Global ETD Search

221	Betony s vyšší odolností vůči působení vysokých teplot / The concrete with a higher resistance to high temperatures Mikulinec, David January 2012 (has links) The result of this master’s thesis is acquaintance with the issues of cement concrete resistance to high temperatures. This work describes the processes ongoing in the structure of concrete at extreme thermal loads and analysis of effects of high temperatures on the individual components of reinforced concrete structures is given, then influence of high temperatures and fire on the aggregates, matrix, reinforcement steel and the resulting changes in their properties. In the experimental part is given design of composition of concrete with a higher resistance to high temperatures and subsequent verification of the physico-mechanical properties of sample of concrete after exposure to temperatures at intervals of 200 ° C, 400 ° C, 600 ° C and 900 ° C. In individual recipes were observed changes of volume weight, changes of compressive strength and tensile strength flexural , tensile strength of surface layers and the occurrence of cracks and then were compared the results of thermally loaded and unloaded samples. The benefit in this issue is to evaluate the surface appearance of samples after heat load - study of area of crack and measurement of their width - was used according to the methodology's authors Xing, Hebert, Noumowe a Ledesert given in Cement and Concrete Research. This methodology allows to quantify changes of surface, after temperature load.
222	PHASE FIELD CRYSTAL STUDIES OF STRAIN-MEDIATED EFFECTS IN THE THERMODYNAMICS AND KINETICS OF INTERFACES Stolle, Jonathan F. E. 04 1900 (has links) <p>In this dissertation, the Phase Field Crystal (PFC) Method is used to study a number of problems in which interfaces and elastic effects play important roles in alloys. In particular, the three topics covered in this work are grain boundary thermodynamics in alloys, dislocation-mediated formation of clusters in binary and ternary alloys, and solutal effects in explosive crystallization. Physical phenomena associated with grain boundaries, such as Read-Shockley-like behaviour and Gibbs adsorp- tion theorem, were shown to be accurately captured in both PFC- and XPFC-type models. In fact, a connection between the solute segregation behaviour and physical properties of the system—such as energy of mixing, mismatch, and undercooling—were shown. Also, grain boundary premelting was investigated. It was shown how solute can change the disjoining potential of a grain boundary and a mechanism for hysteresis in grain boundary premelting was discussed. Regarding the phenomenon of cluster formation, a general coexistence approach and a nucleation-like approach were used to describe the mechanism consistently with observations; the process is facilitated by lowering the energy increase associated with it. The final phenomenon studied was explosive crystallization. It was shown that the temperature oscillations due to unsteady motion of an interface could be captured with PFC-type models and that this behaviour leaves patterns, such as solute traces, in the material. The versatility of this PFC formalism was demonstrated by capturing the underlying physics and elucidating the role of misfit strain in altering interface oscillations during explosive crystallization. Finally, it was demonstrated in all projects how PFC model parameters relate to coarse-grained material properties, thereby connecting these phenomena on larger scales to atomistic-scale properties.</p> / Doctor of Philosophy (PhD) phase field crystal modelling grain boundary thermodynamics cluster formation and precipitation explosive crystallization computational nonlinear dynamics Condensed Matter Physics Condensed Matter Physics
223	A Hybrid Framework of CFD Numerical Methods and its Application to the Simulation of Underwater Explosions Si, Nan 08 February 2022 (has links) Underwater explosions (UNDEX) and a ship's vulnerability to them are problems of interest in early-stage ship design. A series of events occur sequentially in an UNDEX scenario in both the fluid and structural domains and these events happen over a wide range of time and spatial scales. Because of the complexity of the physics involved, it is a common practice to separate the description of UNDEX into early-time and late-time, and far-field and near-field. The research described in this dissertation is focused on the simulation of near-field and early-time UNDEX. It assembles a hybrid framework of algorithms to provide results while maintaining computational efficiency. These algorithms include Runge-Kutta, Discontinuous Galerkin, Level Set, Direct Ghost Fluid and Embedded Boundary methods. Computational fluid dynamics (CFD) solvers are developed using this framework