Facets of memory

Memory is Malleable—Loftus & Palmer (1974)\

About how fast was the car going when it ________ the stopped car?

the wording of the question influenced the memory

Misconceptions of Memory: The Scooter Libby Effect—Kassam, Gilbert, Swencionis, & Wilson (2009)

Vice-Presidential Chief of Staff I. Lewis “Scooter” Libby claimed that he could not remember mentioning the identity of a Central Intelligence Agency employee to other government officials or reporters. Jurors found it difficult to believe that Libby could have forgotten having had such important conversations and found him guilty of obstruction of justice, making false statements, and perjury.

• motivation to remember (MTR)

• Participants were shown photographs of six individuals ostensibly taken from a high-school yearbook. Each photograph was accompanied by five facts (e.g., “John Smith enjoyed playing sports with his friends” or “Sarah Palmer spent a lot of time tutoring her younger brother”).

• Memorizers were told that they would study the material for 2 min before seeing the photographs and trying to recall the facts associated with each. They were also told that they would receive $0.10 for each recalled fact.

• Judges were shown the same material as memorizers and read a detailed description of the instructions from the MTR-at-encoding condition (n = 24), the MTR-at-retrieval condition (n = 21), or the no-MTR condition (n = 21). Judges were then asked to predict the percentage of memorizers in that condition who would remember each fact.

  Our study shows that people mistakenly expect MTR to be just as effective when it arises after information is encountered as when it arises beforehand. Thus, they sometimes expect others to remember more than they possibly can.

  The study found that memorizers recalled more facts when motivated before reading than after, with post-reading motivation no better than no motivation. However, judges incorrectly expected both pre- and post-reading motivation to enhance memory equally and outperformed no motivation. This reveals a gap between actual memory performance and judges' expectations.

Memory works in ways we don’t realize—Simons & Chabris (2011)

This discrepancy between popular belief and scientific consensus has implications from the classroom to the courtroom.

Amnesia results in the inability to remember one's own identity (83% of respondents agreed), unexpected objects generally grab attention (78%), memory works like a video camera (63%), memory can be enhanced through hypnosis (55%), memory is permanent (48%), and the testimony of a single confident eyewitness should be enough to convict a criminal defendant (37%

Models of Memory

Modal Model of Memory—Atkinson & Shiffrin (1968)

Memory has 3 components

1. sensory memory— iconic, echoic, haptic

2. working memory / short-term memory— capacity for holding a small amt of info for a short period of time

   1. 7 ± 2

   2. 20-30 sec

3. long-term memory

Sensory Memory

• In each trial:

  • Read a 3-letter string (e.g., TRQ)

• Read a 3-digit number (e.g., 555)

• Count backwards by threes (silently)

  • E.g., for 555, count 552, 549, 546…

  • When the word “stop” appears 🡪 write down the 3-letters

• Look to the left column to read the next string

  

Classic Test of Sensory Memory (Iconic)—Sperling (1960)

participants were briefly shown a grid of 12 letters for 50 milliseconds then were asked to recall as many letters as they could

• could initially only remember 3-4 letters

then changed conditions to be high, medium, then low tone for each row

• participants could remember all of them after

Hierarchical Structure of Semantic Networks, Collins & Quillian (1969)

“is an eggplant food/fruit/rggplant”

looked at speed, as you move up the hierarchy speed of answer slows down

ex. talking about something that is related to something that someone else brought up, moving up the semantic bridge

the more connections you have, the more you’ve woven it into the semantic network, the more activation of the network

Working Memory— primacy and recency

What causes Primacy & Recency Effects?

Primacy – Extended rehearsal moves info to long-term memory

• longterm interferes with working

Recency – Recent rehearsal keeps info in working memory at test

• short term/working intereferes with long term

Primacy and Recency Effects reveal different operations involved with Working Memory

Baddeley’s Model of Working Memory—Baddeley (1974)

1. phonological loop—auditory part of working memory; being used when saying things to yourself or listening to others

   1. evidence: Working memory affected by Word Length

   2. evidence: Working memory affected by Reading Speed

   3. evidence: Working memory affected by Language

2. visuospatial sketch pad—picture things in working memory and work on them

   1. mental maps etc

3. episodic buffer— part of working memory that temporarily stores info brought up from long-term memory

4. central executive— controls how attention to paid to each of other parts of working memory, brings info from long-term memory, and puts things together

Object-based Working Memory (how is info stored in visuospatial sketchpad?) —Luck & Vogel (1997)

• Main Claims

  • Visual information stored as objects

  • Limit of about 3-4 objects

  • If you remember one feature of an object, you get all the other features for free

• Change Detection Paradigm:

  The study used a change detection paradigm where participants viewed a set of objects with different features (like color and shape) and then had to identify if a single feature on one of the objects had changed in a subsequent display. 

