Midterm 372-1 Lecture Notes PDF

Summary

This document provides an overview of memory, discussing concepts like episodic memory and the role of prior knowledge in the recall process. It also examines the idea of a mental process for acquiring, storing, and retrieving information.

Full Transcript

Lecture #1

memory into -
acts as timetravel ,
thinking Bearing linked to memory -
a
change in the

about the past future of people to alter
, present, potential their benaw. as

& memories guide behaviour - H C!
a result of the exp -
of
regularities in the enr.

timetravel
Episodic memory
= -> recall = back in time ↓
changing
benav. to fit the

newonstructurally similar to the universe enu. Situation = learned

↳ thinking about the future ,
our behaw. is
guided to remember you need to learn
first

benaw
nothing
* without memory new
we are -
shapes >
-
retrieving.

of associations
decisions ,
social structures , cultures
-

acquisitions in a task

literal
study memory - research on
neurodegenerative Not memory
-
->
computer files ,

structures of
disorders ,
understanding memory recordings experiences

Definitions x3 actually-subjective exp -
of remembering
the into is kept ↓ focus of men.
location : where
studying
that holds the contents
representation
:
free they reconstruct
engram Memories are not
judgement ,

the actual memory trace events of moment
of experiences, our experienced ,
not replica

mental process : to acquire clean ,
store and * what we remember depends on how we
-

retrieve (remember infol remember !

one step Bertlett :
Prior knowledge influences memory
↳ notjust

History >
-
men thought to be objective prior ! s mem =
fragments , incomplete

reconstruct
Ebbinghaus = first to study memory when remembering ,
we with
prior

↳ studying mem
of nonsense sellables knowledge from similar exp.

tested himself
but only on ↓ reconstruction guided by our

move on to test would
study set ,
recall correct -
scrences ,
how we see

he retrieve !
= now m u c h can * network of info ,
how schemas interact to

of the required produce
findings Learning curve = of trials remembering
before errorless recall
reaching
an

curve he
found wa s
negativley accelerated Behaviourism /post
Ebbingnaus) >
- can o n l y observe

= most learning occuring quickly & start the , benaw , not unconscious thought (behaw- responses

plateaus ,
less and less occurs as time passes to stimuli

syllables harder more trials needed eg , rats
Tolman cognitie maps adapting
to
increased
learning
-
-
,.
,
,

to reach curve (learn) in the maze
changes

↓ more effective if learning ↓ but thrown
much expects treat of one a re a

was distributed rathertuch massed when layout changes indicates

Le forgetting as not practicing ? remembering , map present =
cognitions
stop delay initial large drop rise of computer tech 11950s now
practice
=
increase
cogpsych
: -

,

"........
in retrieval -
role of forgetting decreases over time mental process + computer similar ?

clive , plateaus as well
forgetting
 still recalled 70 % of sellables ↓ inter based on ob benaw
Ebbirghause pro.
>
- (month later ,
men.

Hackling memand
coyfunction
more review forgetting can hold up to 7
Magic
,

Miller : #7 =

curve becomes less
sim
digits #2e any given
time in

significant STM = limited capacity
O * info better memory
organized -

-becomes a cycle of review

forgetting-delayed via
studying/recall models of memory

info be
rapidly returned if model
after forgetting can
① modal

L
,

studied again ->
"Savings" into
- sensory

enters in to
·
Classification
S chemes for LTM sim
storage
- >
Sim interacts with

triachic theory external world and enters
Tulving's
conscious self from

requiresself knowedaowing t
Lim interactions

E
external world constantly charging senses pick
6 builds upon
,
-

-

conscious
>
-
declerative easy to explain
noself , inform sim
up on
changes ,

O
not tied to specific
C ↳ lots of movement/changing
Semantic :
of new info is
Unconscious ,
no

self time or place conscious awareness Imin if
O necessar
,
,

rept available for approx nothing

nothinking ↳

Know
no need to

"you'l
forgotten very slowly once initiated
is activley done with i t via sim

episodic :
specific moments , consions awareness of men would benere

for non declerative
require "self Knowlege" you control processes
-

manipulating into ,
,

what you're dong Lim
have kn ow
reversing ,
transferring
fo ,
reasoning
↓ active
>
-
forgotten quickly , WORKING mem

Lexplicit , a n o re you are activley remembering recall not retrieve and
just go
,

name of of knowledge %
a
recognizing someone LTM -

vide variety >
- not 100

not of model!
implicit ,
unconscious
,
aware use ,
eg reading.

