Generalized convex bodies of revolution in n-dimensional space /

McGee, Keane B.

January 1978

Thesis (Ph. D.)--Oregon State University, 1978. / Typescript (photocopy). Includes bibliographical references. Also available on the World Wide Web.

Convex bodies.

'n Studie van die konveksiteitstelling van A.A. Lyapunov /

Barnard, Charlotte.

January 2008

Thesis (MSc)--University of Stellenbosch, 2008. / Bibliography. Also available via the Internet.

Convex geometry.

MEASURES OF CONVEXITY

Cohen, Stephen Burton, 1940-

January 1970

No description available.

Convex domains.

Convex programming without constraint qualification : a study of Pareto optimality

Fraklin, Martin Gordon.

January 1975

No description available.

Convex programming.

Solving discrete minimax problems with constraints

Turner, Bella Tobie

January 1976

No description available.

Convex programming.

Decomposition methods for structured convex programming

Ha, Cu Duong.

January 1980

Thesis (Ph. D.)--University of Wisconsin--Madison, 1980. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 101-106).

Convex programming.

Continuous methods for convex programming and convex semidefinite programming

Qian, Xun

07 August 2017

In this thesis, we study several interior point continuous trajectories for linearly constrained convex programming (CP) and convex semidefinite programming (SDP). The continuous trajectories are characterized as the solution trajectories of corresponding ordinary differential equation (ODE) systems. All our ODE systems are closely related to interior point methods.. First, we propose and analyze three continuous trajectories, which are the solutions of three ODE systems for linearly constrained convex programming. The three ODE systems are formulated based on an variant of the affine scaling direction, the central path, and the affine scaling direction in interior point methods. The resulting solutions of the first two ODE systems are called generalized affine scaling trajectory and generalized central path, respectively. Under some mild conditions, the properties of the continuous trajectories, the optimality and convergence of the continuous trajectories are all obtained. Furthermore, we show that for the example of Gilbert et al. [Math. Program., { 103}, 63-94 (2005)], where the central path does not converge, our generalized central path converges to an optimal solution of the same example in the limit.. Then we analyze two primal dual continuous trajectories for convex programming. The two continuous trajectories are derived from the primal-dual path-following method and the primal-dual affine scaling method, respectively. Theoretical properties of the two interior point continuous trajectories are fully studied. The optimality and convergence of both interior point continuous trajectories are obtained for any interior feasible point under some mild conditions. In particular, with proper choice of some parameters, the convergence for both continuous trajectories does not require the strict complementarity or the analyticity of the objective function.. For convex semidefinite programming, four interior continuous trajectories defined by matrix differential equations are proposed and analyzed. Optimality and convergence of the continuous trajectories are also obtained under some mild conditions. We also propose a strategy to guarantee the optimality of the affine scaling algorithm for convex SDP.

Convex programming

Open disk packings of a disk

Wilker, John Brian

January 1966

A packing of the plane unit disk U by an infinite collection of smaller disks [symbol omitted] = {Dn} is a non-over lapping arrangement of the Dn which covers U up to a residual set of measure 0. An indication of the efficiency of such a packing is given by its exponent and local exponents which are defined in terms of the convergence of the exponential series [formula omitted] where rn is the radius of Dn and α is positive. It is proved that the exponent of a packing is the supremum of its local exponents. Then a special class of packings is introduced and it is shown that all these have the same exponent and constant local exponent. Reasons are given for believing this exponent to be the minimum over all packings and a lower bound of 1.059 is derived for it. One of these packings is modified without changing its exponent to solve an obstacle problem. In the final section, several unsolved problems on packings and exponents are suggested. / Science, Faculty of / Mathematics, Department of / Graduate

Convex domains

A convex hull algorithm optimal for point sets in even dimensions

Seidel, Raimund

January 1981

Finding the convex hull of a finite set of points is important not only for practical applications but also for theoretical reasons: a number of geometrical problems, such as constructing Voronoi diagrams or intersecting hyperspheres, can be reduced to the convex hull problem, and a fast convex hull algorithm yields fast algorithms for these other problems. This thesis deals with the problem of constructing the convex hull of a finite point set in R . Mathematical properties of convex hulls are developed, in particular, their facial structure, their representation, bounds on the number of faces, and the concept of duality. The main result of this thesis is an O(nlogn + n[(d+1)/2]) algorithm for the construction of the convex hull of n points in Rd. It is shown that this algorithm is worst case optimal for even d≥2. / Science, Faculty of / Computer Science, Department of / Graduate

Convex programming

Convex programming without constraint qualification : a study of Pareto optimality

Fraklin, Martin Gordon.

January 1975

No description available.

Convex programming.