Introduction to Psychology – Interim exam 3

Introduction to Psychology – Interim exam 3

This bundle contains everything you need to know for the third interim exam of Introduction to Psychology for the University of Amsterdam. It uses the book "Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition)". The bundle contains the following chapters:

- 1, 2, 3, 4, 5, 6, 7.

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Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 1

Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 1

Cognitive psychology is the scientific study of how people and animals process information. It studies how we acquire information, store information in memory, retrieve information and work with information to reach goals. In all these cases, individuals deal with internal or mental representations.

There is a long history of cognitive psychology:

  1. Ancient Greeks (500 B.C)
    Plato stated that there is ultimate knowledge and we only see representations of that. The ancient Greeks are also the founders of epistemology.
  2. Empiricism and associationism (17th – 19th century)
    Empiricists stated that all knowledge comes from experience and the followers of the associationism stated that ideas and memories were linked by associations (e.g: cow and milk are associated and thus easier remembered together).
  3. Introspectionism
    The followers of Introspectionism stated that all cognitive processes could be consciously reported by using introspection. The disadvantages of this are that it required a lot of training and could not be used with a lot of people, with children and with people with reduced mental capacities. The idea that all cognitive processes could be consciously reported was later debunked because a person is not able to report how that person perceives visual illusions. Besides that, reporting a process also has the potential to slow down the process.
  4. Behaviourism
    This approach states that it is impossible to know what cognitive processes are active. The only observable things are the input and the output. It also states that all behaviour can be explained by reinforcement and punishment; all mental phenomena could be traced to behavioural activity. Behaviourists also state that language is learned by reinforcement and punishment as well.

Tolman was a behaviourist but was the beginning of the end for behaviourism. He stated that rats have mental maps or mental representations of a spatial layout. Tolman partially debunked the behaviourist approach of describing basic behaviour by his experiment showing latent learning; animals learning even though there was no reward. The behaviourist approach had many successes in accounting for basic animal learning, it was less applicable to complex mental phenomena such as reasoning, problem-solving, decision making and language.

An information processing approach is an approach for understanding mental activity, based on computing. Computer programs to solve suitable problems could be seen as comparable strategies that humans might use to solve the same problems. Strategies are systematic ways to carry out a cognitive task. A simulation program is a program which expresses a model of human thinking and involves programming computers to solve problems in a similar way to humans. The difference between a simulation program and artificial intelligence is that A.I tries to solve the problem as effectively as possible, without any attempt at mimicking human strategies.

Theorists using the information processing approach try to explain performance in cognitive tasks by using concepts of internal representations, which are transformed by mental operations. Internal representations are the mental representations of external objects and events. Mental operations are inner actions manipulating mental representations. Connectionism is an approach to cognition in terms of networks of simple neuron-like units that pass activation and inhibition through the receptor, hidden and output units. The link strength is modified through learning rules such as backward propagation, which modifies the weight on the links between units in a connectionist network, in response to error, to obtain the desired output. The basic components of a connectionist network are:

  1. A set of processing units
  2. Weighted connections between units
  3. A learning strategy

Units affect each other by excitation or inhibition. Functionalists state that we don’t need to know the processes of the brain, as long as we know the functions and the functional properties.

The brain is divided into two hemispheres, connected by the corpus callosum. The outer layer consists of the frontal lobe, the primary motor cortex, the somatosensory cortex, the parietal lobe and the occipital lobe. Deeper in the brain are the thalamus, the hippocampus and the amygdala. At the base of the brain is the cerebellum. There are specific terms for determining the location of something in the brain:

  1. Dorsal and ventral
    Dorsal means towards the top and ventral means towards the bottom.
  2. Anterior and posterior
    Anterior means toward the front and posterior means towards the back.
  3. Lateral and medial
    Lateral means toward the side and medial means toward the middle.

Broca’s area is vital for speech production. Language functions are strongly localized in the left hemisphere. Neuropsychology states that all specific cognitive functions are linked to a specific brain area. Phrenology attempted to localize psychological functions to bumps in the skull taken to reflect the growth of the brain in specific areas. Cases of double disassociation are cases in which patients can be found with opposite patterns of impairment in two functions (e.g: poor short-term memory but good long-term memory). This is particularly useful for localization. There is a difference between structural imaging and functional imaging. Structural imaging is methods showing brain anatomy and functional imaging are methods showing brain activity.

There are several structural imaging methods:

  1. Magnetic resonance imaging (MRI)
    A magnetic field and provides high-resolution anatomical images.
  2. Functional magnetic resonance imaging (fMRI)
    This measures the degree to which oxygen in the blood flow goes to certain brain areas. The brain exists of voxels, some sort of pixels of hundreds of thousands of neurons.

There are also several functional imaging methods:

  1. Electroencephalography (EEG)
    This gives a record of function as a summary of electrical activity over a wide area of cortex, measured using sensors.
  2. Positron emission tomography (PET)
    This is very good for localization, but it uses radioactive fluid.

fMRI uses reverse inference to draw conclusions, but this only works in cases where ‘if and only if’ applies. The default mode network reflects internal tasks and this is more active in rest than when focussing on external visual signals. In the infant's brain, there is limited evidence for the existence of the default mode network, but the activity in the default mode network is more consistent in children as they age.