, accurate

ini
↓ some need to pass
not
feeling live you are
searching for amem , it into doesn't

/most of life !) sim at all
just happens I through informal
our rather ,

activate the LM the
knoundge i n
ultiple memory systems :
manipulated aS
s im

all interact and

~ elate to each other neuroscience overview :

where memories are stored Kashley

the rep of mem
finding Mural a
*
engram
>
-

↳ lesioned diff puts of veets brains to try
and find engram
 together
with
encoding--LTP fire together will ,
Dmemory errors increasing
* neuronal connections makes lesionsize
strengthening
it easier for those murors to connect in the :
memory spread throughout whole brain

future memory
= process of newon networks not , justI
due increased
to
spine growth a postsyn electrical + chemical NT release & synglse
:
,

receptor sites (within new + (within synapse

* less use of newonal connection causes ↓ excitatory or inhibitory NT

weakness ,: Less likley to connect in
action potential
the future *
resting pot -> Nat outside axon and went

=
LTD after non-use to flow in >
-
too m u ch
pos.

each exp. we have alters brains physical state chage- >
K+ flows out to

systems: H2 damaget anterograde amnesia compensate
Hidamage +
enterograde amnesia

healthy systems consolidation
memory memory into tim
EP stays here kmp.

it
role is limited over time
HC ,

injury today into
birth stops storing by pushing
↳ remembering injure best
I
to into cortex
prior ,
up
ta for events in childhood HC stop time passes and
eunfar memory = first ,

so into close to bit more
foggy on disposes into cortex
injury ,
a

event I not consolidated yet)
↓ some still be near
↳
gradient may

⑭ no 12
,
Henry Molaison -: cannot o in

into
HC days late

n new memories but unsure when all enters LiM , varies
acquire
able to days later retrieval cue
acquire skills
-

declaritive retrieved
↳ non BG ↳
thing tobe
=

mirror task with be i n He
eg.

drawing may still

later retrieval cue
decreasing errors same
years
-

cortex
nondederative -
conditioning = Cerebellum
amygdala
,
↓ retrieve from ,

Skills : BG , priming-mocortex reconsolidation

declerative >
-
HC MTL into from
,
-

Ep retrieving
MTL perikinal =
objects cortex but not HC

parat 2 space scones
=

,

enterminal- to M
gateway
HC -
into about current exp , needed
For normal memory
 Brain dissociation
assessing underlying processes lesions double
:
imaging
-

Structure =
CT ,
MRI all 2 functions independent?

* ind from
function PET fMRI EEG, single /ellres
eg lang Comprehension
=.
·
,
-

,

lesion studies , patient populations production *

blood flow more blood flow present= Broca's
measuring >
-
Wernicue's + area

more oxy
-
needed because there's ↓ need to lesion one

activity of that area : active a rea the n measure

Hemodynamic response ! the other

then lesion second
Homography) radioactive
high spatial
PET : trace , , -

area and measure
low temporal ,
injection
fire levels blood better temp back to first one
:
oxy in ,
high spatial slightly ,
,

design * involvement
more flexible exp.

, less invasive figure out

MRI (clearphoto
=
high les US EMRE m a ny photos every I-Smin
Liesion
, ,.)
Clowerves Brock
,

EEG :
measuring event related potentials issue develops

high
temp -, low spatial with comprehension
limitations >
-
is an event
significant or
just significant but not
production
to baseline ?
↓ lesion
compared wernicke issue ,

correlation - causation develops with
production ,

what is wanted of the study ?
-

is the participant doing not comp

need some contrast imaging to have behaw-are
in an answer nolesions >
-
:
you
normal

limitations : Disconnection syndrome a re a x may dissociation :I
single
=

region
not participate directly infunction A lesioned behaw. from
gone
-

but disconnect I areas that are the region that
may

critical in
producting
function A We expected
↓ X could result in loss ofA but invosed
area.
region must be

could've been a middle man in that function

eg split brain patients inter damaged piece
single
>
-

corpus callosum split ,
leads to involves colour production
certain impairments v
>
- not directly caused by carpus doub

regions early out
callosum other
↓
,

these functions that would no sound ,
damaged piece invowed

insound production
passthrough corpus callosum.

localization of function and distributed
Brain relies o n
processing
 Lecture #2 more levels of pro:

⑰methods i n memory
research
generation
effect= filling i n gaps , blanks

learn first memory effect discovery moment
assess
recognition
->
And =
,

intentional
learning : memorization , consious encoding enactment effect-performing task rathe

incidental without intention to encode
learning :

learning ,
than watching

=
effect
unconsious production vocalizing while
encoding
encode ->
delay >
- recall =
memory exp. Drawing
=
draw as
you encode

(delay, effort to encode-more retrieval
memparadigm-encoding retention interval : more.

