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so ,the Euclidean space distance from P1 to P2 is d(P1,P2) =sqrt ( (x1-y1)^2 + (x2-y2)^2 + ... + (xn-yn)^2 )
so , in the face recognition field , for example , in many open source , every point have x coordinate value and y coordinate value , I think it is , The first face is P1 [(x1,y1),(x2,y2),...,(xn,yn)] The second face is P2 [(a1,b1),(a2,b2),...,(an,bn)] so ,the Euclidean space distance from P1 to P2 is ________________ ? the result is too complex , even is unsolvable . I don't know if I have a problem with my understanding ?
In the n dimensional Euclidean space,
space,
If The first point is P1 [x1,x2,...,xn] The second point is P2 [y1,y2,...,yn]
so ,the Euclidean space distance from P1 to P2 is d(P1,P2) =sqrt ( (x1-y1)^2 + (x2-y2)^2 + ... + (xn-yn)^2 )
so , in the face recognition field , for example , in many open source ,
every point have x coordinate value and y coordinate value ,
,
I think it is ,
The first face is P1 [(x1,y1),(x2,y2),...,(xn,yn)]
The second face is P2 [(a1,b1),(a2,b2),...,(an,bn)]
[(a1,b1),(a2,b2),...,(an,bn)]
so ,the Euclidean space distance from P1 to P2 is ________________ ________________________________ ?
In the n dimensional Euclidean space,
If
The first point is P1 [x1,x2,...,xn]
[x1,x2,...,xn]
The second point is P2 [y1,y2,...,yn]
so ,the Euclidean space distance from P1 to P2 is d(P1,P2) =sqrt ( (x1-y1)^2 + (x2-y2)^2 + ... + (xn-yn)^2 )
so , in the face recognition field , for example , in many open source , every point have x coordinate value and y coordinate value ,
I think it is ,
,
The first face is P1 [(x1,y1),(x2,y2),...,(xn,yn)]
The second face is P2 [(a1,b1),(a2,b2),...,(an,bn)]so ,the Euclidean space distance from P1 to P2 is ________________________________ ?
the result is too complex , even is unsolvable .
I don't know if I have a problem with my understanding ?
In the n dimensional Euclidean space,
If The first point is P1 [x1,x2,...,xn]
The second point is P2 [y1,y2,...,yn]
so ,the Euclidean space distance from P1 to P2 is
d(P1,P2) =sqrt ( (x1-y1)^2 + (x2-y2)^2 + ... + (xn-yn)^2 )so , in the face recognition field , for example , in many open source , every point have x coordinate value and y coordinate value ,
I think it is ,
The first face is P1 [(x1,y1),(x2,y2),...,(xn,yn)]
The second face is P2 [(a1,b1),(a2,b2),...,(an,bn)]
so ,the Euclidean space distance from P1 to P2 is ________________________________ ?
the result is too complex , even is unsolvable .
I don't know if I have a problem with my understanding ?
In the n dimensional Euclidean space,
If The first point is P1 [x1,x2,...,xn]
The second point is P2 [y1,y2,...,yn]
so ,the Euclidean space distance from P1 to P2 is
d(P1,P2) =sqrt = sqrt ( (x1-y1)^2 + (x2-y2)^2 + ... + (xn-yn)^2 )
so , in the face recognition field , for example , in many open source , every point have x coordinate value and y coordinate value ,
I think it is ,
The first face is P1 [(x1,y1),(x2,y2),...,(xn,yn)] P1 [(x1,y1),(x2,y2),...,(xn,yn)]
The second face is P2 [(a1,b1),(a2,b2),...,(an,bn)]
so ,the Euclidean space distance from P1 to P2 is ________________________________ ?
the result is too complex , even is unsolvable .
I don't know if I have a problem with my understanding ?