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Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 2

Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 2

Perception is our sensory experience of the world. Sensation entails the processes by which physical properties are converted to neural signals. Perception does not give us a faithful image of the real-world. There are three fundamental concepts of perception:

  1. Inverse problem
    The world is three-dimensional, but the image projected on our fovea is two-dimensional. This shows that our brain has lost a bit of information in the perception (the fact that the object is three-dimensional) and our brain has to make up for that when inverting the image back to a three-dimensional image.
  2. Bottom-up and top-down processing
    In bottom-up processing the original sensory input into a percept. It is data-driven. Top-down processing occurs when the way we perceive things changes the way we see things. Bottom-up processing probably dominated with unambiguous information and top-down processing dominates with ambiguous information.
  3. Likelihood principle
    The likelihood that an object or event will occur is important for the perceptual processing of that object or event (e.g: if we are looking for cats we are more likely to perceive things as cats than otherwise).

Invariants in vision are properties of the three-dimensional object being viewed that can be derived from any two-dimensional image of the object. Direct perception refers to the bottom-up process by which objects and their function are recognized. Direct perception consists of three levels:

  1. Computational theory
    In this level, perception focusses on what the purpose of computation is and why it does what it does (bottom-up)
  2. Choice of representation
    There is a transformation between input and output (top-down)
  3. Achieving the computations
    How perception actually takes place. This is biologically limited.

Embodied cognition holds that cognition is about the experiences arising from a perceptual system tightly linked to an action system, rather than the manipulations of abstract representations.

Synaesthesia is a condition where stimulation of one perceptual modality results in experiencing a percept in a typically unrelated modality (e.g: seeing letters in different colours). The basic organization of a perceptual system is a hierarchy (e.g: eyes – cones – optic nerve, thalamus, cortex – visual cortex – colour). Somatoperception is the perception of touch and proprioception is the sense of how our limbs are positioned in space and vestibular sensation is the sense of balance and orientation in space.

The encoding of visual information begins in the retinas of the two eyes and is transmitted from there to the primary visual cortex. Receptors in the eyes transform light into a neural signal. The image is projected on the fovea. The eye has two types of receptors:

  1. Cones
    These encode colour and high-resolution spatial form information. They are mostly centred in the fovea and there are fewer cones the further away you move from the fovea.
  2. Rods
    These encode motion and low-resolution form information. They cannot see colour. They are mostly around the fovea.

The right visual field ends up in the left hemisphere of the brain and the left visual field ends up in the right hemisphere of the brain. The place where the neurons come together in the fovea is a blind spot and the brain fills in this information by itself. The fovea has a disproportionate amount of visual cortex dedicated to processing incoming visual information, thus explaining why we focus on the centre of our sight. Things that are viewed close together, are also processed close together. There are two primary pathways for visual processing that lead into the occipital cortex and beyond:

  1. Ventral stream
    This pathway leads from the visual cortex to the temporal lobe and is specialized in object determination. It is also called the “what-pathway”.
  2. Dorsal stream
    This pathway leads from the visual cortex to the parietal cortex and is specialized for determining where objects are in the visual world. It is also called the “where-and-how pathway”. This pathway is crucial for guiding movements when picking up objects.

The experiment by Hubel and Wiesel shows that there are feature detectors in vision. Those are neurons that fire when seeing a certain feature (e.g: neurons firing when a bar is vertical or almost vertical and not firing when the bar is horizontal).

The encoding of auditory information begins within a special structure in the ear known as the cochlea and is transmitted from there to the primary auditory cortex. On the cochlea, there is a band of nervous tissue called the basilar membrane and on this membrane are hair cells that move in response to sound pressure to transform it into a neural signal. The auditory system is arranged tonotopically. The frequency and thus the pitch of a sound is determined by the amplitude. The loudness is determined by the firing rate of the neurons. Aphasia is the inability to use either verbal or written language and amusia is the inability to hear differences in tones and is also called tone-deafness. Phonagnosia is the inability to recognize familiar sounds, although they can discriminate between sounds.

The processing of touch begins in specialized receptors in the skin, which project pathways of neurons to the brain. These pathways end in the somatosensory cortex which is located next to the central sulcus, the major boundary between parietal cortex and frontal cortex. Sensitiveness of touch is not equally divided over the body. Brodmann areas are regions in the brain distinguished by the structural properties of the neuronal architecture.

Information about the world should be combined because each piece of information has its own strengths and weaknesses. All the systems are linked together in forming perceptions. The McGurk effect demonstrates that the combination of sensory information can lead to a perception that is different from that produced by individual sources (e.g: we see something different than we hear and thus we hear something different). Intelligibility increases when sight and sound are put together. The modality appropriate hypothesis states that for each physical property of the environment, there is a particular sensory modality that has a higher acuity for estimating this property than the other senses. This modality will always dominate bimodal estimates of the property (e.g: the sense that is most useful in a task dominates). Vision dominates most of the time.

General perceptual processes produce an object representation that can be compared to a stored internal representation and thus we recognize things. Feature analysis states that we recognize objects because we recognize the components that are included in our ‘internal library’ and put them together. There are some problems with this theory because it requires us to have an internal image of all possible scenarios for all possible objects and this would require immense memory storage.

The pandemonium model states that there are so-called demons in a hierarchy, with lower demons assigned to evaluate the utility of individual features and higher-level demons assigned with evaluating the success of lower-level demons (e.g: when reading a sentence, one set of demons recognizes lines, one set of demons recognizes the letters in those lines and so on). The prototype theory states that we recognize objects because we compare the object we’re seeing to the ‘best / most common’ version of that object that we know.

Viewpoint invariant relationship is an aspect of an object that we view that is preserved, no matter the direction from which we view the object. Geons are the elements of a set of volumetric primitives or shapes that can be recognized from any viewpoint. Geons are crucial In Biederman’s recognition by component theory. The multiple views theory states that recognition is image-based and that object recognition is achieved by storing representations of a few select views of the object that had been learned. This theory predicts that we are better at recognizing objects if we look at them from directions more similar to the learned views. The information theory states that patches of images with intermediate complexity were optimal to encode a set of images for subsequent recognition tasks. In human recognition using the view, colour is only important when form is ambiguous.

