# Three Key Components 1. Representation - Declarative & Procedural knowledge - Typically human-readable symbols 2. Reasoning - Ability to solve problems - Express and solve range of problems and types - Make explicit and implicit information known to it - Control mechanism to decide which operations to use if and when, when a solution has been found 3. Learning An AI system must be able to 1. Store knowledge 2. Apply knowledge to solve problems 3. Acquire new knowledge through experience ![[ai-nested-subjects.png]] # Expert Systems - Usually easier to obtain compiled experience from experts than duplicate experience that made them experts for network # Information Processing ## Inductive - General patterns and rules determined from data and experience - Similarity-based learning ## Deductive - General rules are used to determine specific facts - Proof of a theorem Explanation-based learning uses both # Classical AI vs Neural Nets ## Level of Explanation - Classical has emphasis on building symbolic representations - Models cognition as sequential processing of symbolic representations - [[Properties+Capabilities|Neural nets]] emphasis on parallel distributed processing models - Models assume information processing takes place through interactions of large numbers of neurons ## Processing style - Classical processing is sequential - Von Neumann Machine - [[Properties+Capabilities|Neural nets]] use parallelism everywhere - Source of flexibility - Robust ## Representational Structure - Classical emphasises language of thought - Symbolic representation has quasi-linguistic structure - New symbols created from compositionality - [[Properties+Capabilities|Neural nets]] have problem describing nature and structure of representation Symbolic AI is the formal manipulation of a language of algorithms and data representations in a top-down fashion Neural nets bottom-up ![[ai-io.png]]