Festo pneumatic robotics get to grips with artificial intelligence
09 April 2019
Whether it’s grabbing, holding or turning, touching, typing or pressing – we use our hands for the most diverse tasks. The human hand, with its unique combination of power, dexterity and fine motor skills, is a true miracle tool of nature.
So, what could be more natural than equipping robots in collaborative workspaces with a gripper that is modelled on the human hand, and which solves various tasks by learning through artificial intelligence?
Festo showed its pneumatic BionicSoftHand at Hanover Fair 2019. Combined with the BionicSoftArm, a pneumatic lightweight robot, the Future Concepts are suitable for human-robot collaboration.
The BionicSoftHand is pneumatically operated, so that it can interact safely and directly with people. Unlike the human hand, the BionicSoftHand has no bones. Its fingers consist of flexible bellows structures with air chambers. The bellows are enclosed in the fingers by a special 3D textile coat knitted from elastic, high-strength threads.
With the help of the textile, it is possible to determine exactly where the structure expands and generates power, and where it is prevented from expanding. This makes it light, flexible, adaptable and sensitive, yet capable of exerting strong forces.
Learning methods of machines
The learning methods of machines are comparable to those of humans: they require a positive or negative feedback following their actions in order to classify and learn from them. BionicSoftHand uses the method of reinforcement learning.
This means that instead of imitating a specific action, the hand is merely given a goal. It uses trial and error to achieve its goal. Based on received feedback, it gradually optimises its actions until the task is finally solved successfully.
Specifically, the BionicSoftHand is required to rotate a 12-sided cube so that a previously defined side points upwards at the end.
The necessary movement strategy is taught in a virtual environment with the aid of a digital twin, which is created with the help of data from a depth-sensing camera via computer vision and the algorithms of artificial intelligence.
Proportional piezo valves for precise control
In order to keep the effort of tubing the BionicSoftHand as low as possible, the developers have specially designed a small, digitally controlled valve terminal, which is mounted directly on the hand.
This means that the tubes for controlling the gripper fingers do not have to be pulled through the entire robot arm.
Thus, the BionicSoftHand can be quickly and easily connected and operated with only one tube each for supply air and exhaust air. With the proportional piezo valves used, the movements of the fingers can be precisely controlled.
BionicSoftArm: One robot arm, many possible variations
The strict separation between the manual work of the factory worker and the automated actions of the robot is being increasingly set aside. Their work ranges are overlapping and merging into a collaborative working space.
In this way, human and machine will be able to simultaneously work together on the same workpiece or component in the future – without having to be shielded from each other for safety reasons.
This is made possible by its modular design: it can be combined with up to seven pneumatic bellows segments and rotary drives.
This guarantees maximum flexibility in terms of reach and mobility, enabling it to work around obstacles even in the tightest of spaces if necessary.
At the same time, it is completely flexible and can work safely with people. Direct human-robot collaboration is possible with the BionicSoftArm, as well as its use in classic SCARA applications, such as pick-and-place tasks.
Flexible application possibilities
The modular robot arm can be used for a wide variety of applications, depending on the design and mounted gripper. Thanks to its flexible kinematics, the BionicSoftArm can interact directly and safely with humans.
At the same time, the kinematics make it easier for it to adapt to different tasks at various locations in production environments. Elimination of costly safety devices such as cages and light barriers shortens conversion times and thus enables flexible use – completely in accordance with adaptive and economical production.
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