Haptic perception is the combination of abilities that allow us to represent the material characteristics of objects and surfaces for recognition (e.g: we use our hands to discover what we are holding, somatoperception system). People with visual agnosia are unable to recognize objects. People with prosopagnosia can’t recognize faces anymore.

Event perception refers to the changes in layout, changes in surface existence or changes in colour and texture or it refers to an event as a segment of time at a given location that is conceived by an observer to have a beginning and end. The perceptual cycle is defined as the cyclic process comprised of the following steps:

  1. Memory in the form of schema drives exploration
  2. This leads to information pick-up
  3. This leads to potential modification of schema and subsequent repetition of the steps of this cycle

A schema is a framework that represents a plan or theory, supporting the organization of knowledge.

Social perception informs us about the thoughts, emotions and internal states of others and this is useful information to help us navigate our social world. People with Capgras syndrome believe that people or things have been replaced with duplicates. There are some general properties for face recognition:

  1. Familiar faces
    Humans are especially tuned to recognize familiar faces.
  2. Unfamiliar faces
    Humans are poor at recognizing unfamiliar faces.
  3. Brain areas
    Humans have specialized brain areas and networks for facial recognition.
  4. Holistic
    The mechanisms of facial recognition are holistic.

The cross-race effect refers to the fact that people are more likely to identify someone from the same race than someone from another race. Haxby’s neural model of human face recognition comprises multiple regions spread throughout the brain. The organization of this system emphasizes a distinction between the representation of invariant and changeable aspects of the face. The invariant aspects of faces are responsible for the recognition of individuals and the changeable aspects of faces facilitate social communication.

One way voice carries information, independent of linguistic content, is found in the fact that the emotional content of an utterance can be carried in the prosody of the speech. The prosody is the rhythm, intonation and stress patterns in speech. People with phonagnosia can’t recognize identity from voices. Humans are able to recognize identity by looking at the biological motion. This way we can determine action, identity, vulnerability and sometimes gender.

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Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 3

Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 3

Attention is a limited resource that is deployed to facilitate the processing of critical information. One basic taxonomy of attention states that there are two types of attention:

  1. Internal attention
    This refers to selecting control strategies and maintaining internally generated information, such as rules, responses, long-term and working memory. It involves regulating our internal mental life. Internal attention deals with our internally generated thoughts, desires and motivations.
  2. External attention
    This refers to selecting and controlling incoming sensory information.

Posner stated that there is an attention system, that exists of three different systems:

  1. Alerting (brain stem and frontal cortex)
    This is responsible for achieving a state of arousal. It uses the neurotransmitter norepinephrine.
  2. Orienting (frontal and parietal cortex, including the frontal eye fields)
    This is responsible for directing our processing resources to incoming information. It can be described as external attention. It uses the neurotransmitter acetylcholine.
  3. Executive function (medial frontal and parietal cortex)
    This is responsible for the supervision of attention. It decides where the attention should go. It can be described as internal attention. It uses the neurotransmitter dopamine.

The cocktail party problem refers to focusing on one speaker in a background of noise and other conversations. There are several theories of attention. There are filter theories, that describe when we process the incoming information:

  1. Theory of early selection
    The sensory memory briefly maintains information from all perceptual systems and only the relevant information gets stored in the short-term memory. The irrelevant information gets sorted out early on in the information processing cycle.
  2. Theory of late selection
    All sensory information is identified, but only attended information gets stored for further processing. The irrelevant information gets sorted out late in the early information processing cycle and is processed before it gets filtered out.
  3. Theory of attenuation
    The intensity of the irrelevant information is diminished, but not eliminated. The irrelevant information is processed, but the intensity of this information is diminished so that only the relevant information makes it to the working memory.
  4. Workload theory of attention
    This theory states that the amount of processing the unattended stimuli receive depends upon how difficult it is to process the attended target. If the workload is low, the selection is late, if the workload is high, the selection is early. If a distractor is used in experiments, then this distractor has a larger effect with a low workload.

The resource theory of attention uses the metaphor of the spotlight. This refers to the ‘spotlight of attention’ that illuminates locations of interest. The zoom lens theory uses this metaphor. The size of the spotlight depends on the size of the object that requires our attention. Evidence that attention is a resource comes from experiments by Egly, that show that attention can be bound to an object, instead of a spatial area. An explanation for this could be that the spatial location of objects changes constantly, so it would be more useful to focus our attention on the object, instead of the spatial location of the object. To test whether tasks compete for resources (such as attention), the dual-task paradigm can be used, where two tasks are measured both independently and dependently. Our ability to do multiple tasks simultaneously depends on how far apart they are on the relevant dimensions (e.g: speaking and listening tasks will be more difficult simultaneously than seeing and speaking tasks).

When an individual sees a stimulus, the first component of activity is known as feedforward sweep, which describes how incoming sensory information travels across the brain. Once an area is activated it can interact with both higher and lower brain areas in a mode of recurrent processing. This is processing within a network, that involves computations that occur in a cyclic fashion. The receptive field of a neuron indicates the physical space that stimulates the neuron. The normalization model of attention states that attention increases the neural response to a stimulus in the visual cortex. This model focusses on two functions of attention:

  1. Increasing sensitivity to faint stimuli presented alone
  2. Reducing the impact of task-irrelevant distractors when multiple stimuli are presented.

The stimulus drive is the presented image. The suppressive drive is the perception using attention to decrease the impact of a part of the image and the population response is what the individual sees. Taking attention away from a location in working memory causes a decrease in the memory performance.

