Building Relationships between Business Schools and Students: An Empirical Investigation into Student Retention

This study uses the relationship marketing theory of commitment and trust as a framework to investigate the issue of student retention in business schools. Structural equation modeling was used to examine relationships specified by Morgan and Hunt\u27s (1994) theory of relationship marketing. Students\u27 commitment to the business schools were determined by perceived benefits of attending the school, perceived similarity of values between the school and the students, and trust between the professors and the students. Commitment increased intentions to remain at the business school

Building Relationships Between Business Schools And Students: An Empirical Investigation Into Student Retention

This study uses the relationship marketing theory of commitment and trust as a framework to investigate the issue of student retention in business schools. Structural equation modeling was used to examine relationships specified by Morgan and Hunt's (1994) theory of relationship marketing.  Students' commitment to the business schools were determined by perceived benefits of attending the school, perceived similarity of values between the school and the students, and trust between the professors and the students.  Commitment increased intentions to remain at the business school

Recent Advances and Applications of Fractional-Order Neural Networks

This paper focuses on the growth, development, and future of various forms of fractional-order neural networks. Multiple advances in structure, learning algorithms, and methods have been critically investigated and summarized. This also includes the recent trends in the dynamics of various fractional-order neural networks. The multiple forms of fractional-order neural networks considered in this study are Hopfield, cellular, memristive, complex, and quaternion-valued based networks. Further, the application of fractional-order neural networks in various computational fields such as system identification, control, optimization, and stability have been critically analyzed and discussed

The Importance Of Decision Confidence To Strategy Outcomes

Strategic marketing researchers are of the view that formulating high quality strategies is sufficient for achieving high strategy success rates.  This research study investigates the effect of key organizational and managerial variables on the outcome of strategies.  In particular, the study includes, decision confidence, a hitherto neglected variable in the strategy literature, as an additional, and critical, variable that affects the success of marketing strategies.  This study attempts to establish a bridge between two main streams of literature in the strategy discipline--strategic marketing and decision making

Raman mode random lasing in ZnS-β-carotene random gain media

Raman mode random lasing is demonstrated in ZnS-b-carotene random gain media at room temperature. A self assembled random medium is prepared with ZnS sub micron spheres synthesized by homogeneous precipitation method. b-Carotene extracted from pale green leaves is embedded in this random medium. The emission band of ZnS random medium (on excitation at 488 nm) overlaps considerably with that of b-carotene, which functions as a gain medium. Here, random medium works as a cavity, leading to Raman mode lasing at 517nm and 527nm triggered by stimulated resonance Raman scatteringAccepted versio

Enhancement of photoluminescence from defect states in ZnS random photonic crystal : an effect of electronic and photonic mode coupling

This paper reports on the enhanced defect state emission from ZnS in the form of a random photonic crystal (RPC) medium. ZnS photonic crystals with varied randomness are fabricated by colloidal self assembly of ZnS nanospheres (215 ± 10 nm). Reflection and transmission studies reveal mid band gap wavelength at ∼435 nm. The band structure calculated for BCC lattice with reduced packing fraction (53%) is in good agreement with experimental results. The reflection due to the photonic band gap diminishes with increased randomness in the nanosphere arrangement. The features of fluorescence from ZnS are modified in the RPC medium, resulting in suppression at wavelengths in the photonic band gap region and an enhancement at band edge wavelengths of 415 and 468 nm. This enhancement becomes less prominent with increasing randomness in the structure. Interestingly these two modes correspond to the electronic defect states of ZnS. Emission enhancement is shown to be due to the strong coupling of electronic defect states and photonic band edge states which is facilitated by randomly scattering slow Bloch modes in the ZnS RPC. Fabrication of RPCs by colloidal self-assembly with specifically designed degrees of randomness (leading to controllable features of emission) provides scope for the design of low threshold random lasing systems.Accepted versio

Plasmonically tunable blue-shifted emission from coumarin 153 in Ag nanostructure random media : a demonstration of fast dynamic surface-enhanced fluorescence