of algorithms to demonstrate the computational methods and their ability to effectively and efficiently solve UNDEX problems. Contributions, made in the process of satisfying the objective of this research include: the derivation of eigenvectors of flux Jacobians and their application to the implementation of the slope limiter in the fluid discretization; the three-dimensional extension of Direct Ghost Fluid Method and its application to the multi-fluid treatment in UNDEX flows; the enforcement of an improved non-reflecting boundary condition and its application to UNDEX simulations; and an improvement to the projection-based embedded boundary method and its application to fluid-structure interaction simulations of UNDEX problems. / Doctor of Philosophy / Underwater explosions (UNDEX) and a ship's vulnerability to them are problems of interest in early-stage ship design. A series of events occur sequentially in an UNDEX scenario in both the fluid and structural domains and these events happen over a wide range of time and spatial scales. Because of the complexity of the physics involved, it is a common practice to separate the description of UNDEX into early-time and late-time, and far-field and near-field. The research described in this dissertation is focused on the simulation of near-field and early-time UNDEX. It assembles a hybrid framework of algorithms to provide results while maintaining computational efficiency. These algorithms include Runge-Kutta, Discontinuous Galerkin, Level Set, Direct Ghost Fluid and Embedded Boundary methods. Computational fluid dynamics (CFD) solvers are developed using this framework of algorithms to demonstrate these computational methods and their ability to effectively and efficiently solve UNDEX problems. Underwater explosion Fluid-structure interaction Computational fluid dynamics Discontinuous Galerkin method Level set method Direct ghost fluid method Embedded boundary method Shock wave Rarefaction wave Explosive gaseous bubble
224	Le génie en Afghanistan : adaptation d'une arme en situation de contre-insurrection (2001-2012) : hommes, matériels, emploi / French engineers in Afghanistan (2001-2012) : field's adaptation process in counter-insurgency's war : men, materials and doctrines Lafaye, Christophe 29 January 2014 (has links) Cette recherche doctorale en histoire immédiate, s'inscrit dans une réflexion plus large sur l'étude de nouveaux conflits, la culture et l'emploi des forces armées françaises sur le terrain, en prenant l'exemple de son engagement en Afghanistan. Elle porte particulièrement sur l'emploi de l'arme du génie dont nous postulons à la grande importance de ses savoir-faire sur le terrain, en situation de contre-insurrection. / This doctoral research takes part on the study of the new conflicts, by taking the example of the French engineers in Afghanistan. We postulate for the big importance of these combat support units in situation of counterinsurgency. Génie militaire Afghanistan Task Force Lafayette Ouverture d'itinéraires piégés Fouille opérationnelle Protection de la force Insurgés Afghanitan Engineers Counterinsurgency Taliban Insurgents Countering improvised Explosive device Explosive Ordnance detachment Military advanced search Operational mentoring and liaison team Epidote Open and restore a route Mobility support Afghan national army Afghan national police
225	Förmågan till minröjning, en verklighet för framtidens jägargrupp : Ökad förmåga till problemlösning i dagens konfliktområden / Mine clearance capability, the Reality on the Future Ranger Squads : The increased ability to problem solving in today’s conflict areas Hjulfors, David January 2009 (has links) <p>I dagens konfliktområden är förekomsten av minor och oexploderad ammunition(OXA) ett vanligt förekommande problem för civilbefolkning samt de militära enheter som arbetar i området för att skapa stabilitet och säkerhet. Den här uppsatsen avhandlar möjligheten att lösa eventuella problem som har att göra med förekomsten av minor och OXA i ett missionsområde utan tillgång till stödresurser i form av min- och ammunitionsröjningsteam. Uppsatsens syfte är att undersöka om det är möjligt att tillföra minröjningskompetens på gruppnivå utan att tappa ursprunglig kompetens och fokus från huvudtjänsten. Uppsatsen tar även upp vilken lägsta nivå av utbildning som krävs för att kunna röja mineringar och OXA, samt hur man når upp till det målet. Uppsatsens frågeställning har varit: Går det att inom ramen för Jägarbataljon 09 utbilda en soldat som besitter kompetensen att kunna identifiera och röja mineringar samt OXA? Om ja, vilken utrustning bör tillföras? Mina slutsatser är att det är praktiskt möjligt genom att tillföra en min- och amröjledare på bataljons nivå. Min- och amröjledaren kan i sin tur utbilda och ge soldaterna den reella kompetens som behövs på enbart fyra veckor, ca 130h stimmar. Utbildningen som krävs är grundkursen Minröjning Manuella Metoder(MMM). För att fullt ut kunna nyttja förmågan krävs det att gruppen tillförs viss ammunitionsröjningsutrustning, bland annat extra tänd- och sprängmedel. Effekten man vinner på tillförsel av minröjningskompetensen är kopplat mot förbandets förmåga till okonventionellt uppträdande samt möjligheterna att ta ytterligare steg innanför motståndarens beslutscykel.