The feature integration theory states that recognition of a target was modelled to be determined by two processes:

  1. Preattentive visual processes
    These processes simultaneously analyse the entire scene and detect the presence of unique features (e.g: this searches for stand-out features and if the item alone could be recognized by a simple primary feature, such as shape, then this preattentive stage alone could lead to recognition).
  2. Binding problem
    This is the use of attention to bind the different features together in order to recognize the object. This needs to happen if a single feature is not enough to recognize something because features are not processed together.

The non-selective pathway uses distributed attention. This is reminiscent of preattentive vision and allows rapid statistical analysis of the entire scene. If attention is attracted to an event in the visual field there will be a facilitation of processing around this location. After attention moves away, this location suffers from delayed responding to events. This is called the inhibition of return. The function of this is to make sure that searchers don’t return to the place they’ve just searched right away.

If people are looking at a rapid moving sequence and they are trying to detect two things that are close to each other, the second thing is not detected. This is called the attentional blink.

There are several failures of attention:

  1. Change blindness
    The substantial differences between two nearly identical things are not noticed when presented sequentially.
  2. Inattentional blindness
    This is the failure to notice a clearly visible target due to attention being diverted from the target.

An afterimage occurs when the vision of an object remains after the presentation has ceased (e.g: looking in bright light). Continuity editing describes a filmmaking technique to produce a smooth continuous experience across changes in camera shot.

Consciousness is being aware of one’s existence evidenced by thoughts and perceptions. Subliminal perception is perception where the stimulus is presented under a certain threshold (e.g: the stimulus is too dim or presented too quickly, but the effects on behaviour can still be measured. There are two distinct views on the functions of consciousness:

  1. Inessentialism
    Consciousness is not necessary, because any action that can be performed by a conscious agent can also be performed by a non-conscious agent (e.g: philosophical zombies are not conscious, yet appear to be so).
  2. Epiphenomenalism
    Consciousness has no function. It is merely a by-product of our brain processes (e.g: consciousness is equivalent to the whistle of a steam-train, unnecessary for the main mechanism).

Volition is our ability to make conscious choices. This includes a free will. There seems to be a causal relationship between our actions and our conscious thoughts, but Libet’s experiment seemed to provide evidence against this view. Our readiness potential, which indicates brain activity reflecting the initiation of preparing a movement, precedes our conscious awareness of a movement.

Another theory of consciousness states that the function of consciousness is to provide us with an executive summary of our current situation. The global workspace theory states that consciousness facilitates flexible, context-driven behaviour and that consciousness requires interactions between a broad range of brain areas (e.g: consciousness is needed to determine the mental state of others and this is highly context-driven).

Attention and consciousness share the property of involving the selection of particular information above other information. In attention, the selected information receives deeper processing and in consciousness, the selected information receives privileged access to the stage of our mental life. There are different types of consciousness:

  1. Phenomenal consciousness
    This includes the experiential properties of sensations, feelings and perceptions. It is experience.
  2. Access consciousness
    This includes representations that are broadcast for use in reasoning and control of action and can be reported. It is the mental life.

The left hemisphere of the brain is responsible for language. People with a split-brain cannot talk about what they see in their left visual field, but they will be able to use their hand to point at the object. They will not know the reason for this, as language is produced in the left hemisphere. Blindsight is a condition in which people have damage to the primary visual cortex which has the effect that people cannot see anymore, although their eyes are functioning properly. Although they cannot consciously report seeing anything, they do respond in various ways to stimuli presented in this damaged visual field.

The neural correlates of consciousness are used to differentiate the empirical approach of studying consciousness with the philosophical approach. Binocular rivalry arises when different images are presented simultaneously to the two eyes and results in experiencing seeing one image and then the other alternatively. The visible image dominates the invisible one in consciousness.

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Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 4

Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 4

Memory allows us to encode, store and retrieve information. Encoding is the function by which information is coded in a form that allows it to be stored in memory. Storage is the function by which information is retained in memory. Retrieval is the function by which information is recollected as needed. There are several types of memory:

  1. Short-term memory
    This is where accessible information is held for a short period of time.
  2. Long-term memory
    This is the system where information is held for longer periods and can be accessed when needed.
  3. Working memory
    This is the system in which information is held and manipulated in order to perform a task. There is overlap between short-term memory and working memory.
  4. Sensory memory
    This is the temporary sensory register that allows input from the sensory modalities to be prolonged.

Sensory memory can be easily disrupted. Masking refers to reduced perception of a visual stimulus when another stimulus is presented in spatial or temporal proximity to it. The stimulus onset asynchrony refers to the time between the onset of a stimulus and the presentation of a mask. Recognition of visual stimuli increases as the time of the mask is later after the original visual stimuli. There are several modality-specific sub-stores in the sensory memory:

  1. Iconic memory
    This is called the iconic store, the sensory memory store for visual stimuli. It allows visual input to be prolonged. Evidence for this store comes from Sperling’s experiment. People can, for a short time, register a large amount of information. The iconic memory rapidly fades away.
  2. Echoic memory
    This is called the echoic store, the sensory memory store for auditory stimuli. It allows auditory input to be prolonged. Evidence for this comes from Darwin’s experiments and from the shadowing technique, in which people have to repeat an auditorily presented message.
  3. Haptic memory
    This is the sensory memory store for stimuli sensed through touch.

Holcombe states that visual processes can be categorized into two groups:

  1. Fast group
    This involves processes relating to detection of motion, depth and edges
  2. Slow group
    This involves less sensitive temporal limits involved in higher-level perception, including high-level motion processing and the integration of colour. (e.g: words take longer to be perceived than motion).

