AI has also been trained on images to the extent that it can recognize many more objects than most humans. For instance, the Picture This app can identify well over 10,000 different species of plants and determine whether the specimen is healthy or diagnose any problem. So, if somebody was good at robotics, they could build a solar powered garden robot that could wander about with Picture This and then, for instance, perform SNIP action whenever a "weed" or a diseased plant was encountered.zbigi wrote: It is only actionable for humans because we, unlike AI, can map the words in generated sentences onto actual real-world objects and concepts, and also can parse the propositional logic encoded in sentences.
I read that the latest releases of AI have also been trained on video, which I would assume could train them in some sense of movement being associated with verbs. Why would "Alfred, cook me some cajun tater tots." be any more difficult to parse than "Alexa, play me some classic rock of the 1970s?"
Okay, so I asked handiest AI "If you were a robot, and I asked you to cook me some tater tots, what would you do?" and I got a dead-end "I am not allowed to answer this kind of question, because I am not a robot." response. So, I rephrased the prompt to simply "How would a robot cook tater tots?" and this was the response:
ETA: Prompt of "Do humans possess free will" just generated a short essay outlining various philosophical take on the matter. However, "Does pushing on a door cause it to open?" generated the following which is unlikely to be based directly on human composed article entitled "How to open a door." meant for human audience.A robot designed for cooking could potentially prepare tater tots using a pre-programmed recipe and a series of mechanical actions. Here’s a general idea of how it might work:
Ingredient Preparation: The robot would need to have the necessary ingredients for making tater tots, such as potatoes, flour, salt, and oil. It could use mechanical arms or similar devices to gather and measure these ingredients.
Cooking Process: The robot would follow the recipe’s instructions. This could involve grating the potatoes, mixing them with flour and salt, shaping the mixture into small cylinders (the typical shape of tater tots), and then frying them in oil until they’re crispy and golden brown.
Safety Measures: Throughout this process, the robot would need to take safety precautions, such as managing the heat of the oil and ensuring that the tater tots are cooked thoroughly.
Serving: Once the tater tots are cooked, the robot could use a spatula or similar tool to remove them from the oil, let them drain, and then serve them.
Remember, this is a simplified explanation. A real cooking robot would likely involve much more complex programming and machinery. Also, it’s important to note that while there are robots that can assist with certain cooking tasks, a fully autonomous cooking robot like the one described here is currently beyond our technological capabilities. However, the field of robotics is advancing rapidly, so who knows what the future holds?
Yes, pushing on a door can cause it to open, provided that the door is designed to open with a push motion and it is not locked or blocked. This is due to the application of force which results in the door moving on its hinges. However, not all doors are designed to open with a push; some doors require pulling or sliding instead. So, the effect of pushing on a door will depend on its design and current state (locked/unlocked, blocked/unblocked).