</p> / <p>In today’s conflict areas the remnants of war, mines and unexploded ordnance (UXO) is a common problem for the civilian population. These remnants also pose a great threat for the military units who work in the area to create peace, stability and security for the people. The purpose of this essay is to discover if and how it is possible to solve eventual problems associated with remnants of war in conflict areas, without the support of Explosive Ordnance Disposal (EOD) teams. My research has explored if it is possible to implement mine clearance and ammunition disposal on a squad without loosing additional competence and focus from the squad’s main field of service. Additional research has been carried out to ascertain the lowest level of competence necessary to work within the field of mine clearance and ammunition disposal, and what education is needed. My thesis aims to answer, if it is possible within the frame of the Army Ranger Battalion 09, to educate a soldier on a squad to have the ability and competence to do work within the field of mine clearance and ammunition disposal? If yes, what additional equipment should be added to the squad, to be able to perform that task? My conclusion is that it is possible to achieve by adding a mine clearance and ammunition disposal leader to the Battalion staff who can educate, train and give the soldiers the proper education in four weeks (approximately 130h). The education required to achieve this goal is the course, Mine clearance Manuel Methods (MMM). To use this ability it is necessary to equip the group with some additional and specific disposal-equipment (i.e. extra explosives.) The main effort gained from implementing this ability on a ranger squad is the Ranger Battalion’s overall ability to operate and appear in unexpected areas, and to get inside the enemy’s OODA-LOOP.</p> Army Ranger Battalion (AJB) Göta Engineers (ING2) Explosive Ordnance Disposal (EOD) Mine Rescue Team(MRT) Unexploded ordnance (UXO) Mine Clearance Manual Methods(MMM) Arméns Jägarbataljon (AJB) Göta Ingenjörsbataljon (ING2) Explosive Ordnance Disposal (EOD) Min- ammunitionsröjning Mine Rescue Team (MRT) Oexploderad ammunition (OXA) Minröjning manuella metoder (MMM) SOCIAL SCIENCES SAMHÄLLSVETENSKAP
226	Förmågan till minröjning, en verklighet för framtidens jägargrupp : Ökad förmåga till problemlösning i dagens konfliktområden / Mine clearance capability, the Reality on the Future Ranger Squads : The increased ability to problem solving in today’s conflict areas Hjulfors, David January 2009 (has links) I dagens konfliktområden är förekomsten av minor och oexploderad ammunition(OXA) ett vanligt förekommande problem för civilbefolkning samt de militära enheter som arbetar i området för att skapa stabilitet och säkerhet. Den här uppsatsen avhandlar möjligheten att lösa eventuella problem som har att göra med förekomsten av minor och OXA i ett missionsområde utan tillgång till stödresurser i form av min- och ammunitionsröjningsteam. Uppsatsens syfte är att undersöka om det är möjligt att tillföra minröjningskompetens på gruppnivå utan att tappa ursprunglig kompetens och fokus från huvudtjänsten. Uppsatsen tar även upp vilken lägsta nivå av utbildning som krävs för att kunna röja mineringar och OXA, samt hur man når upp till det målet. Uppsatsens frågeställning har varit: Går det att inom ramen för Jägarbataljon 09 utbilda en soldat som besitter kompetensen att kunna identifiera och röja mineringar samt OXA? Om ja, vilken utrustning bör tillföras? Mina slutsatser är att det är praktiskt möjligt genom att tillföra en min- och amröjledare på bataljons nivå. Min- och amröjledaren kan i sin tur utbilda och ge soldaterna den reella kompetens som behövs på enbart fyra veckor, ca 130h stimmar. Utbildningen som krävs är grundkursen Minröjning Manuella Metoder(MMM). För att fullt ut kunna nyttja förmågan krävs det att gruppen tillförs viss ammunitionsröjningsutrustning, bland annat extra tänd- och sprängmedel. Effekten man vinner på tillförsel av minröjningskompetensen är kopplat mot förbandets förmåga till okonventionellt uppträdande samt möjligheterna att ta ytterligare steg innanför motståndarens beslutscykel. / In today’s conflict areas the remnants of war, mines and unexploded ordnance (UXO) is a common problem for the civilian population. These remnants also pose a