memory Our essence This presentation contains materials which are presented due to the Fair Use exception to US Copyright Law. Further use of these materials is prohibited without the express consent of the copyright holder. A huge problem • Eye witness testimony • Witnesses are not always right, even if they are certain • Picking the wrong “rapist” • How could this happen? Memory overview • A complex concept • Refers to both the process of retaining information, and the information retained • Many types, uses, and tests • What are we without it? Three Processes • Encoding – getting the info and then transforming it into a form that the brain can retain • Storage – holding the info • Retrieval – pulling it out Three models • Levels of processing – how long and how intensely we work with a memory determines how well we retain and retrieve it • Parallel distributed processing – we remember things in many different forms all at once, in parallel Information processing view • Based on a computer model conception of memory • Proposes that information enters the system, is processed and coded in various ways and then stored • Sets out three components Sensory store • • • • The first filter A very brief capture of sensory information Images involve iconic memory We can attend to anything in our visual field – lasts for ½ second • But if we do not attend to something, it is lost Short-term memory • Temporary storage of information you have just experienced • Lasts for about 20-30 seconds, unless rehearsed • Holds 7 (plus or minus 2) items, like a crowded elevator holds passengers • Can be effectively extended by memorizing information in chunks – meaningful units Was Dori right? • That adorable tang claimed to have a problem with her short term memory. • Did she? • Could she hold 7 or so items in mind if she continued rehearsing them? Long-term memory • • • • • • Unlimited capacity Lasts (usually) as long as you do Weakened by interference Also vulnerable to loss of retrieval cues Usually located in the frontal lobes Meaningful, distinctive material goes in quickly The working memory theory • Over time, the information processing theory’s concept of short term memory sprung more and more leaks • How do long term memory and short term memory work together? • From these and many other concerns, the concept of working memory began to emerge More “working” • A system for processing or ‘working’ with current information • The thoughts, facts, ideas, and feelings in our current sphere of attention, a mix of current experience and retained memories • Some of these new items might eventually be stored in LTM, others might not Three systems within working memory • Central executive – controls and coordinates the • Visuospatial sketchpad and the • Phonological loop The crucial focus • “How does this information apply to some experience in my own life?” • Make it your own and it will be yours forever. • Also known as elaborative rehearsal Long-term memory storage • To improve our memory we must improve the way we store information • Just repeating things, over and over again, will not help us remember them • We must process (work with) them deeply, by focusing on meaning Levels of processing • Our ease in retrieving a memory depends on the number and types of links we make with it • The more links or connections we make with the information, the better we will remember it • Use links that mean something to you Memory systems • Implicit Memory – memories which are influenced by experiences, often without awareness • Easier to do than explain • This memory system is often primed, or prepared, by events on the fringe of our attention • The cocktail-party effect Procedural memories • Memory of skills, procedures, habits, even conditioned responses • A subset of the implicit memory system • There are plenty of things that we can easily do, but have great difficulty describing • Very hard to “forget” • Riding a bike, typing, tying a tie, etc. Declarative memory • Contrasts with implicit/procedural memory • Consists of memories we can easily state in words • What we know verbally • We can lose this type of memory and yet retain implicit/procedural memories More memory types • Semantic – memory of general principles • Quite resistant to decay • • • • Episodic – memory of specific events Vulnerable to decay Combination leads to source amnesia “I heard about that, but I can’t remember where.” The importance of cues • Retrieval cues – prompts or stimuli to aid remembering • The more the merrier Encoding specificity • Associations formed while learning are the most effective retrieval cues • • • • This classroom This time of day Same chair Same people State-dependent memory • Tendency to remember something better if your body is in a similar condition when you attempt to recall it, as it was when you first learned it • Mood – cognitive view of depression • Drugs – if you studied under the influence, you should ….. • Small effects Assessing memory • 1) Recall – Producing the desired information