Self-driving cars have certainly reaped the rewards from the advances made in sensors, processing power, and artificial intelligence, but they aren’t the sole beneficiaries. One needn’t look any further than to the autonomous cooperative robots (cobots) currently invading the warehouses and stores in which they will work in close quarters with people.
1. Aethon’s latest TUG is festooned with sensors and can fit under carts to tow them to desired locations.
Aethon’s TUG (Fig. 1) is the latest in a line of autonomous robots designed for environments like warehouses. It has more sensors on it than older platforms, which is indicative of the falling price of sensors, improvements in sensor integration, and use of artificial intelligence to process the additional information. This allows robots like this to get a better model of the surrounding environment. It means the robots operate more safely, since they can better recognize people and objects. It also means they can perform their chores more effectively, because they often need to interact with these objects.
Aethon’s TUG series provides a range of capabilities up to versions that can haul around as much as 1200 lbs. These typically find homes in industrial and manufacturing environments. Smaller TUGs have been set up in hospitals to deliver medicine, meals, and materials. TUGs move throughout a hospital calling elevators and opening doors via network connections. As with warehouse robots, they operate around the clock doing jobs that allow others to do theirs.
2. The RL350 robotic lifter from Verna Robotics rises under a cart and lifts 350 kg off the ground. It then delivers the contents to the desired location, dropping down and leaving the cart.
Vecna Robotics has lightweight and heavy-duty robots, too. Its RL350 robotic lifter can hoist 350 kg or more than 770 lbs (Fig. 2). It can also adjust the payload height with other pieces of material-handling equipment, like conveyor belts. It can be used in applications such as fulfillment operations or lineside supply. The robot has a top speed of 2 m/s, and can run for eight hours before seeking out a charging station. It is ANSI/ITSDF B56.5 compliant and ISO Class D ready. It uses LIDAR and ultrasonic sensors like many of the other robots in this class.
3. Fetch Robotics’ VirtualCoveryor targets warehouse applications such as DHL’s distribution center.
Fetch Robotics has a range of products, from robotic arms for research to its datasurvey inventory robot. It also offers the VirtualCoveryor (Fig. 3), which comes in a number of different sizes to address different weight configurations. The Freight500 can move up to 500 kg, while the Freight1500 handles up to 1500 kg. They run up to nine hours on a charge, and incorporate LIDAR and 3D cameras on the front and rear. As with most warehouse robots, Fetch Robotics delivers them with its FetchCore Management software.
4. I Am Robotics put a robotic arm on its I Am Swift platform. The suction grip is designed for grabbing lightweight objects that would be typical in many warehouse pick-and-place environments.
I Am Robotics includes a robotic arm on its I Am Swift platform (Fig. 4). It can run for more than 10 hours picking and placing small objects using its suction grip. The typical boxes or bottles found on store shelves are open game. The robot is designed to work with the I Am SwiftLink software.
The I Am Flash 3D scanner is used to teach the system about objects that will be manipulated. It records the barcode, object dimensions, and weight after an object is placed in its scanning area. The I Am Swift robot can then determine what objects it sees on a shelf or in its basket and move them accordingly.
5. Omnidirectional wheels on Stanley Robotics’ robot platform make it easy to move in tight quarters.
Stanley Robotics warehouse platform utilizes omnidirectional wheels in order to move literally in any direction from a standing start. This simplifies path planning and allows it to work in tight quarters.
6. Stan from Stanley Robotics handles valet parking by literally picking up a car and putting in a parking spot.
The latest offering from Stanley Robotics was not able to fit on the show floor, though. Its Stan valet parking system (Fig. 6) turns any car into a self-driving car, at least to park it. It rolls under a typical car and then raises itself, thereby lifting the car. Many warehouse robots that lift carts instead of cars use an identical technique—it’s the same idea, but applied to a much larger object.
7. Fellows Robots’ NAVii will function within a store, offering information to customers while performing inventory scanning.
Fellows Robots’ NAVii (Fig. 7) is designed to operate within a store, providing customers with information while performing inventory scanning. It can map out a store on its own and then track the stock using machine-learning techniques. NAVii will notify store managers when stock is low, or if there are price discrepancies.
NAVii can also interact with store customers using its display panels. On top of that, store employees can take advantage of this mobile interface to interact with the store’s computer network. As with most autonomous robots, it seeks out a charger when its battery runs low.
>> Read more by William Wong, New Equipment Digest, October 05, 2017