great threat for the military units who work in the area to create peace, stability and security for the people. The purpose of this essay is to discover if and how it is possible to solve eventual problems associated with remnants of war in conflict areas, without the support of Explosive Ordnance Disposal (EOD) teams. My research has explored if it is possible to implement mine clearance and ammunition disposal on a squad without loosing additional competence and focus from the squad’s main field of service. Additional research has been carried out to ascertain the lowest level of competence necessary to work within the field of mine clearance and ammunition disposal, and what education is needed. My thesis aims to answer, if it is possible within the frame of the Army Ranger Battalion 09, to educate a soldier on a squad to have the ability and competence to do work within the field of mine clearance and ammunition disposal? If yes, what additional equipment should be added to the squad, to be able to perform that task? My conclusion is that it is possible to achieve by adding a mine clearance and ammunition disposal leader to the Battalion staff who can educate, train and give the soldiers the proper education in four weeks (approximately 130h). The education required to achieve this goal is the course, Mine clearance Manuel Methods (MMM). To use this ability it is necessary to equip the group with some additional and specific disposal-equipment (i.e. extra explosives.) The main effort gained from implementing this ability on a ranger squad is the Ranger Battalion’s overall ability to operate and appear in unexpected areas, and to get inside the enemy’s OODA-LOOP. Army Ranger Battalion (AJB) Göta Engineers (ING2) Explosive Ordnance Disposal (EOD) Mine Rescue Team(MRT) Unexploded ordnance (UXO) Mine Clearance Manual Methods(MMM) Arméns Jägarbataljon (AJB) Göta Ingenjörsbataljon (ING2) Explosive Ordnance Disposal (EOD) Min- ammunitionsröjning Mine Rescue Team (MRT) Oexploderad ammunition (OXA) Minröjning manuella metoder (MMM) SOCIAL SCIENCES SAMHÄLLSVETENSKAP
227	Vinylanthracene and Triphenylamine Based Luminescent Molecular Systems : From Aggregation-Induced Emission to Explosive Detection Chowdhury, Aniket January 2016 (has links) (PDF) In the last few years, considerable efforts have been given to develop sensitive and effective sensors for explosive materials and to generate systems which exhibit high luminescence in both solution and solid-state. The increasing number of terrorist activities around the world have prompted scientists to design effective ways to detect and disarm even the trace amount of explosives. The nitroaromatics (NACs) are the common constituents of most of the explosives due to high explosive velocity and ease of availability. The NACs were extensively used as the main constituents in landmines until World War II. Apart from their explosive behavior, the NACs are well-known environmental pollutants. The industrial waste and the leakages from unexploded landmines are the major contributors towards the soil and ground water contamination. Presently for effective detection of trace amount of explosives, skilled canines and metal based detectors are commonly used. The canines are trained for a specific type of explosives which limit their ability to detect different types of substrates. The chemical sensors that work on the principle of colorimetric and/or fluorimetric detection techniques have emerged as suitable alternative due to cheap production cost, portability and sensitivity. Different types of materials including conjugated polymers, metal-organic frameworks (MOFs), and quantum-dots have been reported as efficient chemosensors for NACs. However, poor solubility in the common organic solvents, low solid-state fluorescence, very high molecular weight and lack of signal amplification have restricted the application of these material for in-field testing. Renewed interests have been invested in small molecule based systems; and metal-organic discrete molecular architectures due to precise control over their photophysical properties and the supramolecular interaction among neighboring molecules that facilitates energy migration among the molecular backbone. On the other hand, recently post-synthetic modification of different molecular systems including MOFs and polymers has emerged as a potential technique to incorporate desired functional groups into the system and to tune their properties with the retention of basic structures. Reports on the post-synthetic modification of discrete metal-organic architectures are rare due to the delicate nature of the metal-organic bonds that ruptures on mild environmental changes. Therefore, post-synthetic functionalization of discrete molecular systems using mild reaction conditions will open up