Good grip: A new approach allows a complicated robotic hand to grab an object more easily.
Matei Ciocarlie and Peter Allen, Dept. of Computer Science, Columbia University
A new approach lets dexterous robotic hands grasp easily.
One of the main things preventing robots from lending a hand with everyday tasks is a simple lack of manual dexterity. New research from a team at Columbia University could help robots--and robotic prosthetics--get a better grip on all kinds of objects.
Peter Allen, a professor at Columbia University and director of its Robotics Group, and colleague Matei Ciocarlie developed a simpler way to control a dexterous robotic hand by drawing on research in biology. They realized that while human hands have about 20 degrees of freedom (20 joints that can each bend), each joint is not capable of moving completely independently; instead, its movements are linked to those of other joints by muscles or nerves.
Traditionally, the software used to control a complex robot hand has tried to account for all the degrees of freedom in the robotic hand's joints, but this is computationally cumbersome and slows the robot down. Instead, Allen and Ciocarlie decided to limit the movement of a robot hand in the same way a human hand is limited. By linking its joints in this way, they showed it is possible to control a complicated robotic hand with faster, more efficient algorithms and without losing any of its functionality. "You can learn from biology to reduce the degrees of freedom," says Allen. "Even though you may have 20 degrees of freedom, you don't need to use them."
The researchers experimented with four different kinds of complex robotic hand, each of which had multiple joints. They developed software to control each gripper by linking its joints. In simulations and real-life tests, the software was able to quickly calculate grasping positions in order to grab different objects, including a wine glass, flask, telephone, model airplane, and ashtray.
The system works in two stages. First it chooses an array of possible grasping motions depending on the angle at which the hand is approaching the object. Second, it selects from these positions the one that will provide the most stable grasp. Then, if the controller thinks the grasping position looks right, she can give the command and the hand will take hold of the object.
"Grasping objects with a human-like hand is a seemingly complex computational problem," says Charlie Kemp, a professor at the Georgia Institute of Technology, who has developed robots capable of grasping unfamiliar objects. "This work suggests that there is an underlying simplicity. It shows that a complex hand may not require a complex brain."
Simple and versatile robotic hands can grip a football or pick up your keys.
A new artificial hand shows promise for home robots and prosthetics.
By shoving objects around on a table, UMan figures out how they work.
In my opinion this still represents an advance in prosthetic hands. Automatically adjusting itself to grip objects of many different shape is of course important.
The video is excellent, they should sell the software for people designing new prosthetic hands or robotic grippers, because you could test the design very quickly to see how effective it is!
Dr. Brian Glassman
I was impressed up to the point where the commentator said it needs to have a virtual model of the object fed into it before hand.
This makes it currently virtually useless for real World use. (punt intended..)
Oh well, keep up the work lads.
Right. Do this for me:
1) Stick your hands in a bucket of ice for 25 minutes.
2) Close your eyes.
3) Start guessing where things are and trying to pick them up.
Then tell me what the point was.
They are researching kinematics as they relate to grasping, not stereoscopic vision or touch-feedback mechanisms.
Manufacturing in the United States is in trouble. That's bad news not just for the country's economy but for the future of innovation.
This document is part of the “How-To Guide for Most Common Measurements” centralized resource portal. This tutorial provides a detailed guide for measurement and device considerations to take temperature measurements using thermocouples. Get an introduction to thermocouples, which are inexpensive sensing devices widely used with PC-based data acquisition systems. Also review some specific thermocouple examples and learn how thermocouples work and ways to integrate them into a data acquisition measurement system.
View full PDF >
Listen to story > 
Our list of the 50 most innovative companies, including the following:
On Twitter
Become a Fan on Facebook
Subscribe to the Feed
Manuvidya
19 Comments
Wow..
..that was absolutely worthless. Even the way the bottle/flask was picked up wasn't like general human behaviour as a human would've picked it up from the side, grasping the neck and the part where the flask widens.
No wonder robotics are hard when the people developing basics like grasping stuff are bent on reinventing the wheel several times over.
The money that went into all this research could possibly have meant a break-through on a more humane project, like I don't know, cure cancer.
Ah well, with all these new insights into a robots hand, people that loose an arm or hand or leg from any of the still rampant diseases can at least count on a brand new artificial limb with new grasping capabilities. Way to go.
Reply
Monsterboy
92 Comments
Re: Wow..
That's... just weird. You seem to be suggesting that no other scientific research should be done until all disease is cured.
Actually, yes, people who've lost a limb to disease -- or, more likely, accidental injury -- could benefit from this. And that's pretending there are no other useful applications for grasping robotic hands.
How much do you think this cost? With the billions in public and private funds channeled annually into medical research, do you really believe the piddling amount this cost was going to push it over the edge to success?
That is madness.
Reply
briang1621
173 Comments
Re: Wow..
Hey if you do not like Robotics because it is slow to develop real world applications, then you will really hate astronomy, or particle physics!
Brian
Reply