Information Management for Complex Product Development

Malvius, Diana

January 2007

<p>Due to different engineering background and limited technical prerequisites, trade-offs are needed when managing information in complex product development. The challenges faced with information management for complex product development are as much of organizational as technical character.</p><p>Information management has in this thesis been analyzed from both a technical and organizational dimension in order to obtain an integrated view and holistic understanding. The technical dimension focuses on information management systems, such as product lifecycle management systems. An information management system in itself does not solve problems in an organization; it manages at its best all types of business data while storing and retrieving information. In order to succeed, information management needs to be aligned with different needs and with a variety of domain-specific work procedures. The organizational dimension includes organizational structures, work procedures, and the designer and management perspectives on needs and benefits with information management.</p><p>Perceived benefits with integrated information management are identified as support for SE, work procedure mapping, use of disciplinary support tools, and data integrity and availability. Five technical and organizational key success factors for efficient information management are presented; usability, integration of information, motivation, information structure and organizational support. It is concluded that structured information, management support and motivation among designers are more important than customization of information management systems in order to achieve integrated information management.</p>

Information management

complex product development

systems engineering

work procedures

PLM

Model and tool integration in high level design of embedded systems

Shi, Jianlin

January 2007

<p>The development of advanced embedded systems requires a systematic approach as well as advanced tool support in dealing with their increasing complexity. This complexity is due to the increasing functionality that is implemented in embedded systems and stringent (and conflicting) requirements placed upon such systems from various stakeholders. The corresponding system development involves several specialists employing different modeling languages and tools. Integrating their work and the results thereof then becomes a challenge. In order to facilitate system architecting and design integration of different models, an approach that provides dedicated workspaces/views supported by structured information management and information exchange between domain models and tools is required.</p><p>This work is delimited to the context of embedded systems design and taking a model based approach. The goal of the work is to study possible technical solutions for integrating different models and tools, and to develop knowledge, support methods and a prototype tool platform.</p><p>To this end, this thesis examines a number of approaches that focus on the integration of multiple models and tools. Selected approaches are compared and characterized, and the basic mechanisms for integration are identified. Several scenarios are identified and further investigated in case studies. Two case studies have been performed with model transformations as focus. In the first one, integration of Matlab/Simulink® and UML2 are discussed with respect to the motivations, technical possibilities, and challenges. A preliminary mapping strategy, connecting a subset of concepts and constructs of Matlab/Simulink® and UML2, is presented together with a prototype implementation in the Eclipse environment. The second case study aims to enable safety analysis based on system design models in a UML description. A safety analysis tool, HiP-HOPS (Hierarchically Performed Hazard Origin and Propagation Studies), is partially integrated with a UML tool where an EAST-ADL2 based architecture model is developed. The experience and lessons learned from the experiments are reported in this thesis.</p><p>Multiple specific views are involved in the development of embedded systems. This thesis has studied the integration between system architecture design, function development and safety analysis through using UML tools, Matlab/Simulink, and HiP-HOPS. The results indicate that model transformations provide a feasible and promising solution for integrating multiple models and tools. The contributions are believed to be valid for a large class of advanced embedded systems. However, the developed transformations so far are not really scalable. A systematic approach for efficient development of model transformations is desired to standardize the design process and reuse developed transformations. To this end, future studies will be carried out to develop guidelines for model and tool integration and to provide support for structured information at both meta level and instance level.</p>

