It's the soft stuff that will determine scalability. JL
Jamie Condliffe reports in MIT Technology Review:
Robots can put together cars just fine, but less ordered tasks still leave them stumbling. Recent advances have allowed robots to pick up hard objects in unstructured environments, (but) a robot that can pick up bags of fruit or individual vegetables may get us a step closer to fully automated grocery stores and warehouses.
A robot that can pick up bags of fruit or individual vegetables may get us a step closer to fully automated grocery stores and warehouses.
Robots can put together cars just fine, but less ordered tasks still leave them stumbling. Recent advances have allowed robots to pick up hard objects in unstructured environments, but ask one to pass you a bag of bananas and things get difficult: the fruit varies in shape, it moves within the bag, and it’s delicate.The online grocery retailer Ocado is trying to change that. It already operates several large and heavily automated grocery warehouses. But all of its goods are ultimately picked by humans, because robots can't handle the wide variation in size, shape, and structure among the 48,000 different products it sells.
Now, working with a number of universities, its robotics team has taught a soft gripper hand attached to the end of a robot arm to carefully pick up foodstuffs such as apples and bags of limes. Ocado's Alex Voica says that the device responds to changes in the shape of an item throughout the act of grasping, leading to “carefully choreographed movement of the hand in relation to the object.”
The system is also designed to identify specific contact points on the objects, then close around them like a human hand. The idea is to minimize the amount of bruising inflicted on fruits or vegetables.
Even so, the company has some problems to solve before it uses the devices throughout its warehouses. The experiments show that the device can pick up items placed alone on a flat surface. In a warehouse, on the other hand, they’d likely be piled up on top of each other in a crate, where they might shift as they were picked. Voica says that extra sensing systems and computer vision approaches could help the robot cope with those problems in the future.
There’s also the huge range of products to worry about. Fruit and vegetables are one thing, but a universal picking robot in an automated grocery warehouse would need to be able to grasp everything from, say, a bottle of wine to a croissant with ease and delicacy. Such a feat, says, Voica, “will be one of the hardest challenges to solve.”
Still, the company hopes to use the system commercially “in the near future.” With luck it won’t bruise any bananas.