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Role of Parenting Styles in Childhood Behavior Problems

Thesis Info

Author

Noreen Akhter

Department

National Institute of Psychology, QAU.

Program

Mphil

Institute

Quaid-i-Azam University

Institute Type

Public

City

Islamabad

Province

Islamabad

Country

Pakistan

Thesis Completing Year

2008

Thesis Completion Status

Completed

Page

106

Subject

Psychology

Language

English

Other

Call No: DISS/M.Phil PSY/487

Added

2021-02-17 19:49:13

Modified

2023-02-19 12:33:56

ARI ID

1676717816813

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آج کل دل جلوں میں رہتا ہوں

آج کل دل جلوں میں رہتا ہوں
اپنے ہی دوستوں میں رہتا ہوں

لذتِ انتظار مجھ سے پوچھ
میں ترے راستوں میں رہتا ہوں

ساتھ رہتی ہے میرے تنہائی
گو کہ میں جمگھٹوں میں رہتا ہوں

کیا یہ کم میری تم سے نسبت ہے
میں تری نفرتوں میں رہتا ہوں

شہر کے شور سے ہوں تنگ آیا
جا کے پھر جنگلوں میں رہتا ہوں

میرا تائبؔ مزاج موزوں ہے
میں بڑے شاعروں میں رہتا ہوں

Congenital Heart Disease: Causes and Risk Factors Congenital Heart Disease: Causes and Risk Factors

Congenital Heart Defect (CHD) is a multifactorial disorder based on both genetic and environmental factors involved in development. The basic problem lies in the structure of heart leading to CHD that occurs in walls, valves, arteries and veins of heart. During cell cycle, the gene that controls this process may mutate, causing disturbance in any portion of heart leading to disturbed blood flow, blood flow in wrong direction or complete blockage. Defect may range from simple with no manifestations to complex with severe symptoms. Simple defects need no treatment while some babies with complex birth defects during birth require special care, vaccination, medication or otherwise treated with surgery. The incidence of CHD has declined from 80 to 20% due to progress in heart surgery techniques, medical treatment and interventional cardiology. Various genetic and non-genetic increase the susceptibility for CHD. The diagnosis and treatment of CHD has greatly improved in recent years. Almost all the children with CHD survive to adulthood and spend healthy and active lives after being treated.

Dynamics Numerical Optimization and Control of Dynamic Soaring Maneuvers for a Morphing Capable Unmanned Aerial Vehicle

Dynamicsoaringisaversatilemaneuverexecutedtoacquireenergyavailable in the atmospheric wind shears. For UAVs, dynamic soaring maneuvers have mostly been confined in literature to fixed configurations. In order to analyzetheextenttowhichdynamicsoaringisinfluencedbydifferentmorphologies, aninnovativeconceptofintegratingdynamicsoaringwithmorphingcapabilities is introduced in this research. Through simulations, two major studies were performed. One of them analyzed the impact of span morphology and the other of sweep morphology on dynamic soaring parameters. An Unmanned Air Vehicle(UAV) with standard wing-tail configuration is considered. The aerodynamic modeling is based on empirical estimation procedure duly validate dwit numerical Vortex Lattice Method(VLM).Three-dimensional point-mass UAV equations of motion and nonlinear wind gradient profile are used to model the flight dynamics. The trajectory optimization problem is formulated as an optimal control problem using hp-adaptive Guassian quadrature collocation technique. Optimal soaring trajectories are generated for both morphologies. Parametriccharacterizationofthekeyperformanceparametersisperformed to determine the optimal platform configuration during various phases of the maneuver. The comparison of morphing ability during flight is compared with its fixed-wing counterpart. Simulation results demonstrate the benefits of extending soaring maneu vers to morphing configurations and its viability for onboard utilization. Results indicate 15% lesser required wind shear by the proposed span morphology and 14% lesser required wind shear by the proposed sweep morphology, in comparison to their respective fixed wing counterparts. This shows that the morphing UAVcanperformdynamicsoaringinanenvironment,wherefixedconfiguration UAVs might not, because of lesser available wind shears. Apart from this, span morphology reduced drag by 15%, lift requirement by 11% and angle of attack requirement by 20%, whereas increased the maximum velocity by 6.2%, normalized energies by 9% and improved loitering parameters (approximately 10%), in comparison to fixed span configurations. Similarly, sweep morphology guaranteed 20% drag reduction, 16% lesser angle of attack requirement and improved loitering performance over the fixed sweep configurations. The stability analysis of the nonlinear system along the optimal trajectory is then performed utilizing both linear (Floquettheory) and nonlinear (Contraction theory) techniques. Stability of dynamic soaring orbits is important since the trajectories can get disturbed by a strong gust or crosswinds causing the UAV to veer off-course. Although control system can be designed, a stable orbit can reduce the control effort and power. The problem of analyzing stability is treated from the context of a periodic coefficient system. The stability analysis revealed that a closed-loop control is necessary as the system dynamics are inherently unstable. AgeometricnonlinearcontrollabilityanalysisofUAVunderdynamicsoaring conditions is then performed. To achieve such an objective, the state-of-theartmathematicaltoolsofnonlinearcontrollabilityareutilized. Thecontrollability of a flying vehicle along that optimal soaring trajectory is analyzed. More im portantly, the geometric nonlinear controllability characteristics of generic flight dynamics is analyzed in the presence and absence of wind shear to provide a controllability explanation for the role of wind shear in the physics of dynamic soaring flight. It is found that the wind shear is instrumental in ensuring controllability as it allows the UAV attitude controls (pitch and roll) to play the role of thrust in controlling the flight path angle. The presented analysis represents a controllability-based mathematical proof for the energetics of flight physics.