Search or add a thesis

Advanced Search (Beta)
Home > Pahari: A Sociolinguistic Study of Language Decline

Pahari: A Sociolinguistic Study of Language Decline

Thesis Info

Access Option

External Link

Author

Muhammad Gulfraz Abbasi

Program

PhD

Institute

Bahauddin Zakariya University

City

Multan

Province

KPK

Country

Pakistan

Thesis Completing Year

2015

Thesis Completion Status

Completed

Subject

English Language & Literature

Language

English

Link

http://prr.hec.gov.pk/jspui/bitstream/123456789/6717/1/Preliminary%20Pages.pdf

Added

2021-02-17 19:49:13

Modified

2023-01-06 22:46:02

ARI ID

1676724895786

Similar


Loading...
Loading...

Similar Books

Loading...

Similar Chapters

Loading...

Similar News

Loading...

Similar Articles

Loading...

Similar Article Headings

Loading...

باب سوم: پانچ حیثیات

پروفیسر عبدالحق کے علمی کارناموں پر نظر ڈالنے سے ان کی شخصیت اور قابلیت کے نئےزاویے ہمارے سامنے آتے ہیں۔ ان کی پانچ حیثیتیں نمایاں ہیں۔

Effect of Apium Graveolens (Celery) Seed Extract on Serum Uric Acid Level of Hyperuricemic Rats and its Comparison with Allopurinol

Background: Plant derived medicines are widely used in traditional culture all over the world. Objectives: To determine the effect of Celery Seed Extract (CSE) on uric acid levels in hyperuricemic rats and to compare the effect of allopurinol and CSE. Methods: It was an animal experimental research study. Group A served as negative control whereas Group B served as positive control. CSE was given orally to three groups of rats (C, D, and E). One hour prior to administration of CSE; potassium oxonate was injected intraperitoneally in all groups except negative control to induce hyperuricemia. Similarly, group F was given allopurinol one hour after injection of potassium oxonate. Blood samples were collected for uric acid estimation. Results: It was found that administration of both CSE (group C, D, E) and allopurinol (group F) significantly lowered serum uric acid levels (p<0.001) as compared to positive control (group B). Serum uric acid lowering effect of both drugs CSE and allopurinol was found to be statistically significant on day 3rd and day 7th and was almost comparable. Conclusions: Celery seed extract significantly reduces serum uric acid levels in potassium oxonate-induced hyperuricemic rats and its uric acid lowering effect was comparable with that of allopurinol.

Stabilization of Nanholonomic Systems

The stabilization problem of nonholonomic systems, for many reasons, has been an active research topic for the last three decades. A key motivation for this research stems from the fact that nonholonomic systems pose considerable chal lenges to control system designers. Nonholonomic systems are not stabilizable by smooth time-invariant state-feedback control laws, and hence, the use of dis continuous controllers, time-varying controllers, and hybrid controllers is needed. Systems such as wheeled mobile robots, underwater vehicles, and underactuated satellites are common real-world applications of nonholonomic systems, and their stabilization is of significant interest from a control point of view. Nonholonomic systems are, therefore, a principal motivation to develop methodologies that allow the construction of feedback control laws for the stabilization of such systems. In this dissertation, the stabilization of nonholonomic systems is addressed using three different methods. The first part of this thesis deals with the stabilization of nonholonomic systems with drift and the proposed algorithm is applied to a rigid body and an extended nonholonomic double integrator system. In this technique, an adaptive backstepping based control algorithm is proposed for stabilization. This is achieved by transforming the original system into a new system which can be asymptotically stabilized. Once the new system is stabilized, the stability of the original system is established. Lyapunov theory is used to establish the stability of the closed-loop system. The effectiveness of the proposed control algorithm is tested, and the results are compared to existing methods. The second part of this dissertation proposes control algorithm for the stabilization of drift-free nonholonomic systems. First, the system is transformed, by using in put transformation, into a particular structure containing a nominal part and some unknown terms that are computed adaptively. The transformed system is then stabilized using adaptive integral sliding mode control. The stabilizing controller for the transformed system is constructed that consists of the nominal control plus a compensator control. The Lyapunov stability theory is used to derive the compensator control and the adaptive laws. The proposed control algorithm is applied to three different nonholonomic drift-free systems: the unicycle model, the front-wheel car model, and the mobile robot with trailer model. Numerical results show the effectiveness of the proposed control algorithm. In the last part of this dissertation, a new solution to stabilization problem of non holonomic systems that are transformable into chained form is investigated. The smooth super twisting sliding mode control technique is used to stabilize nonholo nomic systems. Firstly, the nonholonomic system is transformed into a chained form system that is further decomposed into two subsystems. Secondly, the second subsystem is stabilized to the origin using the smooth super twisting sliding mode control. Finally, the first subsystem is steered to zero using the signum function. The proposed method is applied to three nonholonomic systems, which are trans formable into chained form; the two-wheel car model, the model of front-wheel car, and the firetruck model. Numerical computer simulations show the effectiveness of the proposed method when applied to chained form nonholonomic systems. This research work is mainly focused on the design of feedback control laws for the stabilization of nonholonomic systems with different structures. For this purpose, the methodologies adopted are based upon adaptive backstepping, adaptive inte gral sliding mode control, and smooth super twisting sling mode control technique. The control laws are formulated using Lyapunov stability analysis. In all cases, the control laws design for the transformed models is derived first, which is then used to achieve the overall control design of the kinematic model of particular nonholonomic systems. Numerical simulation results confirm the effectiveness of these approaches.