This shows you the differences between two versions of the page.
| Both sides previous revision Previous revision Next revision | Previous revision | ||
|
dido:public:ra:1.4_req:2_nonfunc:30_usability:efficiency [2021/06/09 15:19] char |
dido:public:ra:1.4_req:2_nonfunc:30_usability:efficiency [2021/06/11 14:52] (current) char |
||
|---|---|---|---|
| Line 21: | Line 21: | ||
| To calculate the Time-Based Efficiency for all tasks and all users, the following equation applies: | To calculate the Time-Based Efficiency for all tasks and all users, the following equation applies: | ||
| - | |||
| <color white>o</color> <m>{Time Based Efficiency} = {sum{i=1}{R}{} sum{j=1}{N}{} {n_{i,j}} / {t_{i,j}} } / {N*R}</m> \\ | <color white>o</color> <m>{Time Based Efficiency} = {sum{i=1}{R}{} sum{j=1}{N}{} {n_{i,j}} / {t_{i,j}} } / {N*R}</m> \\ | ||
| + | <color white>o</color> \\ | ||
| + | \\ | ||
| \\ | \\ | ||
| Where: | Where: | ||
| Line 48: | Line 49: | ||
| Placing the above values in the equation: | Placing the above values in the equation: | ||
| - | <m>{time Based Efficiency} = {{({1/1} + {1/2} + {1/3} + {0/6})} / { 1*4}} = {0.46 goals / sec}</m> | + | <color white>o</color> <m>{Time Based Efficiency} = {{({1/1} + {1/2} + {1/3} + {0/6})} / { 1*4}} = {0.46 goals / sec}</m> \\ |
| - | + | \\ | |
| + | \\ | ||
| ==== Overall Relative Efficiency ==== | ==== Overall Relative Efficiency ==== | ||
| [[dido:public:ra:1.4_req:2_nonfunc:30_usability:efficiency | Return to Top]] | [[dido:public:ra:1.4_req:2_nonfunc:30_usability:efficiency | Return to Top]] | ||
| Line 57: | Line 58: | ||
| )): | )): | ||
| - | <m>{Overall Relative Efficiency} = {{sum{i=1}{R}{} sum{j=1}{N}{} {n_{i,j}}*{t_{i,j}} } / {sum{i=1}{R}{} sum{j=1}{N}{} {t_{i,j}}}} * {100%}</m> | + | <color white>o</color> <m>{Overall Relative Efficiency} = {{sum{i=1}{R}{} sum{j=1}{N}{} {n_{i,j}}*{t_{i,j}} } / {sum{i=1}{R}{} sum{j=1}{N}{} {t_{i,j}}}} * {100%}</m> \\ |
| + | \\ | ||
| + | \\ | ||
| + | \\ | ||
| + | \\ | ||
| Justin Mifsud<sup>[[dido:public:ra:1.4_req:2_nonfunc:30_usability#fn__1|1]]</sup> provides an excellent example of how for calculating Overall Relative Efficiency. | Justin Mifsud<sup>[[dido:public:ra:1.4_req:2_nonfunc:30_usability#fn__1|1]]</sup> provides an excellent example of how for calculating Overall Relative Efficiency. | ||
| Line 75: | Line 79: | ||
| Placing the above values into the equation yields the following: | Placing the above values into the equation yields the following: | ||
| - | <m>{Overall Relative Efficiency} = ({((1*1)+(1*2)+(1*3)+(1*6))} / {(1+2+3+6)})*100 = 50%</m> | + | <color white>o</color> <m>{Overall Relative Efficiency} = ({((1*1)+(1*2)+(1*3)+(1*6))} / {(1+2+3+6)})*100 = 50%</m> \\ |
| + | <color white>o</color> \\ | ||
| + | \\ | ||
| + | \\ | ||
| + | \\ | ||
| + | \\ | ||
| + | \\ | ||
| ===== DIDO Specifics ===== | ===== DIDO Specifics ===== | ||
| [[dido:public:ra:1.4_req:2_nonfunc:30_usability:efficiency | Return to Top]] | [[dido:public:ra:1.4_req:2_nonfunc:30_usability:efficiency | Return to Top]] | ||
| - | //<color #FF0000><todo>TBD - to be added/expanded in future revisions of the DIDO RA</todo></color>// | + | : <wrap hi><color red> To be added/expanded in future revisions of the DIDO RA </color></wrap> |
| /**=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=- | /**=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=- | ||