,

test (indirect

Retrieval * Stimulus encoding
matters for

-
functional stimulus is
meaningful to
vary son. in a
memphase =
Iv
"DAX"
poticipant leg Syllabic pair. is

I what needs to be remembered
also a startiek characte

measure performance amount recalled
prior exp Matters
-

-.

incidental
①encoding intentional or
=
-

memory not equal across stim

(direct instructions us.

Orienting task
ey pleasentness).

materials

f ↓
rating items causes encoding eg
-

pictures superior to words
,

type of
learning matters -
levels of processing (thought put into
encoding basic words superio
to abstract ,

rehersal vehersal emotional stim sup-to neutral
rote
-
Laborative ,

I repeat info , memorization , (mental ,
imagery pos. over
neg
not
engaging) engaging (
-
word frequency can impact recognition ,

0000 pennies we not necessarily recall

0000
seeall >
- wescepennies all ② retention interval (delay)
thetime the time but don't
duration matters
intervening task matters leg ST/
↳ ask
,.

to
participants engage
with design LT short delay , episodic waits longe
choose correct penny vote not the best
/ ↳
-

design >
- all incorrect o improving memory Directmemtest indirect memtest

effort old or new ? this object
*
during encoding matters name

rote us elaborative for word pais task
ey aware of recall
cuing.
>
-.
>
-

↑2 of list use rote other "e use
,
imagery ⑤ retrieval/test phase
retrieval for direct/indirect tests diff tests
↓ cred recall , i
higher use and measure

6
,

elaborative y2 diff DUs a diff aspects of mem
gets
AND incidental
encode i n more than one way
= more ways to retrieve used for intentional encoding
Adual code theory :
memory stored in a least 2 forms common DVs = reaction time , accuacy

Nebal + visual
Direct tests

·
S call es

forced
must

(told
I
generate
info ,

of items to remember
freely , ,
cled
 ③ memory tasks assess both implicit/explicit DVs = amount recalled ,
errors ,
over recall ,

Process dissociation procedure method to sep- response time
recall order /primacy/recencys
=
,

ex and im mem
Recognition identifying info.

--

↳ read word list and perform fragment = old or new ?, multiple choice

ad/ new
completion Dv's = discrimination (distinguishing ,

inclusion con : use any work that pops in yourhead amount correct ,
response times

exclusion con: exclude the words you just studied M2 -
can manipulate distractors /other

↓ need to think study
about
options) add a novel choice or

6 explicit
,

mem : will know to consciously exclude
-
studied very similar choice

implicit reporta word exclusion
:
mem one may still in
indirect tests ->
assesing memory while

encoded like fact
something
a
con because it wa s to test else
seeming
* test unrelated
old-new tests ->
> issue!
guessing to
encoding
ey. 2 participants looking , of their responses to old
images eg. Fragment
completion /generational , fill

- Anne + Bob say 100% are old in sentence , DU =
response time)

identification
dothey h ave
good ment i st h
what a e

-

Bobsaying old to all new
images. Anne
saying
perctual
2% of
old to only new
Aiming (faster ixn.

time to items that

good men ? A notable to assess men were previously seen
,
could also hinder

based on *
only accuracy

detection theory & short term
Prim A method to asses this mem sensory memory

responses Modal model

old new
Hits and false
longterm storage
alarms

old item ↓ can calculate -

·-
hit miss

correct
discrimination/d prime , the
new item
false
alarm rejection diff. bu transformed hits

and false alarms
&

calculate bias
!
(B) (diffbw hit.
false alarms interaction with
con

Old the world
criterion to identify items * able to sep new

6~
,

when they say old ?

-
as old vs.
new
h
memory-verylage but

vary independently
,
doesn't last very long , can rememberbig