a myriad of possibilities to generate new systems with desired characteristics. Chapter 1 of the thesis will briefly discuss the history of different explosive materials including different detection methodologies that are widely used. It will also include a brief discussion on different small molecular systems with high solid-state luminescence. In Chapter 2, design and synthesis of triphenylamine-based two Platinum(Pt)(II) molecules functionalized with carboxylic acid and ester groups including their organic analogues have been discussed. The triphenylamine core was chosen due its unique non-planarity and luminescence. On the other hand, Pt(II) center was incorporated to increase intermolecular spacing in solid-state that can induce high luminescence. Scheme 1. Schematic representation of fluorescence quenching using small molecules. All the four molecules were found to be highly sensitive towards NACs including picric acid and dinitrophenol. Although the molecules exhibited similar sensitivity in solution, the carboxylic acid analogues demonstrated superior sensitivity in solid-state. Careful observation of the crystal structures of the systems revealed the acid analogues were oriented in a 2-D grid-like pattern that facilitated energy migration among neighboring molecules (Scheme 1.). Chapter 3 describes design, synthesis, and NACs sensing behavior of anthracene-based four purely organic small molecules. The molecules exhibited high selectivity towards picric acid only. All the molecules were found to be highly emissive in both solution and solid-state due to the vinylanthracene backbone (Scheme 2.). Scheme 2. Schematic representation of fluorescence quenching and solid-state sensing behavior. Chapter 4 discusses the strategy to develop mechano-fluorochromic and AIE active triphenylamine-based Pt(II) complex and its organic analogue. The twisted triphenylamine backbone restricted molecular close packing in solid-state; and weak C-H-- interactions were utilized to hinder the motion of the phenyl rings. As a result, the molecules were highly emissive in solid-state. Grinding disrupted the intermolecular interactions and thus mechano-fluorochromic behavior was observed. Due to twisted backbone, the molecules were also found to be AIE active. Both the systems containing terminal aldehyde groups were finally utilized for selective detection of biomolecule cysteine (Scheme 3.). Scheme 3. Mechano-fluorochromic and AIE behavior of the triphenylamine based Pt(II) complex. In Chapter 5 vinylanthracene-based linear donor was used in combination with carbazole-based 90° and triphenylamine-based 120° Pt(II) acceptors to generate (4+4) and (6+6) molecular squares and hexagons, respectively. The vinylanthracene backbone imparts high solution and solid-state luminescence to the system as well as made them AIE active. The molecules were further investigated for the solution and solid-state sensing for NACs and found to be effective for trinitrotoluene (TNT) and dinitrotoluene (DNT) (Scheme 4.). Scheme 4. Schematic representation of AIE active molecular square and its NACs sensing. Chapter 6 describes the formation of Pd3 self-assembled molecular trinuclear barrels containing triphenylamine imidazole donors and Pd(II) acceptors. Using Knoevenagel condensation the aldehyde group present in the barrel was post-synthetically functionalized with Meldrum’s acid. From spectroscopic characterization, it was proved that the structural integrity remained intact after the post-modification treatment (Scheme 6.). Surprisingly, pre-synthetic modification of the donor alone with Meldrum’s acid followed by self-assembly treatment with the Pd(II) ion did not yield trigonal barrel 6.8. Scheme 6. Post-synthetic functionalization of trinuclear barrels using Knoevenagel condensation.(For colour pictures pl see the abstract pdf file) Luminescent Molecular Systems Vinylanthracene Sensors Explosive Materials Triphenylamine Sensors Chemical Sensors Small Molecule Sensors Aggregation Induced Emission Explosive Detection Nitroaromatics (NACs) Electron-Rich Sensors Metal Organic Frameworks Conjugated Polymers Self-Assembled Molecular Architectures PtII Luminogen Platinum(II) Metallacycles Picric Acid Detection Inorganic Chemistry
