Oriented Projective Geometry

Part 1 Projective geometry: the classic projective plane; advantages of projective geometry; drawbacks of classical projective geometry; oriented projective geometry; related work. Part 2 Oriented projective spaces: models of two-sided space; central projection. Part 3 Flats: definition; points; lines; planes; three-spaces; ranks; incidence and dependence. Part 4 Simplices and orientation: simplices; simplex equivalence; point location relative to a simplex; the vector space model. Part 5 The join operation: the join of two points; the join of a point and a line; the join of two arbitrary flats; properties of join; null objects; complementary flats. Part 6 The meeting operation: the meeting point of two lines; the general meet operation; meet in three dimensions; properties of meet. Part 7 Relative orientation: the two sides of a line; relative position of arbitrary flats; the separation theorem; the coefficients of a hyperplane. Part 8 Projective maps: formal definition; examples; properties of projective maps; the matrix of a map. Part 9 General: two-sided spaces - formal definition; subspaces. Part 10 Duality: duomorphisms; the polar complement; polar complements as duomorphisms; relative polar complements; general duomorphisms; the power of duality. Part 11 Generalized projective maps: projective functions; computer representation. Part 12 Projective frames: nature of projective frames; classification of frames; standard frames; coordinates relative to a frame. Part 13 Cross ratio: cross ratio in unoriented geometry; cross ratio in the oriented framework. Part 14 Convexity: convexity in classical projective space; convexity in oriented projective spaces; properties of convex sets; the half-space property; the convex hull; convexity and duality. Part 15 Affine geomerty: the Cartesian connection; two-sided affine spaces. Part 16 Vector albegra: two-sided vector spaces; translations; vector algebra; the two-sided real line; linear maps. Part 17 Euclidean geometry on the two-sided plane: perpendicularity; two-sided Euclidean spaces; Euclidean maps; length and distance; angular measure and congruence; non-Euclidean geometries. Part 18 Representing flats by simplices: the simplex representation; the dual simplex representation; the reduced simplex representation. Part 19 Plucker coordinates: the canonical embedding; Plucker coefficients; storage efficiency; the Grassmann manifolds. Part 20 Formulas for Plucker coordinates: algebraic formulas; formulas for computers; projective maps in Plucker coordinates; directions and parallelism.