A Methodology for Systems Engineering, Volume 24 |
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Page 70
... example . The quantities studied may include the rates of flow of the throughputs , their concentrations , their time and frequency distributions , and their kinds . Some of the tools that have been applied to network problems . include ...
... example . The quantities studied may include the rates of flow of the throughputs , their concentrations , their time and frequency distributions , and their kinds . Some of the tools that have been applied to network problems . include ...
Page 100
... example , if the behavior of the inputs ( people ) , the volume of inputs , and the response of the system is such that a waiting line of intolerable length forms , then the system will be more complex : multiple turnstiles , a change ...
... example , if the behavior of the inputs ( people ) , the volume of inputs , and the response of the system is such that a waiting line of intolerable length forms , then the system will be more complex : multiple turnstiles , a change ...
Page 469
... examples of , 304-305 Critical - path planning and scheduling , 129 Current development , example , 55-57 , 138 Current engineering , 10 , 86 , 137-138 example , 55-57 Cutover problems , 157 Cybernetics , 20 , 339 Data transmission ...
... examples of , 304-305 Critical - path planning and scheduling , 129 Current development , example , 55-57 , 138 Current engineering , 10 , 86 , 137-138 example , 55-57 Cutover problems , 157 Cybernetics , 20 , 339 Data transmission ...
Contents
WHAT IS SYSTEMS ENGINEERING? | 3 |
1 | 11 |
THE TD2 RADIO RELAY SYSTEM | 22 |
Copyright | |
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action alternative analysis applied approach basic block called channel Chapter choose complete components consequences consider cost creative criterion decision defined definition demand detailed determine discussed economic effect environment equation equipment example existing expected experience fact factors field frequency function give given graph human ideas important income increase individual input interest kinds knowledge limited lines means measure methods nature necessary objectives operations organization output performance phase physical planning possible preference present probability problem profit properties questions radio reason received relation requirements satisfy scale shows signal sometimes specific standard step studies synthesis systems engineering technical techniques telephone theory tion units usually utility variables wanted York