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When orders are placed in restaurants within the plaza via Baemin application, the robot delivers to the ground floor of customer's residence.

A shoddily tailored suit or a shrunken T-shirt may not be the most stylish, but wearing them is unlikely to hurt more than your reputation. An ill-fitting robotic exoskeleton on the battlefield or factory floor, however, could be a much bigger problem than a fashion faux pas.

It is clear to everyone in the supply chain industry that piece-picking technology is an essential core solution that enables predictable and scalable order fulfillment operations, especially during times like these.

Scientists have long envisioned building tiny robots capable of navigating environments that are inaccessible or too dangerous for humans—but finding ways to keep them powered and moving has been impossible to achieve.

Like biological fat reserves store energy in animals, a new rechargeable zinc battery integrates into the structure of a robot to provide much more energy, a team led by the University of Michigan has shown.

Six-storage delivery solution showcases the start-up’s continued leadership in last inch drone delivery logistics

The Internet of Robotic Things (IoRT) is a rapidly evolving technology. In just a few decades, industrial robots have become commonplace in factory settings across the world, and they only continue to gain popularity for their productivity and profitability.

Humans are innately capable of performing complex movements with their hands via the articulation of their endoskeletal structure. These movements are made possible by ligaments and tendons that are elastically connected to a fairly rigid bone structure.

With solutions that enable intuitive and harmonized programming of robots from a wide range of manufacturers using pre-developed programming templates, effort and costs are reduced considerably. This makes their use attractive for more and more companies.

With solutions that enable intuitive and harmonized programming of robots from a wide range of manufacturers using pre-developed programming templates, effort and costs are reduced considerably. This makes their use attractive for more and more companies.

While traditional robotics systems have successfully served the food sector for many years in palletizing (and some packaging) applications, it is only in recent years that it has become possible for robots to handle delicate food items directly.

If you want to enhance a locust to be used as a bomb-sniffing bug, there are a few technical challenges that need solving before sending it into the field.

What will the laboratory of the future look like, especially when dealing with post-COVID realities? Given the current situation of working during a pandemic, we really do need to be innovative in our how we design labs today for use tomorrow.

People rarely use just one sense to understand the world, but robots usually only rely on vision and, increasingly, touch. Carnegie Mellon University researchers find that robot perception could improve markedly by adding another sense: hearing.

Imagine if you could harness the same static cling to handle a material as fragile as an egg, as flimsy as soft fabric — or to assemble the uppers of Nike trainers at 20 times the pace of a human worker.