228	Selected anthropometric, physical and motor performance predictors of lower body explosive power in adolescents : the PAHL study / Koert Nicolaas van der Walt Van der Walt, Koert Nicolaas January 2014 (has links) Lower body explosive power (LBEP) forms a critical component in any individual and team sport performance and it is therefore essential to develop a means of predicting LBEP in adolescents for early identification of future talent in various sporting codes. LBEP is frequently used by athletes during matches or competitions where explosive movements such as jumping, agility running and sprinting are required for successful performance. These movements are usually found in individual sports such as long jump and high jump as well as in team sports such as basketball, volleyball and soccer. To date not much literature is available on LBEP, especially with regard to LBEP prediction models. Furthermore, studies on adolescents are scarce and a LBEP prediction model has not yet been developed for a South African adolescent population. It is against this background that the objectives of this study were firstly, to develop a LBEP prediction model from various physical and motor performance components among a cohort of adolescents living in the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province, South Africa; and secondly, to develop a LBEP prediction model from several anthropometric measurements among a cohort of male and female adolescents living in the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province, South Africa. Two hundred and fourteen (15.8±0.68 years) 15-year-old adolescents (126 females, 88 males) from 6 surrounding schools within the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province of South Africa were purposefully selected from pre-acquired class lists took part in the study. Data was collected by means of various questionnaires as well as anthropometrical, physical and motor performance tests. For representation of LBEP a principal component factor analysis was done and the results indicated that the vertical jump test (VJT) was the best indicator of LBEP in the cohort of adolescents. With regard to the anthropometrical related LBEP prediction model, the forward stepwise regression analysis yielded a correlation coefficient of R2 = 0.69. The following variables contributed significantly (p≤0.001) to the anthropometrical LBEP prediction model: stature (57%), muscle mass percentage (10%) and maturity age (3%). The LBEP prediction model that was developed equated to LBEP (vertical jump) = -136.30 + 0.84(stature) + 0.7(muscle mass percentage) + 4.6(maturity age). Variables other than the variables that formed part of the study could explain the further 31% variance in the LBEP of the adolescents. The physical and motor performance LBEP prediction model indicated that gender (39%) and 10 m speed (7%) contributed significantly (p ≤ 0.001) to the overall prediction of the LBEP of the adolescents. The LBEP prediction model delivered a stepwise forward regression analysis coefficient of R2=0.458 and a prediction formula LBEP = 68.21 + 9.82 (gender) – 18.33(10 m speed). The remaining 56% of the variance in the results could be explained by other factors than the variables considered in the study. In conclusion, to the best of the researchers’ knowledge, this is the first study which has made an attempt at developing LBEP prediction models from the anthropometrical, physical and motor performance components of a cohort of adolescents of South Africa. The prediction models developed in the study will assist teachers sport scientists and sporting coaches who have limited resources available, to measure and calculate LBEP in adolescents, with the means to do so in South Africa. Further high quality studies are necessary to further improve and develop such prediction models for various age groups of adolescents in the greater South Africa. / MSc (Sport Science), North-West University, Potchefstroom Campus, 2014 Adolescent Anaerobic power Anthropometry Explosive power Horizontal jump Motor and physical performance Prediction model Sprint Standing broad jump test Vertical jump Adolessent Anaerobiese krag Antropometriese Eksplosiewe krag Horisontale sprong Motor- en fisiese prestasie Voorspellingsmodel Naelloop Staande breësprong-toets Vertikale sprong
229	Selected anthropometric, physical and motor performance predictors of lower body explosive power in adolescents : the PAHL study / Koert Nicolaas van der Walt Van der Walt, Koert Nicolaas January 2014 (has links) Lower body explosive power (LBEP) forms a critical component in any individual and team sport performance and it is therefore essential to develop a means of predicting LBEP in adolescents for early identification of future talent in various sporting codes. LBEP is frequently used by athletes during matches or competitions where explosive movements such as jumping, agility running and sprinting are required for successful performance. These movements are usually found in individual sports such as long jump and high jump as well as in team sports such as basketball, volleyball and soccer. To date not much literature is available on LBEP, especially with regard to LBEP prediction models. Furthermore, studies on adolescents are scarce and a LBEP prediction model has not yet been developed for a South African adolescent population. It is