Humans and machines behave in very different ways when it comes to doing simple tasks. That does not mean both cannot work together, as proved by the following experiment where a robot learns how to resemble the hand movements of a human when grabbing an object.
Automated mechanical system, also referred to as a robot, are quite capable of performing complex tasks much efficiently than humans. But, when it comes to carrying out an action as simple holding an object of varying shape, size and weight, unlike humans, they are unable to process this information. Hence, it results in the application of a single, uniform force while grasping different objects. This also prevents a smooth human-to-robot object handovers.
To rectify these underlying issues, NVIDIA researchers in the Seattle AI Robotics Research Lab have developed a human-to-robot handover method wherein robots can gradually develop a perception system to accurately identify objects and accordingly execute hand movements.
Learning via Neural Networks
To begin with, the research team first defined a set of hand grasping movements such as on-open-palm, pinch-bottom, pinchtop, pinch-side or lifting. This was done to help a robot learn how a particular object is handled by a human.
Then, with the help of a deep neural network, these sets were fed into a cloud system so that predictions could be made by robots as to how humans hold certain objects and thus, which hand grasping movement should be selected. This dataset, composed of eight subjects with various hand shapes and hand poses was created using a Microsoft Azure Kinect RGBD camera.
Next, the researchers made the orientation of the robot’s grasp similar to a human’s grasp. They implemented this using the PointNet++ architecture. The team gave the robot canonical grasp directions, which further made the robot’s motion and trajectory as natural as possible.
In conclusion, the system consistently improved its grasp success rate while reducing the total execution time, which proved the efficacy and reliability of this method.
The system results would greatly benefit warehouse robots, as well as kitchen robots to fluently complete the handover (of objects) and thereby, better interact and coordinate with humans.
Despite the success, the team plans to introduce additional grasping techniques in the dataset so the robot can learn and improve even more.
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