Constructed Fashion: The Catwalk System as an Architectural Project

Teniendo en cuenta que no hay nada que se escape de la moda 1, y extendiendonos más allá de esta manida discusión sobre intersecciones formales, esta investigación propone la pasarela como un lugar real de mediación entre moda y arquitectura. Asumiendo esta condición, la pasarela encarna nuevos modos de producción apropiándose de su espacio y estructura, y convierténdose en una máquina capaz de generar múltiples y más bien infinitos significados. La moda es sin duda un proyecto creativo, que ha venido utilizando la pasarela como un marco para la reordenación de su narrativa visual, renovándose asi mismo como fenómeno social. Este proyecto de investigación plantea, que contrariamente las tipologías actuales de las pasarelas no nos facilitan la comprensión de una colección – que suele ser el objetivo principal. Presentan en cambio un entorno en el que se acoplan diferentes formatos visuales, -con varias capas-, conviéndolo en una compleja construcción y provocando nunerosas fricciones con el espacio-tiempo-acción durante el proceso de creación de otros territorios. Partiendo de la idea de la pasarela como un sistema, en el que sus numerosas variables pueden producir diversas combinaciones, esta investigación plantea la hipótesis por la cual un nuevo sistema de pasarela se estaría formando enteramente con capas de información. Este escenario nos conduciría a la inmersión final de la moda en los tejidos de la virtualidad. Si bien el debate sobre la relevancia de los desfiles de moda se ha vuelto más evidente hoy en día, esta investigación especula con la posibilidad del pensamiento arquitectónico y como este puede introducir metodologías de análisis en el marco de estos desfiles de moda, proponiendo una lectura de la pasarela como un sistema de procedimientos específicos inherente a los proyectos/procesos de la arquitectura. Este enfoque enlaza ambas prácticas en un territorio común donde el espacio, el diseño, el comportamiento, el movimiento, y los cuerpos son ordenados/organizados en la creación de estas nuevas posibilidades visuales, y donde las interacciones activan la generación de la novedad y los mensajes. PALABRAS CLAVES moda, sistema, virtual, información, arquitectura Considering that there is nothing left untouched by fashion2, and going beyond the already exhausted discussion about formal intersections, this research introduces the catwalk as the real arena of mediation between fashion and architecture. By assuming this condition, the catwalk embodies new modes of production that appropriates its space and turns it into a machine for generating multiple if not infinite meanings. Fashion, as a creative project, has utilized the catwalk as a frame for rearranging its visual narrative and renewing itself as social phenomena. This research disputes, however, that the current typologies of catwalks do not facilitate the understanding of the collection – as its primary goal - but, instead, present an environment composed of multi-layered visual formats, becoming a complex construct that collides space-time-action in the creation of other territories. Departing from the analysis of the catwalk as a system and how its many variables can produce diverse combinations, this research presents the hypothesis that a new system is being formed entirely built out of information. Such scenario indicates fashion´s final immersion into the fabrics of virtuality. While the discussion about the relevance of fashion shows has become more evident today, this research serves as an introductory speculation on how architectural thinking can introduce methodologies of analysis within the framework of the fashion shows, by proposing a reading of the catwalk as a system through specific procedures that are inherent to architectural projects. Such approach intertwines both practices into a common territory where space, design, behaviour, movement, and bodies are organized for the creation of visual possibilities, and where interactions are triggered in the making of novelty and messages. KEYWORDS fashion, system, virtual, information, architectural

Mixed-criticality design of a satellite software system

The continuous increment of processors computational power and the requirements on additional functionality and services are motivating a change in the way embedded systems are built. Components with different criticality level are allocated in the same processor, which give rise to mixed-criticality systems. The use of partitioned systems is a way of preventing undesirable interferences between components with different criticality level. An hypervisor provides these partitions or virtual machines, ensuring spatial, temporal and fault isolation between them. The purpose of this paper is to illustrate the development of a mixed-critical system. The attitude control subsystem is used for showing the different steps, which are supported by a toolset developed in the context of the MultiPARTES research project.

Visualization of a student predictive model for 3D virtual environments driven to procedural training

This document presents theimplementation ofa Student Behavior Predictor Viewer(SBPV)for a student predictive model. The student predictive model is part of an intelligent tutoring system, and is built from logs of students’ behaviors in the “Virtual Laboratory of Agroforestry Biotechnology”implemented in a previous work.The SBPVis a tool for visualizing a 2D graphical representationof the extended automaton associated with any of the clusters ofthe student predictive model. Apart from visualizing the extended automaton, the SBPV supports the navigation across the automaton by means of desktop devices. More precisely, the SBPV allows user to move through the automaton, to zoom in/out the graphic or to locate a given state. In addition, the SBPV also allows user to modify the default layout of the automaton on the screen by changing the position of the states by means of the mouse. To developthe SBPV, a web applicationwas designedand implementedrelying on HTML5, JavaScript and C#.

