1. Definitions Sensation Perception
chapter 6
Definitions
Sensation
The detection of physical energy emitted or reflected by physical objects
Occurs when energy in the external environment or the body stimulates receptors in the sense organs
Perception
The process by which the brain organizes and interprets sensory information
Lets start off with some simple definitions so we all understand what we are talking about.
Sensation is the detection of physical energy emitted or reflected by objects. Each sense detects a different type of energy, which we’ll talk about more in a few minutes. A sensation occurs when this energy stimulates the appropriate receptor in a sense organ.
Perception is the process by which the brain organizes and interprets all of this sensory information.

2. Sensation and perception
chapter 6
Sensation and perception

3. Sensation What are the sensory systems?
Sight, sounds, touch, pain, smell, taste, sensation of movement
Why are the sensory systems important?
Perception of external world
Maintains arousal, forms body image, regulates movement
Basis for our knowledge about the world and our surroundings.

4. Psychophysics
Correlates quantitative aspects of physical stimuli (energy) with the sensations they evoke
4 elementary attributes:
Modality
Intensity
Duration
Location

5. Attributes of Sensation: Modality
Quality of a sensation
Different forms of energy = Different sensations
5 major: vision, hearing, touch, taste, smell
Submodalities:
Touch – sweet, salty, bitter, sour
Vision – color, movement
Law of Specific Energies
1826 Johannes Muller
Each modality = activated by a specific stimulus = different sensory nerve fiber
Sensory receptors are maximally sensitive to a specific energy

6. Modality Stimulus Receptor Types Receptor (energy) Vision Light
Photoreceptor
Rods, Cones
Audition
(hearing)
Sound
Mechanoreceptor
Hair cells (cochlear)
Balance
Head motion
Hair cells (semicircular canals)
Somatic
(touch)
Mechanical, thermal, noxious (chemical)
Mechanoreceptor, thermoreceptor, nociceptor, chemoreceptor
Dorsal root ganglion neurons
Taste
Chemical
Chemoreceptor
Taste buds
Smell
Olfactory sensory neurons
You may be asking yourself, what does she mean by energy. Well here are the different modalities and these are the stimuli or energy that activates them. Each has a specific type of receptor, which allows this specificity, as well as a specific location of receptors that sends projections to a specific bundle of nerves just as Muller hypothesized in 1826.
Adapted from Kandel, Schwartz, and Jessel, 1991

7. Attributes of Sensation: Intensity
Strength of Energy  Amount of sensation
Frequency of action potentials
strong stimulus = more action potentials fired
# of fibers activated
strong stimulus = more fiber stimulated
Absolute Threshold
Smallest amount of energy/stimulation that can reliably be detected
Variable
Influenced by practice, fatigue, context
The intensity of a stimulus or the amount of sensation is determined by the strength of the sensation. It helps us to distinguish stimuli that differ in intensity and stimuli that are stronger or weaker than one another.
Every stimuli has an absolute threshold, which is the smallest amount of energy or stimulation that can reliably be detected. Now b/c this detection is variable and can be influenced by practice, fatigue or the context, the absolute threshold is determined by the smallest amount of energy that is detected by someone 50% of the time.

8. Absolute thresholds Vision Hearing Smell Touch Taste
chapter 6
Absolute thresholds
Vision
A single candle flame from 30 miles on a clear night
Hearing
The tick of a watch from 20 feet in total quiet
Smell
One drop of perfume in a 6-room apartment
Touch
The wing of a bee on the cheek, dropped from 1 cm
Taste
One teaspoon of sugar in 2 gallons of water
Here are some reported absolute thresholds for the different modalities.

9. Attributes of Sensation: Intensity
Strength of Energy  Amount of sensation
Frequency of action potentials
strong stimulus = more action potentials fired
# of fibers activated
strong stimulus = more fiber stimulated
Absolute Threshold
Smallest amount of energy/stimulation that can reliably be detected
Variable
Influenced by practice, fatigue, context
Difference Threshold
Smallest difference that can be detected when 2 stimuli are compared
Just Noticeable Difference (JND)

10. Signal-detection theory
chapter 6
Signal-detection theory
A psychophysical theory that divides the detection of a sensory signal into a sensory process and a decision process and quantifies the ability to distinguish between the stimuli and noise

11. Drugs – Mechanism of Action on the sensation of pain
Drugs that elevate the pain threshold
Morphine
Reduces detectibility of painful stimuli = raises threshold
Elevates criterion used to determine if a stimuli is painful = creates noise
Marijuana
Elevates criterion used to determine if stimuli is painful = makes noise

12. Attributes of Sensation: Duration
Stimulus intensity and Perceived Intensity
Adaptation
The reduction or disappearance of sensory responsiveness when stimulation is unchanging or repetitious
Prevents us from having to respond continuously to unimportant information
Deprivation
The absence of normal levels of sensory stimulation

