A simple discrimination learning procedure is one in which a subject learns to associate one stimulus, S+ (positive stimulus), with reinforcement (e.g. food) and another, S− (negative stimulus), with extinction (e.g. absence of food). For example, a pigeon can learn to peck a red key (S+), and avoid a green key (S−). Using traditional procedures, a pigeon would be initially trained to peck a red key (S+). When the pigeon was responding consistently to the red key (S+), a green key (S−) would be introduced. At first the pigeon would also respond to the green key (S−) but gradually responses to this key would decrease, because they are not followed by food, so that they occurred only a few times or even never. Terrace (1963) found that discrimination learning could occur without errors when the training begins early in
operant conditioning and visual stimuli (S+ and S−) like colors are used that differ in terms of brightness, duration and wavelength. He used a fading procedure in which the brightness and duration differences between the S+ and the S− were decreased progressively leaving only the difference in wavelength. In other words, the S+ and S− were initially presented with different brightness and duration, i.e., the S+ would appear for 5 s and fully red, and the S− would appear for 0.5 s and dark. Gradually, over successive presentations, the duration of the S− and its brightness were gradually increased until the keylight was fully green for 5 s. Studies of
implicit memory and
implicit learning from
cognitive psychology and
cognitive neuropsychology have provided additional theoretical support for errorless learning methods (e.g., Brooks and Baddeley, 1976, Tulving and Schacter, 1990). Implicit memory is known to be poor at eliminating errors, but can be used to compensate when
explicit memory function is impaired. In experiments on amnesiac patients, errorless implicit learning was more effective because it reduced the possibility of errors "sticking" in amnesiacs' memories. ==Effects==