Short-term memory holds information in consciousness, It provides temporary storage of active information and has a limited capacity. Atkinson introduced the modal model. It proposes that there are three memory stores, the sensory register, the short-term store and the long-term store. According to the modal model, information is first registered in the sensory store and salient information is transferred to the short-term memory store. The type of processing carried out will determine whether information will be stored in the long term memory store. There are several ways of information processing:

  1. Rehearsal
    These are processes by which we can act on currently active information (e.g: repeating the item of thought to yourself).
  2. Maintenance rehearsal
    Retains information in short-term memory.
  3. Elaborative rehearsal
    Organizes the information so that is can be integrated into the long term memory.
  4. Decay
    A process by which information is lost from the short-term memory over time.
  5. Displacement
    A process by which information coming into the short term memory causes information already held there to be lost.

The assumptions of the modal model were that there are separate memory stores, processing in the short-term memory store determines the memory storage in the long-term memory and that short-term memory is a limited capacity. The digit span task is a measure of the short-term memory and tests the number of digits a person can recall. Chunking increases the capacity of short-term memory. Chunking refers to a strategy to improve memory by grouping smaller units together into a larger unit or chunk.

The recency effect refers to the tendency to recall the things of the end of a list more readily than items from the middle. Performance is also relatively good for items at the start of the list. This is called the primacy effect. The negative recency effect is the tendency to recall items at the end of a list poorer than items at the beginning of a list. The double dissociation of function refers to the contrasting patterns of deficit in two patients or patient groups which provides evidence for functionally independent systems.

Working memory is the workbench of human cognition. It is the collection of mental processes that permit information to be held temporarily in an accessible state, in service of some mental task. Working memory may have three definitions:

  1. Focus of attention
  2. Information that is temporarily activated in the system
    This includes information about our current goals and plans.
  3. Sensory-specific multi-component storage system
    This is for short-term storage and processing of information.

In Cowan’s embedded processes model, memory within the focus of attention, the time-limited active memory (no conscious awareness) and the long-term memory form the working memory. Baddeley’s working memory model proposes three main components to working memory:

  1. Central executive
    This controls and coordinates the activity of the other components.
  2. Visuospatial sketchpad
    This is the temporary storage and manipulation of visual and spatial information
  3. Phonological loop
    This is the temporary storage and manipulation of sound or phonological information.
  4. Episodic buffer
    This is the temporary storage of information integrated from the phonological loop, the visuospatial sketchpad and long-term memory into single structures or episodes.

The phonological loop is specialized for speech-based information. It holds as many verbal items as a person can say in about two seconds. It uses an articulatory control process, which allows the maintenance of information in the store and converts visual information (e.g: written text) to a speech-based form. There is plenty of evidence for the phonological loop:

  1. Word length effect
    People can store more words in the phonological loop if the words take less time to speak. This is also shown in the differences between total words in the phonological loop between languages.
  2. Effects of articulatory suppression
    The ability to sub-vocally rehearse the words can be disrupted if the participant is required to do a task while learning a string of words. This is called articulatory suppression. It reduces the memory span of the phonological loop and eliminates the word length effect. It also disrupts transfer of visually presented material to the phonological loop.
  3. Irrelevant speech effect
    Recall of visually presented verbal material is poorer when irrelevant speech is presented during learning because this takes up some of the memory of the phonological loop.
  4. The phonological similarity effect
    The recall is poorer for an ordered list of verbal items when the items sound alike. An explanation for this is that the phonological loop uses phonological fragments within the items and confusion arises as the number of shared fragments increase.

The visuospatial sketchpad is specialized for dealing with visual and spatial information. It has the capacity of about three to four objects. A visual cache stores information relating to visual form and an inner scribe allows spatial processing. There is selective interference of visual and spatial working memory tasks.

The central executive is the workhorse and mastermind of human cognition. It is active in controlling active information. There are two types of cognitive control:

  1. Automatic system of control
    This system allows us to perform routine and well-practised actions through the selection of learning habits and schemas without the need for deliberate cognitive control.
  2. Attentional control system
    This can interrupt automatic processing, select an alternative schema and allow attention directed toward a goal. This is used for tasks that are not routine (e.g: driving at the opposite side of the road).

These control systems allow three levels of functioning:

  1. Automatic mode
    This is for routine actions
  2. An intermediate, partially automatic mode
    This allows attentional control of actions
  3. Deliberate control mode
    This allows non-habitual or novel tasks.

People with damage to the prefrontal cortex or if the prefrontal cortex hasn’t been developed fully yet find it difficult to inhibit responses and switch between tasks. This can be seen in several things:

  1. Capture errors
    This involves a failure to override a routine set of actions. A routine action is performed when another action is intended (e.g: when seeing the word “green” in blue letters, people with prefrontal cortex damage can’t say blue, only green).
  2. Preservation
    This is the inappropriate repetition of an action (e.g: continuing with the wrong task, because of the previous task). It is difficult to switch tasks.
  3. Utilization behaviour
    This refers to dysfunctional automatic reaching for and use of objects in the environment. The person that shows this behaviour fails to inhibit behaviour.

The dysexecutive syndrome refers to a range of deficits reflect problems with executive function and control and is often associated with injury to the frontal areas of the brain. The episodic buffer is a temporary storage structure of limited capacity that is controlled by the central executive and allows information from different sources to be integrated. It is an interface between the modality-specific systems of working memory and long-term memory.

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Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 5

Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 5

The case of H.M demonstrates three important aspects of long-term memory processes:

  1. Long-term memory processes are not distributed throughout the brain.
  2. Long-term memory encompasses a number of different abilities.
  3. Memory is separable from language, perceptual and other cognitive functions.

