8.3 Cognitive Synergy in CogPrime 147 Declarwiive Meenory Cognitive Processes Senserimater Memory Associated with Types deduction, induction, of Memory Body map tor haptics & kinesthetics, mhcartinn, air \ hierarchical memory for viakon, wc. Ure apernised Batters Where \ | Speci i ve i Concept creatine: \ Altentional Meencry | besarte = lari pee : _— \ A Syatant Cantal j memory Procedural Memory / \ Episodic Memory LS / \ internal Simulation Ibnaesing of a prograre genes a i 1 of historical and hypothetical “trea function?” \ extemal events Deliberative slanrinvg Spacetime interface: Devry ir ar Ry Bawey wih special mechanisms for linking, spabotemporal oxperantal knowledge wih doleamtiva and proceduey kaalaga Fig. 8.2: High-level overview of the key cognitive dynamics considered here in the context of cognitive synergy. The cognitive synergy principle describes the behavior of a system as it pursues a set of goals (which in most cases may be assumed to be supplied to the system “a priori’, but then refined by inference and other processes). The assumed intelligent agent model is roughly as follows: At each time the system chooses a set of procedures to execute, based on its judgments regarding which procedures will best help it achieve its goals in the current context. These procedures may involve external actions (e.g. involving conversation, or controlling an agent in a simulated world) and/or internal cognitive actions. In order to make these judgments it must effectively manage declarative, procedural, episodic, sensory and attentional memory, each of which is associated with specific algorithms and structures as depicted in the diagram. There are also global processes spanning all the forms of memory, including the allocation of attention to different memory items and cognitive processes, and the identification and reification of system-wide activity patterns (the latter referred to as “map formation”) Table 8.5: default |Table will go here| Table 8.6: Key Ope