TY - THES AB - The problem of distributing points on a domain, like ball, plays a special role in the fields like geosciences and medical imaging. Therefore, we present an equidistribution theory with a focus on obtaining low-discrepancy point grids on a 3-dimensional ball. The connection of the discrepancy method and the quadrature points on a given domain is quite well known. We approximate the integral of a function given on a bounded domain by the sum of function values at a specific set of points together with some weights. The idea is to get the best approximation with the fewest possible function values. The ansatz is logical, if the chosen data set is well distributed on the whole domain. This perspective, with the ball as a domain, enables us to get nice configurations as well as suitable approximations to the integrals of functions on the ball. It is, for instance, important for choosing the centres of the radial basis functions as they are needed for regularization methods such as the RFMP algorithm and the ROFMP algorithm, developed by the Geomathematics Group at the University of Siegen for ill-posed inverse problems with particular focus on the sphere and the ball as domains of the unknown functions. Additionally, it is also important for computational purposes. For instance, for the wavelet methods with data given on the ball, where one needs to have an appropriate quadrature rule. AU - Ishtiaq, Amna DA - 2018 KW - Inverses Problem KW - Inverse problems (Differential equations) KW - Discrepancy method KW - Quadrature points KW - Sphere LA - eng PY - 2018 TI - Grid points and generalized discrepancies on the d-dimensional ball UR - https://nbn-resolving.org/urn:nbn:de:hbz:467-13733 Y2 - 2024-12-26T21:11:54 ER -