Model integration

Model transformation

Tool integration

Model based development

Embedded Systems

Engineering mechanics

Teknisk mekanik

Transient simulations of heavy-duty diesel engines with focus on the turbine

Winkler, Niklas

January 2008

<p>The finite response time of the turbocharger is the most notable effect oftransient operation on a turbocharged diesel engine. To fulfil future emission requirements high amounts of transient EGR will be required. This impliesthat advanced turbocharger systems have to be introduced to enable high boost pressures with improved or at least maintained response time. The increased amount of tunable parameters from the more advanced turbocharging system will make it difficult to optimise the engine experimentally. Therefore the wish is to optimise the engine numerically, however this is a difficult task which demands more knowledge within the field of modelling the gas exchange system and its components, which is the aim of the present work. Engine simulations have been performed in the 1-dimensional fluid dynamic code GT-Power for transient operation and validated with engine measurements. The turbine was modelled according to the state of the art which is via look-up tables with measured turbine performance data from a steady-flow rig and used under the assumption that the turbine behaves in a quasi-steady manner. Turbine performance data was also obtained via the semi-empirical turbine design software, Rital for comparison. A heavy-duty diesel engine has been modelled with two different gas exchange system configurations. The standard configuration with a single twin-entry turbine and a rebuilt gas exchange system including a two-stage turbocharging system and high pressure loop for EGR. The results shows that it is difficult to predict the performance of the gas exchange system and its components, especially the turbine performance. When trying to predict turbine performance under transient operation the difficulties added, compared to stationary operation are long scale transients as wall temperature gradients in the cylinder and the exhaust manifold which directly influences the amount of isentropic energy to the turbine. This makes it even more difficult to predict the isentropic exhaust gas energy content compared to stationary operation, which is difficult to measure and therefore to state how well the turbine model actually performs. However, even though it is difficult to predict engine performance in detail the models have proved to be useful for concept studies as a help in engine design.</p>

Residual stresses in paperboard and the influence of drying conditions

Östlund, Magnus

January 2005

<p>The drying sequence in the manufacturing process for paperboard involves evaporation of water, primarily from within the fibres. The vapour is then transported out of the web by pressure or concentration gradients. As the moisture transport from the paper web to the ambient is quicker than the moisture transport within the fibre network to the surfaces of the web, moisture gradients develop through the thickness of the web. This work concerns effects on the mechanics of paper drying from the variation in moisture through the relatively thin structures of paper and paperboard.</p><p>Distributions of inplane residual stresses through paper materials in the unloaded state after drying are believed to be caused by the varying moisture through the thickness during drying. The distributions in general exhibit compressive stress near the board surfaces and tensile stress in the interior of the board. This may be modified after drying and is also affected by structural variation in the material between different plies of multi-ply paperboards.</p><p>The stress development during drying is important because it influences the resulting material properties of the paper and because it can lead to curl, which is a quality problem. The residual stresses themselves are an error source in simulation or evaluation of the mechanical behaviour of paper.</p><p>In this work, residual stress distributions in paperboard were determined experimentally, to clarify the mechanisms of residual stress build-up. An experimental method for such tests was also developed. Based on the experimental findings, the mechanics of paper drying was modelled and the stress build-up simulated. Simulation offers a way of studying how the properties of paper develop during drying of wet paper webs.</p>

paper

drying

mechanical properties

residual stress

curl

Length-scale effects in yielding and damage development in polymer materials

Agde Tjernlund, Jessica

January 2005

No description available.

Other materials science

Övrig teknisk materialvetenskap

Architecting and Modeling Automotive Embedded Systems

Larses, Ola

January 2005

<p>Dealing properly with electronics and software will be a strong competitive advantage in the automotive sector in the near future. Electronics are driving current innovations and are at the same time becoming a larger part of the cost of the vehicle. In order to be successful as an automotive manufacturer, innovations must be introduced in the vehicle without compromising the final price tag. Also, the electronics has to compete with, and win over, the dependability of well known and proven mechanical solutions.</p><p>Structure related costs can be reduced by designing a modular system, volume related costs can be reduced by utilizing fewer electronic control units that shares software performing a variety of functions. To achieve a modular system careful consideration must be applied in the architecture design process. Architecting is commonly referred to as an art, performed in a qualitative manner. This thesis provides a quantitative method for architecture design and evaluation targeting modular architectures.</p><p>The architecture design method is based on a simple underlying information model. This model is extended through practical experiences in case studies to include support for configuration and documentation.</p><p>An information model is a key enabler for managing the increasing complexity of automotive embedded systems. The model provides the basis for establishing the analyzable documentation that is required to ensure the dependability of the systems, specifically in terms of need for reliability, maintainability and safety. An information model supports traceability both within the product, across components, and also between different organizational units using different views of the product throughout the lifecycle.</p><p>Further, some general issues of systems engineering and model based development related to the engineering of automotive embedded systems are discussed. Considerations for introducing a model based development process are covered. Also, the maturity of development processes and requirements on tools in an automotive context are evaluated. The ideas and methods presented in this thesis have been developed and tried in an industrial setting through a range of case studies.</p>

