2.2 Commonly Recognized Aspects of Human-like Intelligence 23 deal with broader spacetime regions, roughly as in the DeSTIN AGI architecture discussed in Chapter 4. Further, there is evidence that each module carries out temporal predictive pattern recognition as well as static pattern recognition. Audition likely utilizes a similar hierarchy. Olfaction may use something more like a Hopfield attractor neural network, as described in Chapter 13. The networks corresponding to different sense modalities have multiple cross-linkages, more at the upper levels than the lower, and also link richly into the parts of the mind dealing with other functions. e Motor Control: This appears to be handled by a spatiotemporal hierarchy as well, in which each level of the hierarchy corresponds to higher-level (in space and time) movements. The hierarchy is very tightly linked in with the perceptual hierarchies, allowing sensorimotor learning and coordination. e Memory: There appear to be multiple distinct but tightly cross-linked memory systems, corresponding to different sorts of knowledge such as declarative (facts and beliefs), proce- dural, episodic, sensorimotor, attentional and intentional (goals). e Knowledge Representation: There appear to be multiple base-level representational systems; at least one corresponding to each memory system, but perhaps more than that. Additionally there must be the capability to dynamically create new context-specific repre- sentational systems founded on the base representational system. e Language: While there is surely some innate biasing in the human mind toward learning certain types of linguistic structure, it’s also notable that language shares a great deal of structure with other aspects of intelligence like social roles [CB00] and the physical world [Cas07]. Language appears to be learned based on biases toward learning certain types of relational role systems; and language processing seems a complex mix of generic reason- ing and pa