against this background that the objectives of this study were firstly, to develop a LBEP prediction model from various physical and motor performance components among a cohort of adolescents living in the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province, South Africa; and secondly, to develop a LBEP prediction model from several anthropometric measurements among a cohort of male and female adolescents living in the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province, South Africa. Two hundred and fourteen (15.8±0.68 years) 15-year-old adolescents (126 females, 88 males) from 6 surrounding schools within the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province of South Africa were purposefully selected from pre-acquired class lists took part in the study. Data was collected by means of various questionnaires as well as anthropometrical, physical and motor performance tests. For representation of LBEP a principal component factor analysis was done and the results indicated that the vertical jump test (VJT) was the best indicator of LBEP in the cohort of adolescents. With regard to the anthropometrical related LBEP prediction model, the forward stepwise regression analysis yielded a correlation coefficient of R2 = 0.69. The following variables contributed significantly (p≤0.001) to the anthropometrical LBEP prediction model: stature (57%), muscle mass percentage (10%) and maturity age (3%). The LBEP prediction model that was developed equated to LBEP (vertical jump) = -136.30 + 0.84(stature) + 0.7(muscle mass percentage) + 4.6(maturity age). Variables other than the variables that formed part of the study could explain the further 31% variance in the LBEP of the adolescents. The physical and motor performance LBEP prediction model indicated that gender (39%) and 10 m speed (7%) contributed significantly (p ≤ 0.001) to the overall prediction of the LBEP of the adolescents. The LBEP prediction model delivered a stepwise forward regression analysis coefficient of R2=0.458 and a prediction formula LBEP = 68.21 + 9.82 (gender) – 18.33(10 m speed). The remaining 56% of the variance in the results could be explained by other factors than the variables considered in the study. In conclusion, to the best of the researchers’ knowledge, this is the first study which has made an attempt at developing LBEP prediction models from the anthropometrical, physical and motor performance components of a cohort of adolescents of South Africa. The prediction models developed in the study will assist teachers sport scientists and sporting coaches who have limited resources available, to measure and calculate LBEP in adolescents, with the means to do so in South Africa. Further high quality studies are necessary to further improve and develop such prediction models for various age groups of adolescents in the greater South Africa. / MSc (Sport Science), North-West University, Potchefstroom Campus, 2014 Adolescent Anaerobic power Anthropometry Explosive power Horizontal jump Motor and physical performance Prediction model Sprint Standing broad jump test Vertical jump Adolessent Anaerobiese krag Antropometriese Eksplosiewe krag Horisontale sprong Motor- en fisiese prestasie Voorspellingsmodel Naelloop Staande breësprong-toets Vertikale sprong
230	Dichotomous-Data Reliability Models with Auxiliary Measurements 俞一唐, Yu, I-Tang Unknown Date (has links) 我們提供一個新的可靠度模型，DwACM，並提供一個模式選擇準則CCP，我們利用DwACM和CCP來選擇衰變量。 / We propose a new reliability model, DwACM (Dichotomous-data with Auxiliary Continuous Measurements model) to describe a data set which consists of classical dichotomous response (Go or No Go) associated with a set of continuous auxiliary measurement. In this model, the lifetime of each individual is considered as a latent variable. Given the value of the latent variable, the dichotomous response is either 0 or 1 depending on if it fails or not at the measuring time. The continuous measurement can be regarded as observations of an underlying possible degradation candidate of which descending process is a function of the lifetime. Under the assumption that the failure of products is defined as the time at which the continuous measurement reaches a threshold, these two measurements can be linked in the proposed model. Statistical inference under this model are both in frequentist and Bayesian frameworks. To evaluate the continuous measurements, we provide a criterion, CCP (correct classification probability), to select the best degradation measurement. We also report our simulation studies of the performances of parameters estimators and CCP. 拔靴法衰變量二元資料電火工品 EM演算法 bootstrap method degradation measurement dichotomous data electro-explosive device EM-algorithm latent variables Markov Chain Monte Carlo reliability

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