Automotive

Embedded systems

Architecture

Dependability

Cost

Systems engineering

Systemteknik

On the modular modelling for dynamical simulation with application to fluid systems

Sjöstedt, Carl-Johan

January 2005

<p>This licentiate thesis highlights some topics on modular modelling for dynamical simulation with application to fluid systems. The results are based on experience from the development of the fuel cell component simulation environment NFCCPP. The general application is cross-enterprise simulation of technical systems. There are four main topics: component definition including selection of interfaces, lumped modelling of fluid components, the use of dynamical equations to reduce simulation time in large systems and methods of to protect the intellectual property (IP) of a component.</p><p>An overview of different dynamical fluid simulation tools such as HOPSAN, MATLAB/Simulink and Easy5 is presented. Special focus is on interfaces, where different approaches for representing interfaces are presented using an illustrative example. Selecting interfaces is however not a separated task from how to set up and solve the underlying equations, which also is shown. Equations to model a lumped component are derived, to get a mathematical background to what problems there are to solve. These equations are derived especially to be applicable in block model software simulation tools such as MATLAB/Simulink. The equations are also compared with the bond-graph approach of representing dynamical systems. A twinscrew compressor is modelled in MATLAB/Simulink as an implementation of these equations. A method to decrease the simulation time in dynamical fluid system is also presented. The technique is to add virtual mass in the force equation to get a slower acceleration of the fluid. Using this slower response, it is possible to use larger time-steps when integrating the equations and thus the total simulation time can be reduced. The error introduced using this method is a modelling error in the time domain, and it is comparable with using unit transmission lines (UTL:s), as does HOPSAN.</p><p>The protection of the intellectual property (IP) of a component model is presented. The concept of clamping is thoroughly explained, as it often is overlooked in conventional IPprotection. Three concepts for code protection are presented: “Centralised simulation with remote user control”, “Localised simulation with simulation-time model usage control” and “Parallel distributed simulation”. The NFCCPP implementation of the concept “Localised simulation with simulation-time model usage control” is presented in more detail.</p>

Computer science

Datavetenskap

Modélisation de la dynamique de spin dans l'AGS basée sur une méthode de résolution pas-à-pas du mouvement / Spin dynamics modeling in AGS based on a stepwise ray-tracing method.

