Assalamualaikum sir I am a student of Civil Engineering and trying to construct a research paper. For that i need to understand the Analytical Network Process with the super decision software. I have been seeking help for a month now. I request you to help me with this please. Its my dream project. And i can assure that my work will definitely be progressive.
Hi, the video is very helpful thanks. I have a question that if we have more then one expert in the decision matrix like if expert 1 says that c1 is 3 times c2 and the expert 2 says that c1 is 1/4 times c2 then how we will compare.
@abduldaud, if you are using pairwise comparison and a 1 to 5 (or more usually, a 1 to 9) scale - in other words, if you're using AHP - you should calculate the average as a geometric mean, not the normal (arithmetic) mean. The arithmetic mean doesn't give results that reflect reality. Saaty and crew spent a few years figuring this out... so we don't have to. :-)
I finally understood this. thank you very much sir.
thank you for your explanation. may i ask you a question. can 'CR' be 0?
Thank you very much. Please Sir explain us XOR-AHP.
Assalamualaikum sir
I am a student of Civil Engineering and trying to construct a research paper. For that i need to understand the Analytical Network Process with the super decision software. I have been seeking help for a month now. I request you to help me with this please. Its my dream project. And i can assure that my work will definitely be progressive.
Hi, the video is very helpful thanks. I have a question that if we have more then one expert in the decision matrix like if expert 1 says that c1 is 3 times c2 and the expert 2 says that c1 is 1/4 times c2 then how we will compare.
I personally would compute an average of the final result from each
@abduldaud, if you are using pairwise comparison and a 1 to 5 (or more usually, a 1 to 9) scale - in other words, if you're using AHP - you should calculate the average as a geometric mean, not the normal (arithmetic) mean.
The arithmetic mean doesn't give results that reflect reality.
Saaty and crew spent a few years figuring this out... so we don't have to. :-)