Discrimination against Religious Minorities in Nigeria: An Analysis with Reference to Human Development in the 21st Century

  This study examines religious discrimination against religious minorities like Muslims living in Christian populated areas in the south east, Christians are as well living in Muslim dominated areas. Minority Traditional worshippers in either Muslim or Christian majority areas, private institution, companies owned by Christians or Muslims etc. The discrimination against religious minorities has mitigated the peaceful co-existence among religious identities and other major life events which has culminated national development in all spheres of human engagement such as economic, social, political, security, etc. The researchers have tried to provide an analytical study of the empirical data as well as of the existing literature. The result of our findings shows that many religious identities have been denied of securing job opportunities, professing religion of their choice, finding it difficult to receive health care services, managing religious institutions, denied of equal rights of citizens, get political appointments, among others. The study recommends that people of different religions should embrace and tolerate one another, avoid the use of fanaticism, allow religious minorities to practice religion of their choice in order to dislodge prejudices from the society.

Geometric Superresolution for Removal of Undersampling Effect

This dissertation presents work on the Geometric Superresolution. There are two main parameters that can affect Geometric Superresolution, the finite size of pixels and the pitch of the pixels in digital imaging device like CCD (charged coupled device). In superresolution systems, the ultimate limit to resolution generally comes from the Geometric and not from the optical part of an imaging system. This thesis mainly deals with the undersampling of an optical image in which the separation between the neighbouring pixels in a CCD is assumed to be greater than the separation required by Nyquist Sampling. The problem of undersampling an optical image has been dealt with the use of an Optical Mask placed at the Fourier transform plane in a coherent 4f imaging system. The one dimensional version of the Optical Mask consists of a 1-dimensional amplitude grating. The Optical Mask is used to sample the Fourier transform of the input object. Due to the sampled Fourier transform, the image plane contains replicas of the input object. A CCD is used to undersample these replicas. The recorded undersampled image is Fourier transformed and contains replicas of original object spectrum but overlapped due to the undersampled image recorded by CCD. The overlapped spectrum is multiplied with a soft copy of an Optical Mask which removes the overlapping by removing the neighbouring spectral copies. An interpolation is done on the recovered single object spectral copy to fill the holes in the spectrum. The resultant spectrum is then Fourier transformed to obtain an image free of artefacts and free of undersampling effects. Different analogues of Optical Masks and CCD pixels have been presented and discussed in this thesis. Optical Masks may consist of negligibly small line widths or lines with finite widths. Similarly, an ideal CCD may consist of point pixels in which the pixel size is negligible in comparison with the spacing between them or in real situations may have finite size. The effects of these parameters on Geometric Superresolution have been discussed in the thesis. Simulation results in one and two dimensional have been presented to support the idea. A part of the thesis also discusses a technique dealing with subpixeling. An optical image using a Spatial light modulator is projected on a CCD and shifted in subpixel steps. The retrieved data corresponding to each subpixel step is combined to obtain high resolution image. This has been supported with experimental verification.