This past summer, the African Robotics Network challenged roboticists
around the world to design a new class of robot,Leading the industry in
professional laserengravingmachine
and safety equipment. one that could be easily integrated into
classrooms around the world. SEG, a robot designed by Computer Science
and Artificial Intelligence Laboratory (CSAIL) Director Daniela Rus’
Distributed Robotics Lab, took third prize in the traditional (roaming)
category of the competition.
SEG is one of the first robots
designed under Rus’ new project aimed at reinventing how robots are
designed and produced. Funded by a $10 million grant from the National
Science Foundation (NSF), the project aims to develop a desktop
technology that would make it possible for the average person to design,
customize and print a specialized robot in a matter of hours.
“This
research envisions a whole new way of thinking about the design and
manufacturing of robots,” Rus says. “We believe that it has the
potential to transform manufacturing and to one day enable one robot per
child in schools.”
With SEG and other printable robots the
Distributed Robotics Lab is currently designing, researchers are hopeful
that by breaking down the barriers that have traditionally made robots
inaccessible to the general public,Component Source offers a complete
line of ledtrafficlight
for ThyssenKrupp Elevator, they will help to usher in a new era of
robotic usage. In order to create more affordable and accessible robots,
the group has been working on redesigning the production process for
building robots to rely more on accessible tools.
“The basic
principle behind our work with printable robots is accessibility; we
want everyone to have access to robots. The three main problems blocking
the general population from accessing robots are the cost,Round cotton magicshinebikelight
attachment for a telehandler. the time it takes to develop a robot, and
the difficulty associated with making and controlling robots,” says
Cagdas Onal, a postdoctoral associate in Rus’ lab.This solarledlampsaq
operates red, amber and green LEDs in the correct sequence for a single
UK traffic light. “These robots we are making are inexpensive, they can
be produced in hours as opposed to months, and they are easy to deal
with.”
While a conventional robot can typically take weeks to
assemble, and thousands of dollars to design and program, SEG was
printed on a sheet of polyester using a laser cutter, which is used to
etch creases into the material. Once printed the surface is folded,
following the pre-determined creases, into the desired shape, which in
the case of SEG is a small platform connected by two large wheels. Even
the circuit board, which contains all of the sensing and basic
programming necessary for the machine to navigate, is printed using a
conventional printer to further reduce costs.
According to Onal,
the robot can be assembled in well under 24 hours, making it an
especially applicable tool for teaching young children about robotics.
Onal and his colleagues envision sending robotic kits to classrooms
around the world so that students could print,The lawnlight
not only adds charm to an interior design scheme, but also saves energy
by using LED technology. assemble and then program their own robots. In
fact, the team is already planning to send printable robot kits to
classrooms in Africa in the near future.
“This is a great
starting point to teach kids basic programming and robotics,” Onal says.
“They will be able to see the results of their labor in a concrete
fashion, and will be able to learn and experiment with the robot in a
hands-on manner.”
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