Read: Loftus for April 1 Sacks for April 3 Vokey for April 10 Idea Journals due on the 10th Overview of Memory RETRIEVAL • Atkinson-Shiffrin Model ATTENTION Sensory Signals Sensory Memory Short-Term Memory Long-Term Memory REHEARSAL Short-Term Memory • process by which we hold information “in mind” Short-Term Memory • process by which we hold information “in mind” • example: temporarily remembering a phone number Characteristics of STM • Duration? Capacity? • How could one measure these parameters? Characteristics of STM • Limited Duration – Brown-Petersen Task: • subject is given a trigram (e.g. C-F-W) to remember • vocal rehearsal is prevented by counting backwards • recall accuracy tested as a function of retention interval Characteristics of STM • STM decays over seconds Characteristics of STM • Limited Duration – Brown-Petersen Task Interpretation: rapid loss of information in STM (over a period of seconds…much longer than sensory memory) Characteristics of STM • Limited Capacity – How might you measure capacity? Characteristics of STM • Limited Capacity – George Miller – Subject is given longer and longer lists of to-be-remembered items (words, characters, digits) Characteristics of STM • Limited Capacity – George Miller – Subject is given longer and longer lists of to-be-remembered items (words, characters, digits) – Result: Subjects are successful up to about 7 items Characteristics of STM • Limited Capacity – What confound must be considered ?! Characteristics of STM • Limited Capacity – What confound must be considered ?! – Recalling takes time ! Characteristics of STM • Limited Capacity – What confound must be considered ?! – Recalling takes time ! – It seems that the “capacity” of STM (at least measured in this way) depends on the rate of speech - faster speech leads to apparently larger capacity – Some believe capacity is “2 - 3 seconds worth of speech” Forgetting from STM • Why do we “forget” from STM? – Does the memory trace decay? • not likely because with very small lists (like 1 item) retention is high for long intervals Forgetting from STM • Why do we “forget” from STM? – Does the memory trace decay? • not likely because with very small lists (like 1 item) retention is high for long intervals – Instead, it seems that information “piles up” and begins to interfere Forgetting from STM • Interference in STM is complex and specific Forgetting from STM • Interference in STM is complex and specific • For example, severity of interference depends on meaning Forgetting from STM • Interference in STM is complex and specific • For example, severity of interference depends on meaning – Subjects are given successive recall tasks with list items from the same category (e.g. fruits) – final list is of either same or different category - how is good is recall on this list? Forgetting from STM • Accuracy rebounds if category changes Coding in STM • How is information coded in STM? Coding in STM • Clues about coding in STM: – # of items stored in STM depends on rate of speech Coding in STM • Clues about coding in STM: – # of items stored in STM depends on rate of speech – phonological similarity effect: similar sounding words are harder to store/recall than different sounding words Coding in STM • Clues about coding in STM: – # of items stored in STM depends on rate of speech – phonological similarity effect: similar sounding words are harder to store/recall than different sounding words What does this suggest about the nature of information in STM? Coding in STM • It seems that information can be stored in a linguistic or phonological form Coding in STM • It seems that information can be stored in a linguistic or phonological form Must it be stored this way? Coding in STM • It is also possible to “keep in mind” nonverbal information, such as a map Are there two different STM systems? A Modular Approach to STM Central Executive Articulatory Loop Visuospatial Sketchpad Experiment 1 in the article by Lee Brooks demonstrates a double dissociation between Articulatory Loop and Visuospatial Sketchpad Working Memory “Modules” • Lee Brooks: interference between different representations in STM (Experiment 1) – Memory Representation • verbal task: categorize words in a sentence • spatial task: categorize corners in a block letter – Response Modality • verbal response: say “yes” or “no” • spatial response: point to “yes” or “no” Working Memory “Modules” • result: Performance Verbal Representation (categorize words) Spatial Representation (categorize corners) Verbal Spatial Response Modality Working Memory “Modules” • Interpretation: – supports notion of modularity in Working Memory (visuospatial sketchpad / articulatory loop)