  • found No change in accuracy for 3-4 objects (remembered them fine, but more than that found a decrease in performance) —>limited

    

• Conjunctions

  1. Remember Orientation (ignore color)

  2. Remember Color (ignore orientation)

  3. Remember Orientation & Color

  Findings: Consistent with object-based! —> features don’t matter, just how many there are as integrated objects (culmination of features)
  

• Object Benefit:

  The key finding was that participants were able to accurately detect changes in a set of objects with multiple features, even when the number of features increased, as long as those features belonged to the same object. This "object benefit" indicated that the brain stores objects as unified entities rather than individual features. 

• Implications:

  This research significantly contributed to the understanding of visual working memory, suggesting that the capacity of visual working memory is not limited by the number of individual features but rather by the number of distinct objects that can be held in memory

Potential problems with object based working memory— Alvarez & Cavanagh (2004)

, both the visual information load and number of objects impose capacity limits on visual short-term memory.

The greater the information load of each item in a stimulus class (as indicated by a slower search rate), the fewer items from that class one can hold in memory.

Extrapolating this linear relationship reveals that there is also an upper bound on capacity of approximately four or five objects.

Updated model of Baddledy’s model

Memory processes

Interference

• Proactive Interference: An item you learned previously affects something you’re trying to recall recently

• Retroactive Interference: learning something after the first interferes with recalling the initial information

• Interference shows that putting new things into long-term memory affects other things that are there, and vice versa.

• General point that our memories are connected.

• the more similar the contents are, the greater chance of interference

Encoding and retrieval

Encoding: Acquiring information and transferring it into LTM

retrieval: Recovering previously encoded information

the more organized your encoding structure, the better you’ll remember it

Elaboration: Making additions to the target item

• makes connections in semantic memory

• E.g., remember “table”

  • Tables are types of furniture

  • Furniture is very expensive

  • I buy furniture in IKEA because it is more reasonably priced

  • Last year I bought a great table in IKEA

Depth of processing Craik & Tulving (1975)

Orthographic: what does the word look like (capital/lowercase)

Phonological: how does the word sound

Semantic: what is the meaning of the word

the deeper you process it initially, the better you remember it

Elaboration

Location dependent memory—Godden & Baddeley (1975)

group of subjects in a pool or on land in scuba gear

reading them a list of words that they need to learn either on land or in water

Half recall on land, half recall in water

learned on land recalled better on land

learned underwater recalled better on land

Emotion Dependent Memory—Bower (1981)

induced emotion to be happy or sad

then learned a list of words

then made them recall a list of words and asked if it made them happy or sad

if youre happy when you learn and happy when you retrieve, then you remember more

State Dependent Memory—Rickles, Cohen, Whitaker, & McIntyre (1973)

needed multiple trials with marijuana

when you learn intoxicated, you’re better at recalling when you’re intoxicated

Effects of Spacing on Memory—Bahrick, Bahrick, Bahrick, & Bahrick (1993)*

gave subjects foreign language words, and had no relation

tested retention of foreign language of fpreign language vocabulati words

After Learning, tested 1, 2, 3, & 5 years later

long term implications

Findings: best retentions comes with spacing learning

• more times more recall

• more space had a better recall

Consolidation

• Fragile memories → Permanent Memories

  more of a destination already rather than needing the map

  • Synaptic – rapidly over minutes

  • Systems – slow reorganization of circuits within brain regions

    

Brain activity during consolidation

Subsequent Memory Paradigm—Wagner, Schacter, Rotte, Koutstaal, Maril, Dale, Rosen, & Buckner  (1998)*

Measure brain activity during study

making judgements about words, not directly memorizing

recognition test essentially

experimenters sorted what they remembered and didnt remember then record brain activity for each respectively

brain activity is lower when you forget, but it’s happening during encoding

it’s about encoding it well

fMRI activity:

