Line 22: Line 22:
 
1. <math>|x| \geq 0, ||x||=0 \Leftrightarrow x=0</math>
 
1. <math>|x| \geq 0, ||x||=0 \Leftrightarrow x=0</math>
 
2. <math>||\alpha x||=|\alpha | ||x||</math>
 
2. <math>||\alpha x||=|\alpha | ||x||</math>
3. <math>||x+y|| \leq ||x|| + || ||</math>
+
3. <math>||x+y|| \leq ||x|| + ||y||</math>
  
 
Defining metric, we can measure similarity of elements of set X.
 
Defining metric, we can measure similarity of elements of set X.
Line 33: Line 33:
 
3. Tanimoto metric <math>D(S_1, S_2) = \frac {|S_1|+|S_2|-2|S_1 \bigcap S_2| }{|S_1|+|S_2|-|S_1 \bigcap S_2|} </math>
 
3. Tanimoto metric <math>D(S_1, S_2) = \frac {|S_1|+|S_2|-2|S_1 \bigcap S_2| }{|S_1|+|S_2|-|S_1 \bigcap S_2|} </math>
  
4. Procrustes metric <math>D(p,\bar p)= \sum_{\begin{matrix}i=1 \\ rotation R, translation T \end{matrix}}^n
+
4. Procrustes metric <math>D(p,\bar p)= min_{R,T} \sum_{i=1}^n
{\begin{Vmatrix} Rp_i+T-\bar p_i \end{Vmatrix}} _{L^2} </math>
+
{\begin{Vmatrix} Rp_i+T-\bar p_i \end{Vmatrix}} _{L^2} </math>, R: Rotation, T: Translation

Revision as of 13:02, 7 April 2008

Metric Space (X,d) $ d:X \times X \rightarrow \Re ^{+} $

X is set, not necessarily vector space

$ x, y, z \in X $

1. $ d(x,y)=d(y,x) $

2. $ d(x,z)\leq d(x,y)+d(y,z) $

3. $ d(x,y) \geq 0, d(x,y)=0 \Leftrightarrow x=y) $

If X is vector space, metric can be induced by the norm $ ||\cdot|| $.

$ d(x,y)=||y-x|| $

Norm is defined as follows

$ ||\cdot||: X \rightarrow \Re ^{+} $

1. $ |x| \geq 0, ||x||=0 \Leftrightarrow x=0 $ 2. $ ||\alpha x||=|\alpha | ||x|| $ 3. $ ||x+y|| \leq ||x|| + ||y|| $

Defining metric, we can measure similarity of elements of set X.

Example of metric 1. Minkowski Metric $ \left( \sum_{i=1}^n \left| x_i - y_i \right|^p \right)^{1/p} $

2. Riemannian Metric $ D(\vec{x_1},\vec{x_2})=\sqrt{(\vec{x_1}-\vec{x_2})^\top \mathbb{M}(\vec{x_1}-\vec{x_2})} $

3. Tanimoto metric $ D(S_1, S_2) = \frac {|S_1|+|S_2|-2|S_1 \bigcap S_2| }{|S_1|+|S_2|-|S_1 \bigcap S_2|} $

4. Procrustes metric $ D(p,\bar p)= min_{R,T} \sum_{i=1}^n {\begin{Vmatrix} Rp_i+T-\bar p_i \end{Vmatrix}} _{L^2} $, R: Rotation, T: Translation

Alumni Liaison

Questions/answers with a recent ECE grad

Ryne Rayburn