Here I demonstrate the power of using embodied artificial intelligence

 to attack the /action recognition/ problem, which is the challenge of

 recognizing actions performed by a creature given limited data about

 the creature's actions, such as a video recording. I solve this

 problem in the case of a worm-like creature performing actions such as

 curling and wiggling.

 

 To attack the action recognition problem, I developed a computational

 model of empathy (=EMPATH=) which allows me to recognize actions using

 simple, embodied representations of actions (which require rich

 sensory data), even when that sensory data is not actually

 available. The missing sense data is ``imagined'' by the system by

 combining previous experiences gained from unsupervised free play.

 

 In order to build this empathic, action-recognizing system, I created

 a program called =CORTEX=, which is a complete platform for embodied

 AI research. It provides multiple senses for simulated creatures,

 including vision, touch, proprioception, muscle tension, and

 hearing. Each of these senses provides a wealth of parameters that are

 biologically inspired. =CORTEX= is able to simulate any number of

 creatures and senses, and provides facilities for easily modeling and

 creating new creatures. As a research platform it is more complete

 than any other system currently available.