without any cues or hints Short answer/essay tests Vulnerable to interference • 2) Cued recall – Producing the information with hints Class picture for kindergarten names • 3) Recognition – Picking out the desired information from a number of alternatives Multiple choice tests • 4) Relearning – learning something for the second time Usually reveals “savings”, information relearned much more quickly The Serial Order Effect • Primacy – we always remember the first one • Recency – and the last Flashbulb memories • Traumatic, highly emotional and compelling memories seem to be automatically encoded • These memories are indelibly seared into our memories • We remember in astonishing detail • Or do we? • President Kennedy’s assassination • The Challenger explosion • But research conducted in the wake 9/11, show that even these memories decay Memory reconstruction • The problem is more than just forgetting • We exaggerate, distort, and construct what we “remember” • Above all, memory is selective • We typically remember best the gist of the event • The details can be much more elusive Ebbinghaus & Interference • Pioneered systematic study • Memorized thousands of strings of nonsense syllables • Years later, novices trounced him in tests • How? Proactive interference – work with similar material in the past makes learning new material more difficult Losing cues – losing memories • We need cues to retrieve memories that we have not processed for a while • The memories are likely still there, but finding them among billions of neurons can be near impossible The Biology of Memory • We don’t gain memories without chemical and structural changes in our neurons • For short-term memory changes consist of a temporary change in the ability to release neurotransmitters A Change in Structure • For long-term memory the neuronal changes are more basic and lasting • A new long-term memory causes changes in synaptic responsivity – long-term potentiation • Exchanges between these neurons are chemically strengthened, and much more likely to communicate in the future More changes • Not only are these neurons synapses chemically strengthened, • The neurons grow more dendrites and forge more synapses • This happens over time, a process called consolidation The strange case of h. m. • Suffered from severe, recurrent epileptic seizures • In desperation, his hippocampus was removed • Sure, his seizures decreased in severity and frequency, • But, forever after, he “was preoccupied, with 1955” Who is that? • H. M. suffered almost complete anterograde amnesia – no new LTM • Every day, even 20 seconds, his memory was wiped clean • He couldn’t recognize his wife as she aged, even himself • He also demonstrated some retrograde amnesia Amazingly though, .. • H. M. despite his appalling deficits, could learn new skills, aspects of procedural memory • On the other hand, he did not know that he had acquired the new skill, an aspect of declarative memory A preference for the mundane • What we “remember” of events is often a mixture of surviving memories and what we expect must have happened • We alter some memories so that, in hindsight, they make sense • But life is truly stranger than fiction Emotional arousal • We usually remember emotionally arousing events but the accuracy of the memory can suffer • Arousal increases hormone levels which excite the amygdala, which works with the hippocampus to ensure storage A Common Wild-Card – Source Misattribution • Often it is far easier to remember something than it is to recall where we heard it • Since we experience or pick up so much information, from sources which vary greatly in credibility, this can lead to errors • Others call it source amnesia But where are they? • Short-term – frontal lobes • Long-term – hippocampus is essential, but after processing, they go to the cerebral cortex areas involved in their perception • Any single memory is a complex relationship of neurons scattered throughout the cerebral cortex, linked together at the start by the hippocampus Mnemonic devices • Any memory aid that relies on encoding each piece of information in a specific way • String items together in a story • Method of loci – link concepts or ideas with places, or a path • Clever, unusual images are essential More interference • Retroactive interference – work with new material makes old material harder to remember • Effect weakened by going to sleep right after learning information • No wonder ads shown during TV programs with violent/sexual content are routinely forgotten timing • Timing – spreading studying sessions over time aids retention • Even if you are able to devote a significant amount of uninterrupted attention to the material in one setting, you won’t remember it as well Repression • Are some things so traumatic that we involuntarily push them out consciousness • Into the unconscious? • Though Freud based many of his theories on this phenomenon, it doesn’t work that way. • In fact, we often find it difficult to stop thinking about horrible experiences