Sensation and Perception
Synethesia: means mixing of the senses. They may experience sounds as colours or tastes as touch
sensations that have different shapes.
1. Stimulus is received by sensory receptors
2. Receptors translate stimulus properties into nerve impulses (transduction) Whether the
stimulus is light, sound waves, a chemical molecule, or pressure, your sensory receptors must
translate this information into the only language your nervous system understands-(language of
3. Feature detectors analyze stimulus features
4. Stimulus features are reconstructed into neural representation
5. Neural representation is compared with previously stored information in brain. i.e. knowledge,
touch, smell, feel
6. Matching process results in recognition and interpretation of stimuli and gives it meaning
NOW A PERSON HAS PERCEPTION
In some ways, sensation and perception blend together so completely that they are difficult to
separate, for stimulation we receive through our sense organs is instantaneously organized and
transformed into the experiences that we refer to as perceptions.
Sensation: is the stimulus-detection process by which our sense organs respond to and translate
environmental stimuli into nerve impulses that are sent to the brain.
Perception: making sense of what our senses tell us, is the active process of organizing this stimulus
input and giving it meaning.
Because perception is an active and creative process, the same sensory input may be perceived in
different ways at different times. Your interpretation, of perception of the characters is influenced
by their context-that is, by the characters that preceded and followed them, and by your learned
expectation of what normally follows the letter A and the number 12.
Your brain cannot understand light waves, sound waves, or the other forms of energy.
Contact with the outer world is possible because certain neurons have developed into specialized
sensory receptors that can transform these energy forms into the code language of nerve
There appear to be more than the five classical senses with which we are familiar:
2. audition (hearing)
3. Touch Subdivided into separate senses of a. pressure b. pain and c. temperature
4. gestation (taste)
5. olfaction (smell)
The immune system also has sensory functions that allow it to detect foreign invaders and to
receive stimulation from the brain.
The scientific are of psychophysics: which studies relations between the physical characteristics of
stimuli and sensory capabilities, is concerned with two kinds of sensitivity.
1. Concerns the absolute limits of sensitivity. I.e. what is the dimmest light, the softest sound, or the
weakest salt solution that humans can detect?
2. Deals with differences between stimuli. I.e. what is the smallest difference in brightness that we can
detect? How much difference must there be in two tones before we can tell that they are not identical?
Stimulus Detection: The Absolute Threshold
Absolute threshold: as the lowest intensity at which a stimulus can be detected correctly 50 percent of
the time. Thus the lower the absolute threshold, the greater the sensitivity.
Some approximate absolute thresholds for various senses
Sense Absolute Threshold
Modality Vision Candle flame seen at approx 50 km on a clear, dark night.
Hearing Tick of watch under quiet conditions at approx six metres.
Taste 1 teaspoon of sugar in approx 7.5L of water
Smell One drop perfume diffused into the entire volume of a large
Touch Wing of a fly or bee falling on your cheek from a distance of one
Signal Detection theory
At one time it was assumed that each person had a more or less fixed level of sensitivity for each
sense. But psychologists who study stimulus detection found that peoples apparent sensitivity
can fluctuate quite a bit.
They concluded that the concept of a fixed absolute threshold is inaccurate because there is no
single point on the intensity scale that separates non-detection from detection of a stimulus.
There is instead a range of uncertainty.
Decision criterion: a standard of how certain they must be that a stimulus is present before they will say
they detect it.
It can change from time to time, depending on factors such as fatigue (tiredness), expectation, and
the potential significance of the stimulus.
Signal detection theory: is concerned with the factors that influence sensory judgement.
In a typical signal detection experiment, participants are told that after a warning light appears, a
barely perceptible tone may or may not be presented. Their task is to tell the experimenter
whether they heard the tone.
If tone is presented the participants say yes (hit) or no (miss).
If no tone presented the participant may say yes: (false alarm) or no (a correct rejection).
Bold participants may say yes and have a lot more hits but they will also have a lot more misses
than conservative participants.
Participants can be influenced to become bolder or more passive by manipulating the rewards
and costs for giving correct or incorrect responses.
At low stimulus intensities, both the participants and the situations characteristics influence the
Signal detection research shows us that perception is, in part, a decision.
Navy Radar- more likely to notice a faint blip on the screen during a wartime mission, when a
miss might have disastrous consequences during a peacetime voyage.
Doctor- would not perform a risky medical procedure without strong evidence to support their
diagnosis, participants become more conservative in their yes responses as costs for false
alarms are increased, resulting in higher detection thresholds.
The Difference Threshold
Distinguishing between stimuli can sometimes be as important as detecting stimuli in the first
place. Professional wine tasters and piano tuners make their livings by being able to make very
slight discriminations between stimuli.
The Difference Threshold: is defined as the smallest difference between two stimuli that people can
perceive 50% of the time. Sometimes called just noticeable difference (jnd).
There is some degree of lawfulness in the range of sensitivities within our sensory systems.
Webers law: states that the difference threshold, or jnd, is directly proportional to the magnitude of the
stimulus with which the comparison is being made, and can be expressed as Weber fraction. I.E. the jnd
value for weights is a Weber fraction of approx 1/50. This means that if you lift a weight of 50g, a
comparison weight must weigh at least 51 grams in order for you to be able to judge it as heavier. If the
weight were 500 grams, a second weight would have to weigh at least 510 grams (i.e. 1/50 = 10g/500g)
for you to discriminate between them.
Although Webers law breaks down at extremely high and low intensities of stimulation, it holds
up reasonably well within the most frequently encountered range.
The smaller the fraction, the greater the sensitivity to differences.
Humans show greater sensitivity in their visual sense than they do in their sense of smell Weber fractions also show that humans are highly sensitive to differences in the pitch of sounds,
but far less sensitive to loudness differences.
Sensory systems are finely attuned to changes in stimulation. Sensory neurons are engineered to
respond to a constant stimulus by decreasing their activity, and the diminishing sensitivity to an
unchanging stimulus is called sensory adaptation.
Adaptation (a.k.a. habituation) is a part of everyday experience.
o Background sounds will eventually go largely unheard.
o Jumping into a freezing pool, your body gets used to it.
Adaptation occurs in all sensory modalities, including vision
Were it not for tiny involuntary eye movements that keep images moving about the retina,
stationary objects would simply fade from sight if we stared at them.
Pritchard- to create a stabilized retinal imagine, a person wears a contact lens to which a tiny
projector has been attached. This procedure guaranteed that visual images presented through
the projector would maintain a constant position on the retina, even when the eye moved. When a
stabilizes image was projected through the lens onto the retina, participants reported that the
image appeared in its entirety for a time, then began to vanish and reappear as parts of the
Although sensory adaptations may reduce our overall sensitivity, it is adaptive, because it frees
our sense form the constant and the ordinary to pick up informative chances in the environment
The normal stimulus for vision is electromagnetic energy, or light waves, which are measured in
nanometers (nm, or one billionth of a metre).
In addition to that tiny portion that humans can perceive, the electromagnetic spectrum includes
X-rays, television and radio signals, and in