A Methodology for Systems Engineering, Volume 24 |
From inside the book
Results 1-3 of 85
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 312
... example , this theorem is illustrated by the fact that 1 is less than or equal to +1 . In the case of the second example it is illus- trated by the fact that +3 is less than or equal to +3 . The game leads to a stable situation only if ...
... example , this theorem is illustrated by the fact that 1 is less than or equal to +1 . In the case of the second example it is illus- trated by the fact that +3 is less than or equal to +3 . The game leads to a stable situation only if ...
Page 344
... example is beyond the scope of the present discussion will be ascertained by an examination of , for example , Ref 2 , which deals with the synthesis of two - terminal networks to meet specified frequency response requirements only ...
... example is beyond the scope of the present discussion will be ascertained by an examination of , for example , Ref 2 , which deals with the synthesis of two - terminal networks to meet specified frequency response requirements only ...
Contents
WHAT IS SYSTEMS ENGINEERING? | 3 |
1 | 14 |
THE TD2 RADIO RELAY SYSTEM | 22 |
Copyright | |
28 other sections not shown
Other editions - View all
Common terms and phrases
action alternative analysis applied approach block called channel Chapter choose combination complete components consider continuous cost creative criterion decision defined definition demand determine diagram discussed economic effect environment equal equation example existing expected experience fact factors field frequency function gain give given graph human ideas important income increase individual inputs interest kind limited logical means measure methods nature objectives operations organization output phase physical planning possible practical preference present probability problem profit projects properties questions ratio reason relation requirements satisfy scale shows signal simple situation solving sometimes specific standard step studies synthesis systems engineering technical techniques theory thinking tion unit usually utility variables wanted