Living Systems |
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Page 104
... decrease from the maximum because the system is overloaded . ( L ) HYPOTHESIS 5.1-19 : As the percentage of total resources to meet costs ( as defined in Hypothesis 5.1-18 ) runs out , average output rate decreases . ( L ) HYPOTHESIS ...
... decrease from the maximum because the system is overloaded . ( L ) HYPOTHESIS 5.1-19 : As the percentage of total resources to meet costs ( as defined in Hypothesis 5.1-18 ) runs out , average output rate decreases . ( L ) HYPOTHESIS ...
Page 189
... decrease over the last three rates while the decrease for Oz - 2 began after input rate 3.75 . The two curves were not significantly different . 199 Output in bits per s 5 4 3 2 O 5 Oz - 1 0 ----- 0 Oz - 2 Input in bits per s 10 15 Fig ...
... decrease over the last three rates while the decrease for Oz - 2 began after input rate 3.75 . The two curves were not significantly different . 199 Output in bits per s 5 4 3 2 O 5 Oz - 1 0 ----- 0 Oz - 2 Input in bits per s 10 15 Fig ...
Page 284
... decrease as the percentage of resources to meet the costs are exhausted . This clearly happens at neuromyal junctions.382 Very high rates of inputs to presynaptic neurons at neu- romyal junctions produce rapid sequences of outputs ...
... decrease as the percentage of resources to meet the costs are exhausted . This clearly happens at neuromyal junctions.382 Very high rates of inputs to presynaptic neurons at neu- romyal junctions produce rapid sequences of outputs ...
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