Understanding Quadric Surfaces in Computer Vision | Forsyth & Ponce

[gnome]

From Computer Vision, A Modern Approach by Forsyth & Ponce:

More generally, a quadric surface is the locus of the points P whose coordinates satisfy the equation:

a_{200}x^2 + a_{110}xy + a_{020}y^2 + a_{011}yz + a_{002}z^2 + a_{101}xz + a_{100}x + a_{010}y + a_{001}z + a_{000} = 0

and it is straightforward to check that this condition is equivalent to
\bold{P}^TQ\bold{P} = 0, \qquad \text{where} \quad Q = \left( \begin{array}{cccc} a_{200} &amp;\frac{1}{2}a_{110} &amp;\frac{1}{2}a_{101} &amp;\frac{1}{2}a_{100} \\<br /> \frac{1}{2}a_{110} &amp;a_{020} &amp;\frac{1}{2}a_{011} &amp;\frac{1}{2}a_{010} \\<br /> \frac{1}{2}a_{101} &amp;\frac{1}{2}a_{011} &amp;a_{002} &amp;\frac{1}{2}a_{001} \\<br /> \frac{1}{2}a_{100} &amp;\frac{1}{2}a_{010} &amp;\frac{1}{2}a_{001} &amp;a_{000} \end{array} \right )
In this equation, P denotes the homogeneous coordinate vector of P.

I don't see any explanation of the subscripts. Anybody know what they represent?

 

[robphy]

It seems the subscripts in the coefficients refer to the number of factors of x,y,z that multiply the coefficient in this polynomial.
Example:
a₀₁₁ is the coefficient of x⁰y¹z¹.

 

[gnome]

Eureka!

Thanks robphy.