Artist Pindar Van Arman develops ST Robotics' collaborative robot into the world's most evocative painting robot

Pindar van Arman has developed a unique application for an ST robot for painting portraits using AI the system works the same way a human artist would- painting a part of the portrait - stepping back, comparing the painting with the subject then going back to add more or change something.

ST Robotics proudly announces that one of its robots has been integrated by artist and roboticist Pindar Van Arman to autonomously create expressive art.

The ST painting robot's groundbreaking programming represents the culmination of nearly fifteen years of Pindar's evolving work. His first machines, unnamed because Pindar viewed them as simple tools, were robotic studio assistants that helped him increase artistic productivity with painting tasks such as connecting dots and painting by numbers. Over the years however, Pindar ended up teaching the robots his entire artistic painting process by adding complex A.I. techniques ranging from simple k-means clustering to the more complicated deep learning techniques including convolution neural networks (CNNs) and generative adversarial networks (GANS). The robot's computational creativity enabled it to analyze its own marks, make independent aesthetic decisions, and even do something remarkably similar to imagining. Pindar considers his most recent ST Robot independent enough to call it artonomous.

Pindar is delving deep into artonomous' ability to create emotionally evocative portraits. Toward this goal, he and the robot have teamed up with portrait photographer Kitty Simpson in an interspecific collaboration. They plan to paint hundreds of faces using a creative feedback loop, while continually refining artonomous' creative process.

The ST R17 HS robot, mounted with a camera on its arm and a paint brush in its gripper, uses its array of more than two dozen artificial intelligence algorithms to paint sets of curated portraits. The finished paintings are then critiqued by the robot, Kitty, and Pindar. Based on the critique, Kitty adjusts how she takes the next set of portraits. artonomous then retrains its own neural networks to better understand faces, and Pindar modifies the robot's A.I. and hardware. This process is repeated as the body of work is formed.

Of his progress, Pindar Van Arman says, "I developed the ST robots into much more than simple assistants. My robots are now effectively augmenting my creativity, and even achieving their own form of creativity."

The trio's evolving work can be seen at where they have already completed the first 32 portraits. Kitty and Pindar project that hundreds and possibly thousands of portraits will be needed for artonomous to improve its creative process to learn the subtleties of fine portraiture.

About ST Robotics
ST Robotics, widely known for ‘robotics within reach', has offices in Princeton, New Jersey and Cambridge, England, as well as in Asia. One of the first manufacturers of bench-top robotic arms, ST Robotics has been providing the lowest-priced, easy-to-program boxed robots across industries for the past 30 years. ST's robots are utilized the world over by companies and institutions such as Lockheed-Martin, Motorola, Honeywell, MIT, NASA, HP, Sony, IBM and NXP. The numerous applications for ST's robots benefit the manufacturing, nuclear, pharmaceutical, laboratory and semiconductor industries.

For additional information on ST Robotics, contact:
(609) 584 7522

Featured Product

DESTACO - Revolutionizing Industrial Automation

DESTACO - Revolutionizing Industrial Automation

Looking for a reliable solution to enhance your automation process? Look no further than the DESTACO Robohand Grippers. These grippers are designed for the modern world of robotics, offering unparalleled performance and precision. Whether you need to grip fragile items, irregularly shaped objects, or heavy-duty components, the DESTACO Robohand Grippers have got you covered. Their modular design allows for quick and easy customization, ensuring a perfect fit for your application.