Perception of sequence and duration
- Related Topics:
- time
- duration
- kappa effect
- tau effect
- anticipation
The psychological present
To perceive is to become aware of stimulation. Awareness of sequence or duration may, at first glance, seem inconsistent with the definition of perceiving. In a mathematical sense, certainly, the present is only a point along the continuum of becoming, an instant when future is transformed into past. Nevertheless, there is indeed a more prolonged psychological present, a brief period during which successive events seem to form a perceptual unity and can be apprehended without calling on memory. There is a perceptual field for time just as there is a visual field. The rate or speed of a sequence determines the limits of the time field.
When a metronome tics two or three times a second, one perceives an integral sequence, becoming aware of a rhythmic auditory series characterized by a perceptually distinct frequency. When the ticks come less often, however—at intervals of three seconds, say—the frequency or sequence no longer is perceived. Each physically discrete sound impulse remains an isolated perceptual event; each tick is no longer perceived as belonging to the same temporal field as the one that follows. Similar effects can be achieved by playing a recording of music or speech at a very slow rate. Music or spoken sentences are recognizable only when their elements (melody, rhythmic patterns, phrase) are presented at an optimal speed that permits significant perceptual unity; that is, only when they belong to the relative simultaneity of the psychological present.
The perceived field of time also depends on the number of stimulus elements presented. When a clock strikes three or four times, one knows without counting that it is three or four o’clock. At noon one must count; the first chimes no longer belong to the psychological present that includes the last. Most people also can repeat a series of letters or numbers they hear, so long as there are no more than seven or eight elements. This ability varies with the degree of perceptual (e.g., semantic) organization among the elements. While most adults can apprehend only about eight letters, they can grasp and repeat without fault sentences of 20 to 25 syllables (see also attention: Perception and recall).
Perception of sequence
A series of physically discrete stimuli that impinge too rapidly on a sensory structure (e.g., flashes of light on the retina) may produce perceptual fusion; the flashes will be indiscriminable and will appear to be uninterrupted light. The experience of fusion yields to one of discontinuity over distinctive critical ranges of frequency for some of the senses: visual flicker appears under prescribed experimental conditions at about 60 flashes per second, auditory flutter at about 1,000 interruptions per second, and tactual vibration at about 4,000 pulses per second. These values depend on differences in the persistence of the receptor systems (e.g., how long an image is seen after removal of the stimulus).
The question of perceiving sequence hardly has meaning for the senses of taste and smell. Hearing appears to be particularly adapted to temporal perception, since the pattern of auditory excitement shows little inertial lag, closely following the physical duration of successive stimuli. Tactual function can give comparable results, but hearing has the practical superiority in everyday experience of reception at a distance.
When two heterogeneous stimuli (e.g., a flash and a click) are successively presented, the critical threshold for passing from perceived simultaneity to an awareness of succession is found for intervals that vary between 0.02 to 0.1 second, depending on the training of the subjects. The maximum interval for perceiving sequence is more difficult to measure. The minimum time intervals are largely determined by the immediate physiological conditions of direct perceiving, while the maximum intervals are obscured by the effects of other cognitive activities. Determining when direct perception ends and when memory takes over is difficult.
At any rate, awareness of unitary sequence ceases for pairs of auditory or visual stimuli when the interval between them increases to approximately two seconds. For perceptually organized stimuli (as in a rhythm, a melody, or a phrase) the interval may reach five seconds, as indicated by one’s ability to reproduce the pattern.
Between the upper and lower limits there are optimal values that seem most likely to produce perception of sequence. In the simple case of two homogeneous stimuli the optimum interval seems to be about 0.6 to 0.8 second. This is inferred from a series of clues: the same interval defines the tempo most frequently adopted in spontaneous motor activity (e.g., tapping, walking) and corresponds to the heart rate. It is the interval that is most precisely reproduced by subjects in experiments; shorter intervals tend to be overestimated and longer ones underestimated. Stimuli repeated at that rate are subjectively judged to proceed most comfortably, without appearing to rush each other as in faster tempos and with no tendency to be separately perceived as at slower frequencies.