Chapter 8 – Information Processing Approach to cognitive development Based on computers - Hardware = physical structures - Software* = processes
Processes: Attention & Memory Attention - detecting information to be processed
2 complementary elements Filtering - ignoring irrelevant information Searching - finding the target among many stimuli
Abilities improve - very good by 12 Dr. John Richards (USC) Infant attention (eg sustained)
Attentional aids Reduce competing information - improve filtering Contrasts - make relevant information stand out - improve searching
Memory - retention & retrieval of information 2 types of retrieval
Recall = retrieve information not present Easier with cues Some recall by 1 year Improves with age
Recognition = realize you have encountered information before Young infants show recognition Very accurate by age 4
3 Types of storage Sensory store - Holding place for raw sensory impressions - Can encompass much information seconds - Information will disappear
Children & adults have similar sensory store Down to age 5
Short-term memory (STM) = “working memory” 7 pieces held in mind while processed Span increases with age 2-year-olds = 2 items 12-year-olds = 7 items
Except when child = expert & adult = novice Knowledge & motivation
Long-term memory (LTM) = permanent storehouse of knowledge Limitless Permanent? Sometimes hard to retrieve
Young kids have difficulty retrieving from LTM via recall But none via recognition Encoding – maintaining – retrieving
Levels of Processing Process information at different levels Shallow = physical/sensory characteristics Deep = meaning/associations
Depth = time/energy/ put into task LOP = processing that is deep => better memory
Self-reference effect Memory is better if information is processed in terms of ourselves
Nowatka Holds for kids as young as 8 Suggests memory strategy: relate information to oneself
Mnemonics Strategies to improve memory Rehearsal - repeating information - common strategy by age 7 - good for STM, not for LTM
Semantic & Spatial Organization - Group items by meaning or spatial location - Starts about 9-10 knowledge base experience/organization at school logical (concrete) operations
Elaboration - Add to information/mental pictures - Seldom before adolescence knowledge base
Scripts - Framework for action sequences - Scripts organize memory & fill in information - Younger = fewer & simpler scripts - Problem: Scripts can distort memory
Summary of Info-Processing Development 1.Information-Processing Capacity Increases with age Process faster More room in working memory
2.Memory Strategies Older kids use more effective strategies Encoding, storing, & retrieving info 3.Metamemory Older kids have greater knowledge of memory processes Can select & monitor best strategy for a task
4.Knowledge base Older kids have more knowledge of the world Improves ability to learn & remember
Theory’s Current Status Problems 1.Fragmented - Focus on different specific skills vs. broad development of cognitive abilities
2.Underestimates richness of cognition - Humans have abilities that computers cannot model 3.Vague like Piaget - Poor explanations of cognitive development
Advantages 1.Piaget’s gaps Allows for different levels of abilities, inconsistency across domains 2.More detailed explanations of some Piagetian concepts