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Page 180
... Input in bits per s 15 Fig . 5-37 Median percent error as a function of input rate for the subjects in the O - 1 and 0-2 experiments . slowest two input rates , followed by successive signif- icant 180 INFORMATION INPUT OVERLOAD.
... Input in bits per s 15 Fig . 5-37 Median percent error as a function of input rate for the subjects in the O - 1 and 0-2 experiments . slowest two input rates , followed by successive signif- icant 180 INFORMATION INPUT OVERLOAD.
Page 182
... input rate 15.00 than at input rate 2.81 . Although the shapes of the median input - output transfer functions were alike for experiments 0-1 and O - 2 , the O - 1 median output rates were somewhat faster at input rate 7.50 and above ...
... input rate 15.00 than at input rate 2.81 . Although the shapes of the median input - output transfer functions were alike for experiments 0-1 and O - 2 , the O - 1 median output rates were somewhat faster at input rate 7.50 and above ...
Page 185
James Grier Miller. and 4.85 bits per s at input rates of 11.25 and 15.00 , respectively . Considering all input ... rate Percent omission 50 G - 1 -O G - 2 40 O G - 3 30 20 10 5 Input in bits per s 10 15 Fig . 5-43 Median percent ...
James Grier Miller. and 4.85 bits per s at input rates of 11.25 and 15.00 , respectively . Considering all input ... rate Percent omission 50 G - 1 -O G - 2 40 O G - 3 30 20 10 5 Input in bits per s 10 15 Fig . 5-43 Median percent ...
Contents
CHAPTER TWO to here | 5 |
CHAPTER THREE | 51 |
CHAPTER FOUR | 89 |
Copyright | |
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abstracting acid activity adjustment processes amino acids animals average axon behavior bits per second blood boundary brain cell membrane cellular cerebral cortex cesses changes channel capacity chemical complex cortex cross-level curves cytoplasm decoding decrease echelon encoding energy ensemble environment enzyme error Example experimental experiments extruder fibers filtering function higher hormones human HYPOTHESIS increased information input information input overload information output information processing information theory Input in bits input rate input transducer internal transducer living systems markers mation matter-energy median memory ment messages microtubules mitochondria mitosis molecules motor nerve nervous system neural neurons nucleus occur omission organelles organism level output rate output transducer percent produced protein Psychol pulses queuing rate of information reaction receptor cells refractory period Reprinted by permission response sensory signals similar species storage stored structure subjects substances suprasystem synapses synthesis theory tion tissue transmission transmitted types variables various