13. Attributes of Sensation: Location
Spatial aspects of sensation:
Ability to locate origin of sensation
Ability to distinguish 2 closely spaced stimuli
Two-Point Threshold
Minimum distance between 2 stimuli that allows them to be perceived as distinct
Function of receptive field of receptor and sensory neurons

14. Commonalities of the Senses
All extract same basic information
Modality, intensity, duration, location
Similar organization
Sensory receptors for specific type of energy
Receptor transforms energy into electrochemical signal  action potentials
Travel up afferent fibers to the brain
Relay information to Thalamus (except smell)
Continue on to specific regions in cortex

15. Vision Stimuli (energy) = light waves
chapter 6
Vision
Stimuli (energy) = light waves
3 Psychological Aspects of Vision:
Hue
Related to the wavelength of light
Brightness
Related to the amount of light emitted from or reflected by an object – amplitude of wavelength
Saturation
Related to the complexity of light waves - # of different wavelengths

16. Vision
Adapted from Univ. Virginia, Dept of Astronomy

17. chapter 6
What we see

18. Anatomy of the Eye Cornea Lens Iris Pupil
chapter 6
Anatomy of the Eye
Cornea
Protects eye and bends light toward lens
Lens
Focuses on objects by changing shape
Iris
Controls amount of light that gets into eye
Pupil
Aperture through which light reaches the retina

19. Rods and Cones Retina Rods Cones
chapter 6
Rods and Cones
Retina
Neural tissue lining the back of the eyeball’s interior containing the receptors for vision
Rods
Visual receptors that respond to dim light
Cones
Visual receptors involved in color vision

20. chapter 6
Rods and Cones

21. Structures of the retina
chapter 6
Structures of the retina

22. chapter 6
Your turn
You have a hard time locating your red car at night, in the poorly lit mall parking lot. Why?
1. Your rods are less sensitive to color in dim light.
2. Your cones, which detect color, do not function well in dim light.
3. Your ganglion cells receive insufficient overall stimulation to
function.
4. Your rods, which detect color, do not function well in dim light.

23. The visual system is not a camera
chapter 6
The visual system is not a camera
Visual processing is done in the brain
The visual image that was reflected onto our retina is broken up into simple and complex features that the brain perceives, processes and interprets
Simple features - light and dark spots
- Ganglion cells and neurons in Thalamus
Complex features – Lines with specific orientations, bulls-eyes, spirals, faces)
- Feature-detector cells in the Visual cortex
- Sensitive to specific features in the environment

24. chapter 6
Visual Cortex Neurons: Feature-Detector Cells Respond to lines oriented in a particular direction and in a particular space in the visual field
Hubel & Wiesel Experiment

25. Hubel and Wiesel’s experiment
chapter 6
Hubel and Wiesel’s experiment
Simple Cell in Visual Cortex
Hubel DH Sci Amer 209:54-62,1963

26. How do we see color? Two theories: Trichromatic theory
Opponent-process theory

27. Trichromatic theory Young-Helmholtz Theory:
chapter 6
Trichromatic theory
Young-Helmholtz Theory:
The eye detects 3 primary colors
Red, blue, and green
Retina has 3 basic cones detects the 3 primary colors
All other colors detected by the combined activity of these 3 cones

28. Opponent-process theory
chapter 6
Opponent-process theory
The visual system treats pairs of colors as opposing or antagonistic
3 opponent channels
Red-Green
Blue-Yellow
Black-White
If opponent-process cells are inhibited by a color then removal of the color results in a burst of activity
Many respond in the opposite fashion to red and green, i.e. fire in response to red and turn off in response to green
Negative afterimage

29. Form Perception: Gestalt principles
chapter 6
Form Perception: Gestalt principles
Proximity
Things close to one another are grouped together
Closure
The brain tends to fill in gaps to perceive complete forms

30. Form Perception: Gestalt principles cont.
chapter 6
Form Perception: Gestalt principles cont.
Similarity
Things that are alike are perceived together
Continuity
Seeing continuity in lines that could be interpreted as either continuous or abruptly shifting in direction.

