| 1 |
Power consumption |
6 |
not much of functions are placed so the power consumption should be less |
|
|
Ease of Use |
7 |
user friendly as its almost automated |
|
|
Portability |
3 |
not easy for transportation |
|
|
Maintainence |
8 |
low maintenance |
|
|
Cost |
7 |
cheap materials |
|
| 2 |
Power consumption |
5 |
more power consumption since it has different functions |
|
|
Ease of Use |
5 |
every thing is divided so it might be complex for the user |
|
|
Portability |
4 |
according to the parts used it might be heavy |
|
|
Maintainence |
2 |
as there are too many functions it is prone to malfunctions, maintaince is necessary |
|
|
Cost |
8 |
cheap materials are used |
|
| 3 |
Power consumption |
8 |
as things like springs and other materials are used the power consumption should be less |
|
|
Ease of Use |
6 |
its automated with sensors and switches |
|
|
Portability |
4 |
due to use of heavy materials its not easy to carry |
|
|
Maintainence |
7 |
the matriels cand be found in nearby electronic shops so its easy to maintain |
|
|
Cost |
6 |
materiels are cheap |
|
| 4 |
Power consumption |
2 |
as and robot arm is used the power consumption is more |
|
|
Ease of Use |
8 |
its fully automated as we we just have to place the base manually |
|
|
Portability |
3 |
with all the functions included it would be hard to transport |
|
|
Maintainence |
4 |
complex parts are used so its hard to maintain |
|
|
Cost |
3 |
high cost materials |
|