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Decision Surfaces

from Lecture 1, ECE662, Spring 2010


  • The primary question that we must ask when working with decision surfaces is 'which line are we going to draw?'
    • Hyperplane surfaces
      • They are the easiest surfaces to draw
      • Reasonably 'easy' to define mathematically
      • May not be the best solution to the problem because of limitations to flexibility
      • 2D: straight lines
      • 3D: planes
      • ND: "Linear subspace of dimension n-1 in an d-dim space"
    • Curved decision surfaces
      • Defined by higher dim polynomials
      • The greater the degree, the greater the freedom
      • Harder to define mathematically
    • More realistic cases than simply defining gender based on hair length
      • It is difficult to define straight lines because a binary option does not exist
      • To truly understand this, learn about algebraic geometry (see the section on this topic below)
    • Varieties_OldKiwi are often used to define Decision Surfaces. A hyperplane_OldKiwi is an example of a variety.
    • Decision Surfaces are defined by discriminant function_OldKiwis. For example, hyperplanes are defined by a linear combination of the parameters.

Algebraic Geometry

  • Studies the geometry of zero set polynomials
  • This means that the set of all points that simultaneously satisfy one or more polynomial equations.
  • Uses geometry of separation or surfaces described by polynomials
  • Leads to the discussion of variety below

See Also


Back to Lecture 1, ECE662, Spring 2010

Alumni Liaison

Basic linear algebra uncovers and clarifies very important geometry and algebra.

Dr. Paul Garrett