31. chapter 6
Your turn
Which Gestalt principle is illustrated by the fact that we see columns of dots rather than rows in this diagram?
1. Similarity
2. Proximity
3. Closure
4. Continuity

32. Depth and distance perception
chapter 6
Depth and distance perception
Binocular cues
Require both eyes working together
Convergence
Turning inward of the eyes, which occurs when they focus on a nearby object
Retinal disparity
The slight difference in lateral separation between two objects as seen by the right and left eyes

33. Depth and distance perception
chapter 6
Depth and distance perception
Monocular cues
For objects over 50 feet away
Does not depend on both eyes
Interposition
Linear Perspective
Light and Shadow
Motion Parallax
Relative Size
Relative Clarity
Texture Gradients

34. chapter 6
Visual constancies
The accurate perception of objects as stable or unchanged despite changes in the sensory patterns they produce
Shape constancy
Location constancy
Size constancy
Brightness constancy
Color constancy

35. Last Class in Review Sensation Perception Vision
The detection of physical energy emitted or reflected by physical objects
Perception
The process by which the brain organizes and interprets sensory information
Psychophysics – attributes of sensation
Modality, Intensity, Duration, Location
Law of Specific Energies
Absolute Threshold vs. Difference Threshold (JND)
Adaption and Deprivation
Two-Point Threshold
Vision
Psychological Attributes – hue, brightness, saturation
Anatomy – visual receptors = rods and cones; feature detector cells
Depth and Distance perceptions: monocular and binocular cues
Gestalt Principles: proximity, closure, similarity, continuity

36. Sensation and Perception
chapter 6
Sensation and Perception
Learning Objectives:
What are the 3 main psychological dimensions of hearing?
What are the major structures of the inner ear that contribute to the sense of hearing?
Understand how the Gestalt principles may apply to other sensations, such as hearing.
What are the 5 major tastes? Why do people tastes things differently?
What are the basic senses of the skin? How is sensation organized? (hint: understand somatotopy)
How does gate-control theory account for our perception of pain?
Is there any evidence that some perceptual abilities are present from birth? What are these abilities and what is the evidence?
What 5 factors can influence our perception?

37. What we hear (audition)
chapter 6
What we hear (audition)
Stimulus (energy) = wave of pressure caused by vibrations
3 Psychological Aspects of Sound:
Pitch
Frequency of a pressure wave
Measured in hertz (Hz)
Loudness
Intensity (amplitude) of a pressure wave
Measured in decibels (dB)
Timbre
Complexity of a pressure wave
White noise – all frequencies of the sound spectrum

38. Psychological Aspects of Sound
From Genetic Science Learning Center, University of Utah,
Example of differences in pitch and complexity

39. chapter 6
Anatomy of the Ear

40. Gestalt Principles in Audition
Proximity
Which sounds go together to form words
Continuity
Helps you follow 1 persons voice in a room full of background noise
Similarity
Might also help you follow 1 persons voice in a room full of background noise
Closure
Helps you complete words when the speakers voice trails off

41. Auditory localization
chapter 6
Auditory localization
Sounds from different directions are not identical as they arrive at left and right ears.
Loudness
Timing
Phase
The brain calculates a sound’s location by using these differences.

42. Taste (Gustation) Taste buds = Bundles of taste receptor cells
chapter 6
Taste (Gustation)
Taste buds =
Bundles of taste receptor cells
Taste hairs (microvilli) contain taste receptors
Taste stimuli (energy) = chemical
Taste receptor cells send signals to sensory nerves (taste nerves)
Sensory nerves send action potential to the brain

43. Five tastes Five basic tastes Why do people have different tastes?
chapter 6
Five tastes
Five basic tastes
Salty – keeps electrolytes (salt-balance) in check
Sour – detects acidity = rancid food
Bitter – allows sensing of natural poisons
Sweet – energy rich nutrients, presence of sugars
Umami – taste of amino acids (glutamate) = protein rich foods
Why do people have different tastes?
Genetics - supertasters
Culture
Learning
Food attractiveness

44. Smell (Olfaction) Smell stimuli (energy) = chemicals
chapter 6
Smell (Olfaction)
Smell stimuli (energy) = chemicals
Enter through the nose or mouth and pass into nasal cavity.
Receptors  Olfactory nerve  Olfactory bulb  Pyriform cortex, hypothalamus, thalamus, frontal cortex, hippocampus

45. Senses of the Skin Basic skin senses: Tactition (touch) -
stimuli is pressure
mechanoreceptor
Thermoception (hot & cold)
stimuli is thermal
thermoreceptor
Nociception (pain)
stimuli is noxious
nociceptor

46. chapter 6
Sensitivity to touch

47. Somatotopy
Adapted from Sabes Lab - UCSF

48. The environment within
chapter 6
The environment within
Kinesthesis
The sense of body position and movement of body parts
Equilibrium
The sense of balance
- Semicircular canals
Sense organs in the inner ear, which contribute to equilibrium by responding to rotation of the head

49. chapter 6
Critical period
An important period of time during development when the brain is capable of acquiring a specific ability
Environmental stimulation needed to strengthen hard-wired innate connections
If infants miss out on experiences during a crucial period of time, perception will be impaired.
Zebra finches learn their adult song from a tutor during a critical period