A device like this could one day monitor and assess your health.

By Sihong Wang

My colleagues and I have developed a flexible, stretchable electronic device that runs machine-learning algorithms to continuously collect and analyze health data directly on the body. The skinlike sticker, developed in my lab at the University of Chicago’s Pritzker School of Molecular Engineering, includes a soft, stretchable computing chip that mimics the human brain.

To create this type of device, we turned to electrically conductive polymers that have been used to build semiconductors and transistors. These polymers are made to be stretchable, like a rubber band. Rather than working like a typical computer chip, though, the chip we’re working with, called a neuromorphic computing chip, functions more like a human brain. It’s able to both store and analyze data.

To test the usefulness of the new device, my colleagues and I used it to analyze electrocardiogram data representing the electrical activity of the human heart. We trained the device to classify ECGs into five categories: healthy and four types of abnormal signals. Even in conditions where the device is repeatedly stretched by movements of the wearer’s body, the device could still accurately classify the heartbeats. 

Most of the signals from the human body, such as the electrical activity in the heart recorded by ECG, are typically weak and subtle. Accurately recording these small signals requires direct contact between electronic devices and the human body. This can only be achieved by fabricating electronic devices to be as soft and stretchy as skin. We envision that wearable electronics will play a key role in tracking complex indicators of human health, including body temperature, cardiac activity, levels of oxygen, sugar, metabolites and immune molecules in the blood. 

Analyzing large amounts of continuously acquired health data is challenging, however. A single piece of data must be put into the broader perspective of a patient’s full health history, and that is a big task. Cutting-edge machine-learning algorithms that identify patterns in extremely complex data sets are the most promising route to being able to pick out the most important signals of disease. 

Techman Robot has launched its “TM AI Cobot” series, describing it as a “collaborative robot which combines a powerful and precise robot arm with native AI inferencing engine and smart vision system in a complete package”.

BY MAI TAO

The company says the new machine is ready for deployment in factories and can accelerate the transition to Industry 4.0.

Techman says the TM AI Cobot works on the principle of being smart, simple and safe. By combining visual processing in the robot arm, the AI Cobot can perform fast and precise pick and place, AMR, palletizing, welding, semi-conductor and product manufacturing, automated optical inspections (AOI) and food service preparation, among many other applications that can be accelerated by AI-Vision. 

The company claims it is the only intelligent robotic arm series on the market provided with a comprehensive AI software suite. It includes TM AI+ Training Server, TM AI+ AOI Edge, TM Image Manager, and TM 3DVision, allowing companies to train and tailor their system to precisely meet their application.

Shi-chi Ho, Techman Robot president, says: “Techman Robot has redefined the future of industry robotics with the introduction of its AI Cobot series that are equipped with a native AI engine, powerful and precise robotic arm and vision system that represents a perfect combination of ‘brain, hands and eyes’.