Dutheil, Yann

08 April 2015

L'AGS fournit un faisceau de proton polarisé à RHIC. Le faisceau est accéléré dans l'AGS de Gγ = 4.5 à Gγ = 45.5 et la transmission de la polarisation est critique pour le programme de spin de RHIC. Au cours des dernières années, divers systèmes ont été mis en œuvre pour améliorer la transmission de la polarisation dans l'AGS. Ces améliorations consistent essentiellement en l'introduction de deux serpents Siberien partiels et du system de saut de nombre d'onde. Cependant, la transmission de la polarisation n'atteint pas encore 100 % durant le cycle d'accélération de l'AGS. L'efficacité actelle de la transmission de la polarisation est estimée à environ 85 % dans les conditions de fonctionnement typiques. Comprendre les sources de dépolarisation dans l'AGS est essentiel pour améliorer les performances en protons polarisés de la machine. La dynamique complexe de faisceau et de spin, notamment en présence des aimaint spécialisés appelé serpent Sibériens, justifient le fort intérÃa t pour des méthodes de simulation originales. Le code Zgoubi, capable de résoudre l'équation du mouvement et de l'évolution du spin directement à partir d'une carte de champs, est utilisé pour modéliser l'AGS. Un modèle de l'AGS utilisant le code Zgoubi a pout cette reaison été développé et interfacé avec le système actuel par une simple commande: l'AgsFromSnapRampCmd. L'interfa ̧age avec le système de contrôle de la machine permet la modélisation rapide en utilisant les paramètres de réels la machine. Ces développements ont permis de reproduire fidèlement l'optique de l'AGS le long du cycle d'accéleration. Des développements supplémentaires sur le code Zgoubi, ainsi que sur des outils de post-traitement et de pré-traitement, ont fourni au code la possibilité de suivre les faisceaux sur de nombreux tours, ce qui s'avère être fondamental pour une représentation realiste du cycle d'accélération complet de la machine. Des simulations de faisceaux sur de nombreux tours dans l'AGS, en utilisant des conditions réalistes de faisceau et de machine, ont fourni une unique vision des les mécanismes sous-jacents de l'évolution de l'émittance et de la polarisation du faisceau au cours du cycle d'accélération. Des programmes de post-traitement ont été développés pour permettre la représentation des quantités pertinentes des données simulées par Zgoubi.Les simulations se sont avérées particulièrement utiles pour mieux comprendre les pertes de polarisation à travers résonances horizontales intrinsèques de spin. Le modèle Zgoubi ainsi que les outils développés ont également été utilisées pour certaines applications directes. Par exemple, les simulations d'expériences de faisceau ont permis l'estimation précise des gains de polarisation attendus en fonction des changements apportés. En particulier, des simulations d'expériences impliquant le système de saut des nombres d'onde ont fournis des estimations précises de la polarisation gagné et permis le choix des conditions optimales de la machine. / The AGS provides a polarized proton beam to RHIC. The beam is accelerated in the AGS from Gγ = 4.5 to Gγ = 45.5 and the polarization transmission is critical to the RHIC spin program. In the recent years, various systems were implemented to improve the AGS polarization transmission. These upgrades include the double partial snakes configuration and the tune jumps system. However, 100 % polarization transmission through the AGS acceleration cycle is not yet reached. The current efficiency of the polarization transmission is estimated to be around 85 % in typical running conditions. Understanding the sources of depolarization in the AGS is critical to improve the AGS polarized proton performances. The complexity of beam and spin dynamics, which is in part due to the specialized Siberian snake magnets, drove a strong interest for original methods of simulations. For that, the Zgoubi code, capable of direct particle and spin tracking through field maps, was here used to model the AGS. A model of the AGS using the Zgoubi code was developed and interfaced with the current system through a simple command: the AgsFromSnapRampCmd. Interfacing with the machine control system allows for fast modelization using actual machine parameters. Those developments allowed the model to realistically reproduce the optics of the AGS along the acceleration ramp. Additional developments on the Zgoubi code, as well as on post-processing and pre-processing tools, granted long term multiturn beam tracking capabilities: the tracking of realistic beams along the complete AGS acceleration cycle. Beam multiturn tracking simulations in the AGS, using realistic beam and machine parameters, provided a unique insight into the mechanisms behind the evolution of the beam emittance and polarization during the acceleration cycle. Post-processing softwares were developed to allow the representation of the relevant quantities from the Zgoubi simulations data. The Zgoubi simulations proved particularly useful to better understand the polarization losses through horizontal intrinsic spin resonances The Zgoubi model as well as the tools developed were also used for some direct applications. For instance, some beam experiment simulations allowed an accurate estimation of the expected polarization gains from machine changes. In particular, the simulations that involved involved the tune jumps system provided an accurate estimation of polarization gains and the optimum settings that would improve the performance of the AGS.

Dynamique de spin

AGS et RHIC

Faisceau de protons polarisés

Zgoubi

Serpent Sybérien

Spin dynamics

Step by step ray tracing

AGS and RHIC

Proton polarized beam

Zgoubi

Siberian snake

530

Modélisation de la dynamique de spin dans l'AGS basée sur une méthode de résolution pas-à-pas du mouvement / Spin dynamics modeling in AGS based on a stepwise ray-tracing method.

