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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Psykometrisk prövning av PG-13; ett självskattningsinstrument för ihållande sorg

Alexandersson, Pelle January 2010 (has links)
Frågan om ”normal” respektive ”patologisk” sorg har under en lång tid varit ett omdiskuterat ämne inom psykologin och psykiatrin. En grupp forskare har tagit fram kriterier på ett syndrom som fått benämningen ihållande sorg (”prolonged grief”). Studier har visat på att ihållande sorg är ett distinkt syndrom separat från depression, posttraumatisk stressyndrom och generaliserat ångestsyndrom. Ihållande sorg föreslås ingå som en diagnos i de kommande versionerna av de diagnostiska manualerna DSM och ICD. Syftet med denna studie var att översätta självskattningsinstrumentet Prolonged Grief Disorder (PG-13) till svenska, och undersöka dess reliabilitet och validitet genom bland annat en explorativ och konfirmatorisk faktoranalys. Studien genomfördes på ett annonsrekryterat heterogent sample (n=162 varav 90 % var kvinnor) vad gäller typ av dödsfall och relation till den avlidne. Respondenterna besvarade en webb- eller pappersenkät som bestod av 75 items. PG-13 bedöms ha en hög reliabilitet, god begrepps- och samtidig validitet samt en måttlig diskriminativ validitet.
12

Advancing Optimal Control Theory Using Trigonometry For Solving Complex Aerospace Problems

Kshitij Mall (5930024) 17 January 2019 (has links)
<div>Optimal control theory (OCT) exists since the 1950s. However, with the advent of modern computers, the design community delegated the task of solving the optimal control problems (OCPs) largely to computationally intensive direct methods instead of methods that use OCT. Some recent work showed that solvers using OCT could leverage parallel computing resources for faster execution. The need for near real-time, high quality solutions for OCPs has therefore renewed interest in OCT in the design community. However, certain challenges still exist that prohibits its use for solving complex practical aerospace problems, such as landing human-class payloads safely on Mars.</div><div><br></div><div>In order to advance OCT, this thesis introduces Epsilon-Trig regularization method to simply and efficiently solve bang-bang and singular control problems. The Epsilon-Trig method resolves the issues pertaining to the traditional smoothing regularization method. Some benchmark problems from the literature including the Van Der Pol oscillator, the boat problem, and the Goddard rocket problem verified and validated the Epsilon-Trig regularization method using GPOPS-II.</div><div><br></div><div>This study also presents and develops the usage of trigonometry for incorporating control bounds and mixed state-control constraints into OCPs and terms it as Trigonometrization. Results from literature and GPOPS-II verified and validated the Trigonometrization technique using certain benchmark OCPs. Unlike traditional OCT, Trigonometrization converts the constrained OCP into a two-point boundary value problem rather than a multi-point boundary value problem, significantly reducing the computational effort required to formulate and solve it. This work uses Trigonometrization to solve some complex aerospace problems including prompt global strike, noise-minimization for general aviation, shuttle re-entry problem, and the g-load constraint problem for an impactor. Future work for this thesis includes the development of the Trigonometrization technique for OCPs with pure state constraints.</div>

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