Retrieved September 7, 2019.
  2. "News". Hoberman: Transformable Design. Hoberman Associates, Inc. Retrieved 2014-04-03.
  3. "New Generation of Transformable Design: Student work on exhibit at Harvard GSD". Hoberman: Transformable Design. Hoberman Associates, Inc. February 2013. Retrieved 2014-04-03.
  4. "Transformable Design Methods". Harvard University Graduate School of Design. President and Fellows of Harvard College. 2013. Retrieved 2014-04-03.
  5. "About". 6.S080: Mechanical Invention through Computation. Massachusetts Institute of Technology. Spring 2013. Retrieved 2014-04-03.
  6. "Lectures". 6.S080: Mechanical Invention through Computation. Massachusetts Institute of Technology. Spring 2013. Retrieved 2014-04-03.
  7. "Hoberman Sphere". The Collection. The Museum of Modern Art. 1994. Retrieved 2014-04-03.
  8. US 4942700
  9. US 5024031
  10. US 5234727
  11. US 6082056
  12. US 6190231
  13. US 7100333
  14. US 6739098
  15. US 6834465
  16. US 7464503
  17. US 7540215
  18. US 7125015
  19. US 7644721
  20. US 7584777
  21. US 7559174
  22. US 8615970
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