Dutheil, Yann

08 April 2015

L'AGS fournit un faisceau de proton polarisé à RHIC. Le faisceau est accéléré dans l'AGS de Gγ = 4.5 à Gγ = 45.5 et la transmission de la polarisation est critique pour le programme de spin de RHIC. Au cours des dernières années, divers systèmes ont été mis en œuvre pour améliorer la transmission de la polarisation dans l'AGS. Ces améliorations consistent essentiellement en l'introduction de deux serpents Siberien partiels et du system de saut de nombre d'onde. Cependant, la transmission de la polarisation n'atteint pas encore 100 % durant le cycle d'accélération de l'AGS. L'efficacité actelle de la transmission de la polarisation est estimée à environ 85 % dans les conditions de fonctionnement typiques. Comprendre les sources de dépolarisation dans l'AGS est essentiel pour améliorer les performances en protons polarisés de la machine. La dynamique complexe de faisceau et de spin, notamment en présence des aimaint spécialisés appelé serpent Sibériens, justifient le fort intérÃa t pour des méthodes de simulation originales. Le code Zgoubi, capable de résoudre l'équation du mouvement et de l'évolution du spin directement à partir d'une carte de champs, est utilisé pour modéliser l'AGS. Un modèle de l'AGS utilisant le code Zgoubi a pout cette reaison été développé et interfacé avec le système actuel par une simple commande: l'AgsFromSnapRampCmd. L'interfa ̧age avec le système de contrôle de la machine permet la modélisation rapide en utilisant les paramètres de réels la machine. Ces développements ont permis de reproduire fidèlement l'optique de l'AGS le long du cycle d'accéleration. Des développements supplémentaires sur le code Zgoubi, ainsi que sur des outils de post-traitement et de pré-traitement, ont fourni au code la possibilité de suivre les faisceaux sur de nombreux tours, ce qui s'avère être fondamental pour une représentation realiste du cycle d'accélération complet de la machine. Des simulations de faisceaux sur de nombreux tours dans l'AGS, en utilisant des conditions réalistes de faisceau et de machine, ont fourni une unique vision des les mécanismes sous-jacents de l'évolution de l'émittance et de la polarisation du faisceau au cours du cycle d'accélération. Des programmes de post-traitement ont été développés pour permettre la représentation des quantités pertinentes des données simulées par Zgoubi.Les simulations se sont avérées particulièrement utiles pour mieux comprendre les pertes de polarisation à travers résonances horizontales intrinsèques de spin. Le modèle Zgoubi ainsi que les outils développés ont également été utilisées pour certaines applications directes. Par exemple, les simulations d'expériences de faisceau ont permis l'estimation précise des gains de polarisation attendus en fonction des changements apportés. En particulier, des simulations d'expériences impliquant le système de saut des nombres d'onde ont fournis des estimations précises de la polarisation gagné et permis le choix des conditions optimales de la machine. / The AGS provides a polarized proton beam to RHIC. The beam is accelerated in the AGS from Gγ = 4.5 to Gγ = 45.5 and the polarization transmission is critical to the RHIC spin program. In the recent years, various systems were implemented to improve the AGS polarization transmission. These upgrades include the double partial snakes configuration and the tune jumps system. However, 100 % polarization transmission through the AGS acceleration cycle is not yet reached. The current efficiency of the polarization transmission is estimated to be around 85 % in typical running conditions. Understanding the sources of depolarization in the AGS is critical to improve the AGS polarized proton performances. The complexity of beam and spin dynamics, which is in part due to the specialized Siberian snake magnets, drove a strong interest for original methods of simulations. For that, the Zgoubi code, capable of direct particle and spin tracking through field maps, was here used to model the AGS. A model of the AGS using the Zgoubi code was developed and interfaced with the current system through a simple command: the AgsFromSnapRampCmd. Interfacing with the machine control system allows for fast modelization using actual machine parameters. Those developments allowed the model to realistically reproduce the optics of the AGS along the acceleration ramp. Additional developments on the Zgoubi code, as well as on post-processing and pre-processing tools, granted long term multiturn beam tracking capabilities: the tracking of realistic beams along the complete AGS acceleration cycle. Beam multiturn tracking simulations in the AGS, using realistic beam and machine parameters, provided a unique insight into the mechanisms behind the evolution of the beam emittance and polarization during the acceleration cycle. Post-processing softwares were developed to allow the representation of the relevant quantities from the Zgoubi simulations data. The Zgoubi simulations proved particularly useful to better understand the polarization losses through horizontal intrinsic spin resonances The Zgoubi model as well as the tools developed were also used for some direct applications. For instance, some beam experiment simulations allowed an accurate estimation of the expected polarization gains from machine changes. In particular, the simulations that involved involved the tune jumps system provided an accurate estimation of polarization gains and the optimum settings that would improve the performance of the AGS.

Dynamique de spin

AGS et RHIC

Faisceau de protons polarisés

Zgoubi

Serpent Sybérien

Spin dynamics

Step by step ray tracing

AGS and RHIC

Proton polarized beam

Zgoubi

Siberian snake

530

From the beginning gender and the theology of the body /

Bittle, Fred L.

January 2003

Thesis (M. Div.)--St. Vladimir's Orthodox Theological Seminary, Crestwood, N.Y., 2003. / Abstract. Includes bibliographical references (leaves 99-102).

Creation Human body Sex role