Amnesia refers to a pattern of memory loss affecting elements of long-term memory, while short-term memory remains intact. It is sometimes also called the amnesic syndrome. Amnesia has a number of general characteristics:

  1. Short-term memory is intact
  2. Memory for language and concepts is intact
  3. There is severe and lasting anterograde amnesia: memory for events after the onset of amnesia will be impaired.
  4. There will be retrograde amnesia, the patient will have a loss of memory for events prior to the onset of amnesia.
  5. Skill learning, conditioning and priming will be unaffected.

Ribot’s law states that recently formed memories are more susceptible to impairment than are older memories. The Wechsler Memory Scale is a widely used neurocognitive assessment that measures visual memory, auditory memory and working memory. There are several causes for amnesia, such as brain surgery, infections, head injuries, a stroke or Korsakoff’s syndrome, in which a thiamine (vitamin B1) deficiency causes brain damage.

James made the difference between primary and secondary memory. Secondary memory is long-term memory. Verbal learning refers to the area of experimental psychology concerned with how we learn and remember language-based items. There is a distinction in long-term memory between the following to long-term memory types:

  1. Non-declarative memory (implicit memory)
    This is the memory that is not accessed consciously and that we are not able to report verbally. It includes memory which benefits from previous experience but without our awareness of that experience.
  2. Declarative memory (explicit memory)
    This is the memory that involves conscious recollection of memories such as events, facts, people and places.

There are three types of recollection of information from the memory:

  1. Free recall
    Participants in a task recall the information in any order, without hints or clues to recall.
  2. Cued recall
    Participants in a task recall the information and are given a hint to aid the recall.
  3. Recognition
    Participants must verify if an item is a target.

Tulving proposed a distinction within declarative memory. The distinction can also be seen as a difference between remembering and knowing.

  1. Episodic memory
    This is the memory for events, experiences and episodes (e.g: yesterday was a good day).
  2. Semantic memory
    This is the memory for facts and knowledge about the world (e.g: Paris is the capital of France).

There are different types of non-declarative memory, all showing implicit memory:

  1. Procedural memory
    This includes skill learning. It is closely associated with motor performance, but cognitive skills and some perceptual learning skills are also aspects of procedural memory. Focussing our attention on a skill can disrupt the processes involved and performance can suffer. This is also called paralysis by analysis or ‘choking’. Procedural memory is generally preserved in patients with amnesia.
  2. Habit learning
    This refers to memory acquired over time through repeated associations between stimuli and responses. One set of tasks that have been used to investigate habit learning in the absence of input from declarative memory involves probabilistic classification learning. This involves learning a set of associations that cannot be readily memorized and information from across many trials must be used to complete the task.
  3. Priming
    This refers to an implicit memory effect whereby exposure to a stimulus affects a subsequent response (e.g: the cow drinks milk). Conceptual priming tasks include category exemplar tasks. These tasks are those where participants are given category names one by one and are asked to generate exemplars for each. Some categories will have been encountered during an earlier stage.

Tulving notes three key properties of episodic memory. It is associated with our subjective sense of time, there is a connection to the self and the mental time travel is associated with a special kind of conscious awareness called autonoetic consciousness. Autonoetic consciousness allows humans to use memory to relive past events and imagine ourselves in the future, from a self-perspective.

Memory is constructive and when we recall our past experiences, we reconstruct the event in our minds, using information gained before, after and at the time of the event itself. Schemas are organized memory structures that allow us to apply past experience to novel situations so as to guide behaviour. Schemas produce expectations that reduce the ambiguity of new situations, although these expectations an lead to erroneous judgements. The adaptive function of memory is using the cognitive functions to focus on the aspects that contribute to thinking about the future. The memory that allows us to keep track of plans and carry out intended actions is called prospective memory. Prospective memory allows us to remember to perform certain actions. Prospective memory lapses often involve a failure to interrupt habitual routines. Action slips involve an action being completed when it was not intended (e.g: sugar in the teapot instead of the pot).

There are event-based and time-based prospective memory tasks. Event-based memory may be triggered by a particular cue. Time-based memory may be triggered by a particular time. Pulses are intentions that are time-locked (e.g: dinner has to be taken out of the oven in 30 minutes). The intentions must be carried out at a particular time. Steps are intentions that have a wider time frame in which they can occur (e.g: I have to call John some time this week). There is evidence that obsessive-compulsive behaviours arise from a deficit in prospective memory.

Autobiographical memories are episodic memories for personally experienced events in a person’s life. False memories are inaccurate recollections of events that did not occur or distortions of events that did occur. Imagining false events increases the likelihood that they will be recalled. This is called the imagination inflation, the strengthening of a false memory through repeated retrieval. Demand characteristics are the aspects of a research study which convey hypotheses or aims to the participants and may thereby shape performance. Disputed memories happen with siblings that are close in age, where the ownership of the memory is not clear. The siblings both believe that they were the protagonist of the memory.

Déjà vu is a type of illusion of autobiographical memory. It is the knowledge that a situation could not have been experienced, combined with the feeling that it has. There are three possible mechanisms for déjà vu:

  1. Split perception
    We get a brief glimpse of a visual scene before becoming fully aware of the scene.
  2. Implicit memory
    We have already experienced the scene or part thereof, but it has been stored such that only a feeling of familiarity is elicited when we re-encounter it.
  3. Gestalt familiarity
    The scene we encounter closely resembles a scene we have encountered in the past.

Semantic memory is our store of general knowledge about the world. Metamemory is the ability to monitor and inspect the content of memory. It allows us to know whether we know something (e.g: the likelihood that we know something, which we cannot currently recall). The long-lasting store of knowledge was referred to by Bahrick as the permastore. The permastore involves the long-term retention of content that has been acquired and relearned over a period of time, even if rarely used thereafter (e.g: people remember Spanish words learned in high school up to 50 years after high school).