Memory differences

Syesthesia—Palmeri, Blake, Marois, Flanery, & Whetsell (2002)

visual search task to find T in group of Ls

more Ls, the harder it is

synesthetes see each letter iwth a different color, then they’re able to find it easier

The Brains of Memory Champions—Maguire, Valentine, Wilding, & Kapur (2003)

world memory champs > brain activity in the hippocampus and other brain regions important for visaul-spatial imagery

use visual-imagery to structure their memory

Extraordinary Memory: AJ—Parker, Cahill, & McGaugh (2006)

• asked to recall on a given day and she would be able to remember the entire day

• journaled a lot in her youth

• compared journal to recall and she was correct

• hyperthymesia: near perfect autobiographical memory

• not photographic memory, only personal memories

Patient H.M—Corkin (2002)

• History

  • epilepsy started at age 10

  • severe seizures in late 20s affecting quality of life

  • surgery to correct 

    • W. B. Scoville

    • bilateral temporal lobectomy

    • removed the hippocampus

• After surgery

  • Seizures reduced

  • Intelligence increased (as result of reduction in seizure activity)

  • Short-Term/Working memory OK

  • Anterograde Amnesia— couldn’t make new longterm memories

One of the first cases on the role tht the hippocampus has in memory

Clive Wearing (anterograde amnesia)

• Cause of amnesia → herpes encephalitis

  • damage to hippocampus

• Preserved cognitive abilities

  • Intelligence

  • skills like playing piano and conducting

Is all memory impaired in anterograde memory—Milner, Squire, & Kandel (1998); Milner (1962) 

• Anterograde amnesia

  • ok short term memory

  • impaired declarative memory

  • Non-declatarive memory??? (skill-learning)

HM’s task performance for mirror drawing task^

• he improved day after day, even though he had no recolection of learning it

  • does not have declarative memory, but has new non-declarative memory

Anterograde amnesia: cannot form new explicit memory, but can form new implicit memory

Patient M.L. (retrograde amnesia)—Levine, Black, Cabeza, Sinden, McIntosh, Toth, Tulving, & Stuss (1998)

Had damage in right frontal lobe

• Could learn about events prior to the accident

  • can form new memories about their old memories, but don’t have the eposodic memory to remember it on their own

• But no longer re-experience them as being part of his own life

  • Preserved semantic memory for information prior to accident

  • Impaired episodic memory for events prior to accident

Retrograde amnesia is specific to episodic memory

Patient K.C.—endel tulving

• Damage to Many Brain Regions: due to motorcycle accident

  • Medial temporal, frontal, parietal, & occipital lobes

• Normal:

  • IQ (94)

  • Can acquire nondeclarative memories

    • skills etc

  • Semantic memory for events prior to injury

    • facts et

• Anterograde Amnesia AND Retrograde Amnesia for Episodic Memory

  • no new declarative memories and no pror episodic memory

  • If shown pic of family— could remember each family member, but couldn’t remember why they were dressed a certain way

• 4 out of 5 on a scale of happiness

• When asked how long he wanted to live, his response was, “I guess 100 would be good,” Tulving recalls.

• Anterograde Amnesia

  • Can not form new declarative memories

  • Can form new nondeclarative memories

  • Damage to Medial Temporal Lobes (hippocampus)

• Retrograde Amnesia

  • Can not recall old memories, especially episodic memories

  • Damage to brain regions outside of the Hippocampus

• Anterograde Amnesia

  • Can not form new declarative memories

  • Can form new nondeclarative memories

  • Damage to Medial Temporal Lobes (hippocampus)

• Retrograde Amnesia

  • Can not recall old memories, especially episodic memories

  • Damage to brain regions outside of the Hippocampus

Summary: Memory Disorders

• Anterograde Amnesia

  • Can not form new declarative memories

  • Can form new nondeclarative memories

  • Damage to Medial Temporal Lobes (hippocampus)

• Retrograde Amnesia

  • Can not recall old memories, especially episodic memories

  • Damage to brain regions outside of the Hippocampus

Everyday Memory problems

Schemas: generalized outlines of typical scenarios

• ex. we have a schema for eating at. a restaurant

Costs and Benefits of Schemas

Pros:

• Provides framework within which to remember an event

• ‘chunking’ since don’t have to remember all details

Cons

• Can lead to misremembering a specific event via generalizations or confusion

  • naming things you think would be there bc they’re expected

Deese-Roediger-McDermott Paradigm—Roediger & McDermott (1995)

gave people list of words that were related and tried to remember them

list of words were always related to one central word as theme

Results:

people were good at memorizing the words they asked

• critical loure —word that the others were designed around, but not explicitly on list

people remember middle word abt 40% of the time

We remember general knowledge and the ‘gist’ of an event and not always the specifics

• Usually helps, but can also hurt

return to Car Crash study—Loftus & Palmer (1974)

• Design:

  • Subjects watched car accident & asked how fast cars were going when HIT or SMASHED into each other

    • Hit — 34 mph

    • Smashed = 41 mph

    One week later:

  • Was there any broken glass? (there wasn’t)

    • hit - 14% yes

    • smashed -32% yes

/

False Memories

Processes involved in recalling real memories are the same ones responsible for false memories

• Reality Monitoring:

  • judging whether something you’re recalling is real or imaginary

    • real memories tend to have more perceptual details than false ones

    • memories of imagined events have lesser detail, and have more emotional states

• Source Monitoring: ***

  • remembering where you learned something ‘did I dream it?’

  • unsure of where you learned it or if it happened to you or not

Methods—(Lyle and Johnson) 2006

has people look at different screens,

either saw a word or a word AND a drawing

• word: imagine word image

• drawing: just look at drawing

 Manipulated by putting things that are either related or unrelated to each other

• lollipop looks like magnifying class

• heart does not look like mug

results

control and similar most important

control: ask about items you did not see but imagined you saw

Similar: ask about things that you saw that look similar to the imagined image you saw

Asking that you saw something similar to what you imagined created false memories

Explanation

• test similar items —> reactivate: imagined shapte info + seen shape info from similar pic (imported details)

• Test control items —> Reactivsyte imagined shape info

Appearance Vividness (given false memory)—Lyle & Johnson (2006)

Seen = true memories

evidence that reality monitoring uses vividness to help remember if the memory is real or not

Lost-in-the-mall study—(Loftus & Pickrell (1995)

• Provide college students with 4 events from their past

  • 1 of these events was false (being lost in the mall as a child)

  • talked to parents to make sure at least 3 events actually happened

  • asked to write down everything they know about their events

  • did it again after 2 weeks

  • did it after 2 weeks again

• 25% of people remembered false event by end of the study.

• Just by asking people over and over again about something that happened, that didnt, they can convince themselves that it did happend

Hot air balloon—Wade, Garry, Read, & Lindsay (2002)

• Shown doctored photo

• Recall event, recall 3 to 7 days later, recall again 3 to 7 days later

  • 0% of subjects didn;t temember initially

  • 35% recalled

  • 50% recalled being on a hot air balloon

Also highlights importance of visual

Elementary school trouble —Lindsay, Hagen, Read, Wade, & Garry (2004)

Recall events from elementary school, including fake event

• Manipulate presentation of school photo

  • here is your class photo of x grade

  • ‘tell me everything you can remember about getting in trouble for this at school”

How does photo help/hurt creating flase memory

 visual images can start being incorporated and help to build up false memories over time

Real life to lab translation—Clancy, McNally, Schacter, Lenzenweger, & Pitman (2002)

• Are people who have some type of false memory more likely to have false memories more generally?

tested people who think they had something happen to them that didnt happen —> alien abduction

• Conditions

  • Recovered- memory where they can tell you detailed play-by-play of event

  • Repressed - believe they were abducted, but don’t have any strong detailed memory about event

  • Control- dont claim to be abducted by aliens

Gave them DRN paradigm (all words were related to one key word as theme— critical loures)

were more likely to remember loures that were unrelated to the main critical loure

we have a schema of what the alien should look like, so the false memory is created around the schema

Flashbulb memories—Brown & Kulik (1977)

Main claim: Emotional and Significant events are remembered perfectly

Special events lead to prioritized memories

• Very accurate

• Immune to forgetting

• Vivid

Typical Knowledge with Flashbulb Memories

• Where you were

• Who you were with

• What you were doing

• How you found out

• What you were wearing

• How you felt

Evidence Against Flashbulbs—Talarico & Rubin (2003)

Sept 12th, 2001

• 54 students asked about their memories of 9/11 and of (everyday) events from that week

• Tested 1, 6, or 32 weeks later

• Rated accuracy, vividness, & confidence

Result: Confidence remains high but accuracy does not!