Enhancement of intensity and wavelength tunability of emission are desirable features for light-emitting device applications. We report on the large and tunable blue shift (60 nm) in emission from an environment-sensitive fluorophore (Coumarin153) embedded in Ag plasmonic randommedia. Coumarin 153 having emission at 555 nm, show a systematic blue shift (to 542, 503 and 495 nm) upon infiltration into random media fabricated by Ag nanowires of different aspect ratio (hence, surface plasmon resonances at 426, 445 and 464 nm). The blue shift is due to the fast dynamic surface-enhanced fluorescence mechanism and can be tuned by controlling the surface plasmon resonance and hotspot density in random media. Enhanced emission at desired wavelength is achieved by using nanostructures having higher extinction coefficient but same-surface plasmon resonance. Ag nanostructures of different aspect ratio used for fabricating the random media are synthesized by chemical route.Accepted versio

ROLE OF MAGNETIC RESONANCE IMAGING IN THE EVALUATION OF SPINAL CORD LESIONS IN A TERTIARY CARE HOSPITAL, HYDERABAD

Background: Using other imaging modalities, subtle bone marrow, soft tissue, and spinal cord abnormalities, which may not be apparent, can be readily detected on magnetic resonance imaging (MRI). Prompt and accurate diagnosis, expeditious management, and avoidance of unnecessary procedures are achieved by early detection. Aim: The aim is to study the role of MRI in diagnosing spinal cord lesions. Methods: This study was conducted during the period from November 2018 to November 2020 and it is a prospective descriptive study of 50 patients who were referred to the Department of Radiodiagnosis Osmania General Hospital and MNJ Institute of Oncology and Regional Cancer Centre, Hyderabad, Telangana. Results: In the present study of 50 cases, different spinal cord lesions were found. The most common spinal cord lesions were neoplastic (38%) followed by spinal cord trauma (28%), and congenital lesions (16%). The most common spinal lesions were found in the 20–29 age group (40%), with more male predilection of 72% in comparison to 28% female in the present study. Out of 19 neoplastic lesions, the most common type of intramedullary spinal cord tumor (IMSC) is ependymoma (31.5%). The second most common IMSC tumor is astrocytoma 15.7% of all neoplastic lesions in the present study and the most common tumor among children. The most common location of the lesion is the thoracic cord. Hemangioblastomas constitute 10.5% of all spinal cord tumors in the present study. Meningiomas which are intradural extramedullary lesions constituted 10.5%. Neurofibroma constituted 5.2% which are intradural extramedullary with extradural component noted in NF1. Spinal cord metastasis constituted 26.3%. Intradural intramedullary lesions constituted 48% followed by extradural lesions 40% followed by intradural extramedullary lesions 12%. Conclusion: MRI by virtue of non-invasiveness, lack of radiation hazard, and the ability to demonstrate structural changes is an investigation of choice for spinal cord pathologies. The ability to image the cord directly rather than indirectly as in myelography, the absence of bone artifacts as in computed tomography, and the multiplanar capabilities indicate that MRI is the procedure of choice in the examination of the spinal cord

A comparative study of 2DOF PID and 2DOF fractional order PID controllers on a class of unstable systems

The proportional-integral-derivative (PID) controllers have experienced series of structural modifications and improvements. Example of such modifications are set-point weighting and fractional ordering. While the former is to achieve two-degree-of-freedom (2DOF) ability of set-point tracking and disturbance rejection, the latter is to ensure smooth control action. Therefore, this paper reviews various forms of PID controllers and provides a comparative analysis of 2DOF PID and 2DOF fractional order PID (FOPID) controllers. The paper also discusses the conversion of one PID form to another. For the comparative analysis of the various controllers, a class of unstable systems are considered. Simulation result shows that in most cases the conversion from one form to another does not significantly affect the performance of the system. It is also observed that the 2DOF controllers (2DOF PID and 2DOF FOPID) improved significantly the performance of the ordinary PID controllers