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Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 6

Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 6

Learning refers to the processes of acquiring information for mental storage and later use. Forgetting refers to processes leading to a loss of ability to retrieve previously learned information. The first step in learning new information is to encode that information in an internal representation in working memory. This representation needs to be processed further in order to develop a mental trace, a mental representation of stored information.

Craik’s theory of levels of processing states that the strength of the memory traces depends on the levels of processing. Deep processing (e.g: adding meaning to a word) leads to stronger memory traces than superficial processing (e.g: just reading a word). According to this theory, learning does not have to be intentional, as incidental learning can take place. Positive trial encodings strengthen pre-existing links between stimuli. A pitfall of this theory that it could be using circular reasoning.

Mnemonics are strategies to enhance memory performance. There are several mnemonics:

  1. Categorization
    This is a mnemonic strategy involving grouping of items into familiar categories. The number of categories and a potential hierarchy in the categorization influences recall.
  2. Method of loci
    This is a mnemonic strategy in which a familiar route is imagined and images of the items to be recalled are linked to landmarks on the route.
  3. Method of interacting images
    This is a mnemonic strategy in which vivid and bizarre images are formed of the items to be recalled, interacting in some way (e.g: the words ‘dog’ and ‘car’ are imagined together and thus interacting).
  4. Pegword method
    This is a mnemonic strategy in which to be recalled items are linked by imagery to an already learned sequence list of imageable words (e.g: linking the number one to a specific word).

The dual-coding hypothesis states that concrete words can be encoded both verbally and visually and thus it is easier to recall them, as there are two possible ways of recalling the words. Abstract words can only be encoded verbally.

The encoding specificity principle is that if the context at recall is similar to the context at encoding then memory will be enhanced. If the cues at the time of learning are the same as the cues at the time of recall, then the memory will be enhanced. Context effects occur if memory is better when the external environment at testing is the same as at learning (e.g: learning while in a quiet room and recalling information in a quiet room). State-dependent memory effects occur if memory is better when internal physiological conditions at learning are reinstated at testing (e.g: when learning drunk, recall is better while drunk than when sober). Mood dependent memory means that memory is better when mood at learning is reinstated at testing.

The spacing effect occurs when material studied on many separate occasions is better learned than material studied in one continuous session, even if the total study times are equal. There are several explanations for the spacing effect:

  1. Deficient processing
    Massed repetition leads to deficient processing of the second presentation. We do not pay as much attention to the thing that is presented later than at the thing that is presented first and thus we remember less because we do not process it fully.
  2. Encoding variability
    Spaced repetition is likely to cause some variability in representation. There are more cues for the learned material and this wide range of cues associated with items at study are more likely to recur at a test with spaced as against massed learning conditions.

Forgetting occurs when someone cannot retrieve information that had been previously available from memory. Savings is a way of assessing forgetting by comparing trials needed for relearning as against trials required for original learning. If fewer trials are needed for relearning, then savings have been demonstrated. Forgetting occurs because of decay due to the passing of time, but the principal explanation of forgetting is interference. Interference occurs when remembering is disrupted by related memories. There are two types of interference:

  1. Proactive interference
    This occurs when previous learning impairs later learning (e.g: learning Spanish while speaking fluent French can be difficult).
  2. Retroactive interference
    This occurs when later learning impairs memory for earlier memory (e.g: learning Spanish while speaking fluent French can interfere with the fluency of speaking French).

The paired associates learning paradigm is a memory task in which participants are presented with pairs of items at study and on a test are given the first word and asked to recall the second word in each pair. People forget fewer things while they are sleeping because there is reduced conscious activity compared to when they are awake. Sleep or inactivity allows consolidation of new memories takes place without a lot of interference. The beneficial effect of a period of sleep or inactivity is called retrograde facilitation.

Long-term potentiation is the long-lasting improvement in signal transmission between two neurons that result from stimulation them at the same time (neurons that fire together wire together). REM sleep does not facilitate memory, mostly because it induces long-term potentiation.

Anterograde amnesia is the inability to lay down new memory records is also associated with temporally graded retrograde amnesia, in which memories formed prior to brain damage are impaired, but the effect depends on the age of the memory trace at the time the damage occurs, with more recent memories suffering the most. The medial temporal lobes, which includes the hippocampus, play a critical role in the formation of new memories. Temporary anterograde amnesia can be induced by certain drugs which can also produce retrograde facilitation. Newly formed memories can be retained more easily, but new memories cannot be formed in the drugged state. Black-outs because of alcohol are the result of a failure to encode or consolidate new memories. An important factor in retrograde amnesia is a heightened susceptibility to retroactive interference preventing consolidation.

Forgetting helps us forget the things we don’t need to know anymore and not remember intrusive memories, persistent, unwanted memories for example of traumatic experiences. There are several functional approaches to forgetting:

  1. Retrieval-induced forgetting (RIF)
    This is an impaired ability to recall some items caused by earlier retrieval of related items (e.g: thinking about what went well on a holiday improves the likelihood of forgetting what went wrong).
  2. Directed forgetting (DF)
    This is memory impairment brought about by instructions to forget some items. There are two variants of directed forgetting. The item-based form of DF and the list-based form of DF. In the item based form of DF, people are shown items of which some are then to be forgotten. In the list based form of DF, people are shown two lists of items of which one of the lists is instructed to be forgotten.
  3. Think/no-think (TNT)
    This is a memory manipulation in which participants are instructed not to retrieve a memory even when a strong cue is present.

Ecological validity is the degree to which the results of a laboratory study can be applied to a real-life situation. Ecological validity consists of two aspects:

  1. Representativeness
    This increases with the realism and the naturalness of the study’s materials and tasks.
  2. Generalizability
    This is the degree to which results are broadly applicable to a wide range of situations.

A flashbulb memory is a vivid memory of a dramatic event and of the circumstances in which the event was experienced or heard about. Flashbulb memories are open to the effects of leading questions and can show inaccuracies. Accuracy of the recalling of the events change quite drastically over the three months but remain relatively stable after that. There are several factors that influence eyewitness testimonies, such as stress, not recalling something accurately because we deem it not important enough at the moment of the event, leading questions and gestures.

There are three main types of studying:

  1. Surface learning
    Here students try to learn texts by heart without seeking understanding
  2. Deep learning
    Here students make a determined effort to understand the material and make it meaningful to them
  3. Strategic learning
    Here students put effort into finding out what topics and types of questions are likely in their examinations and devise strategies to cover the minimum number of topics required.
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Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 7

Cognitive Psychology by K. Gilhooly, F. Lyddy, and F. Pollick (first edition) – Summary chapter 7

Concepts are mental representations of classes of items (e.g: dogs). Imagery is the mental representation of sensory properties of objects, experiences as like perceiving the object but with less vividness than in reality. There are different approaches to concepts.

The definitional approach looks at the definition of an object in order to form a concept. The concepts are based on the definition of the word. This approach looks for well-defined concepts. The main problem with this approach is that most everyday concepts are not so well defined.

The prototype approach looks at the most typical of a ‘family’ of concepts which represents the other concepts. Typicality is the extent to which an object is representative of a category. Members of a category share a family resemblance. This is the tendency for members of a category to be similar to each other but without having any characteristic in common to all of them. The more an item of a category has a family resemblance, the more typical it is deemed to be. The item in a category that has the highest overall family resemblance to the other category members is the prototype of that category. The prototype is an ideal example that best represents a category. The prototype does not have to exist. It is the statistically average member of the category. Categories and concepts typically form into hierarchies. Lower level categories are nested within higher-level categories. The mid-level category is the basic level of categorization. These are categories formed of items that are highly similar and at an intermediate level in a concept hierarchy. The problems with the prototype approach are that some objects are more readily categorized as something, even though it looks more like a different prototype and some things don’t have prototypes, such as rules or beliefs. Ad hoc categories are categories formed of items that meet a given goal. The family resemblance does not work for ad hoc categories.

The exemplar-based approach proposes that categories are represented purely by stored examples or instances and each example Is linked to the category name. If a new item’s similarity to already known items is above a certain threshold it becomes a member of that category. The exemplar approach readily represents variability within a category, which the prototype approach does not.

The theory/knowledge-based approach uses knowledge in order to categorize items. It includes causal information and causal knowledge is used in order to categorize items.

Essentialism is the view that all members of a given category share some key property. This does not have to be something that can be seen from the outside (e.g: a bird without feathers is still a bird). Barton argued that there are different types of concepts which may have different forms of essential properties:

  1. Nominal concepts
    These are concepts which have clear definitions. The essential part is easy to locate here (e.g: triangles are three-sided closed figures).
  2. Natural kind concepts
    These are concepts that are commonly identified as naturally occurring (e.g: cats, rainy days).
  3. Artefact concepts
    These are concepts that are human-made objects and are generally defined in terms of their function (e.g: laptops).

Barton asked participants to imagine three types of transformation of natural kind and artefact categories: functional, physical and molecular. The artefact concepts were more prone to changing categories when functional changes occurred and the natural kind concepts were more prone to changing categories when molecular changes occurred. The sensory-functional distinction states that for some categories perceptual features were critical and for others functional characteristics were critical.

Barsalou proposed the view that concepts are grounded in modality-specific systems for perception, action and introspection with no need for amodal abstract symbols. This view is called grounded representations, which are representations that involve sensory-motor codes. Amodal representations are representations that are abstract and do not involve any sensory codes. The role of simulation, the extended re-enactment of previous experience is important in cognition according to Barsalou. Re-enactment is the partial repetition of the internal processes involved in previous perceptions or actions. The larger the property that a participant has to imagine, the slower the verification. Switching from one modality to another also slows verification. The brain areas that are active when objects are perceived are also active when the object’s name is being said.

Imagery is imagining a certain concept and see it in the mind’s eye. It replicates actual experiences, but it is less vivid. Visuospatial processing is the mental manipulation of visual or spatial information. Imagery and perception draw on the same mental and neural resources. The self-reported vividness of imagined items reduces because of a tapping task, but not because of a counting task. The further away some imagined things are, the longer the response time is. Images encode relative distance with some accuracy. Difference judgements between symbolically presented items are made more easily for items that are indeed widely different in reality is known as the symbolic difference effect. Mentally rotating items takes about as long as really rotating the physical item.

Pylyshyn criticised the scanning of mental images because it could be very prone to bias. He argues that the experience of imagery has no real causal role in cognition. It is a by-product of the machine’s operation according to him but does not contribute to the machine’s functioning. The Gestalt theory of perception states that ambiguous figures cause unstable representation that resolves themselves into alternating representations. Images are not exactly like pictures but rather always have some fixed interpretation on which they are based.

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Introduction to Psychology - Year 1 Psychology UvA

Introduction to Psychology - Year 1 Psychology UvA

Introduction to Psychology

This page bundles the study guides and additional learning materials for the 'Introduction to Psychology' course at the University of Amsterdam as wirtten by JesperN, the material might be a little outdated for you. Therefore, please check the difference in edition to ensure there are no unforced errors in your own work.

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