Espacio web para el diseño de un museo virtual de la historia de la informática

El objetivo principal de crear un espacio web para el Museo Histórico de la Informática (MHI) perteneciente a la Escuela Técnica Superior de Ingenieros Informáticos (ETSIINF) de la Universidad Politécnica de Madrid (UPM) es la difusión de la historia de la informática entre el público en general. Si bien es cierto que existe ya una página web de consulta del MHI con algunas imágenes y contenido sobre los objetos que allí se exhiben, es también reseñable que se trata de un espacio obsoleto, lleno de carencias y extremadamente difícil de gestionar y actualizar, por lo que se hacía imprescindible actualizar el diseño del espacio web, los contenidos y el sistema de gestión de los mismos, cosa que es de gran interés para un lugar divulgativo. En la actualidad, existen maneras mucho más amigables para el usuario de navegar por una web; y de la misma manera para un administrador, gestionar el contenido de la misma y mantener a los usuarios bien informados de todo lo que se ofrece en cada momento. Esto es posible gracias a los sistemas de gestión de contenidos o content management system (CMS), de los que se hablará lo largo de todo el documento. Estos sistemas, dan una facilidad mucho mayor a los encargados de llevar al día una página web, sin tener que saber de programación, lenguajes o informática en general, ya que incorporan paneles de control muy intuitivos y fáciles de manejar, que son una ventaja tanto para ellos como para los usuarios. Es por esta razón que, hay páginas web como la de las empresas IKEA, Ubuntu o, en especial para el caso que compete al documento, el museo del Louvre usan gestores de contenidos para sus páginas web. Y es que las ventajas y facilidades que ofrece un CMS son realmente interesantes y se tratará de todas ellas en el documento, de la elección del CMS que mejor se ajusta a los requisitos del museo, las restricciones a la hora del despliegue en el ámbito de la ETSIINF y de cómo mejorará esto la calidad visual y divulgativa del MHI. Este trabajo se desarrolla a lo largo de 11 capítulos, en los que se muestra como construir un sitio web, las posibilidades y la elección final para este caso. En el primer capítulo se hace una pequeña introducción de lo que es el proyecto, se especifican los objetivos, la motivación del mismo y el alcance que tiene. En el segundo capítulo se muestra la información que se ha recopilado en el trabajo de investigación que se hace previo al desarrollo. En él se muestran los distintos tipos de páginas web, que tecnologías y lenguajes se pueden usar para su construcción, una comparativa sobre otras entidades similares al MHI, las limitaciones que presenta el entorno y la elección final que se consideró más adecuada para este caso. En el capítulo tres se empieza a desarrollar la solución a través del diseño. Aquí se puede encontrar el diseño de más bajo nivel que se le presenta al cliente para sentar las bases del trabajo, el diseño de alto nivel con un mayor grado de realidad que el anterior y una preparación de lo que serán los planes de prueba. El capítulo cuatro muestra todo lo que se ha usado en la implementación y la integración de la página web: herramientas, tecnologías, plantillas de diseño y módulos que proporcionan distintas funcionalidades. Llegados al capítulo cinco, se puede ver una detallada documentación de los resultados de las pruebas de usabilidad y accesibilidad realizadas, y las conclusiones que subyacen de estas. Una vez acabada la implementación del sitio web del MHI, en el capítulo seis se intenta hacer una labor de consultoría, mostrando precios y presupuestos de las distintas tareas que se han llevado a cabo para la realización de este proyecto. En el capítulo siete se extraen las conclusiones de todo lo acontecido en los capítulos anteriores y en el ocho unas líneas sobre posibles trabajos futuros que se podrían llevar a cabo en base a lo que ya se tiene en la institución, incluido este trabajo. Para facilitar la comprensión y satisfacer la curiosidad del lector, se ha incluido en el capítulo nueve la bibliografía con toda la documentación consultada y en el diez un glosario de términos para la aclaración de términos y acrónimos más técnicos. Para acabar, en el capítulo once se anexionan tanto el documento que se usó para las pruebas de usabilidad como un manual de administrador para el sitio web, que hace más amigable el entorno para las personas que lo tengan que mantener en un futuro.---ABSTRACT---The main goal of creating a website for the Informatics Historical Museum (“Museo Histórico de la Informática” or MHI) located in the Higher Technical School of Informatics Engineers (“Escuela Técnica Superior de Ingenieros Informáticos” or ETSIINF) of the Polytechnic University of Madrid (“Universidad Politécnica de Madrid” UPM), is to promote the aforementioned museum as to increase its reach to the public. While it is true that there already is a consulting website with some pictures and information about the items which are displayed in the building, it is outdated and the data is scarce. Moreover, it is extremely complicated to manage and to regularly update the web page, which is very important for informative/broadcasting media. Currently, there are easier ways for the users of a website to consult whatever information they want, as well as it is now easy for a website manager to display new content and to keep the users informed about what is been offered at every moment. This is possible because of content management systems (CMS), which will be discussed throughout the entire paper. These systems make it easier to use for the administrator of a website to keep it up to date without the necessity for them of having any knowledge or skills in programming, languages or computing, because the systems have an intuitive control panel that is easy to use, which is an advantage for both managers and users. Because of all these reasons, there are lots of companies that use this kind of systems, such as IKEA, Ubuntu or, especially, the Louvre Museum, to which we direct our attention all throughout this report. It is easy to notice that these systems have an important and very interesting number of perks and benefits. In the next chapters of the document we will explain the benefits of the program as well as the choice on the kind of CMS that best suits the requirements of the museum and, finally, the restrictions of the school for the deployment and of how all of this will improve the visual and informational qualities of the MHI. This work is developed over 11 chapters, shown how to build up a website, the possibilities and the final choice for this case. In the first chapter a brief introduction of the project, goals, motivation and scope thereof having specified are done. Before the development of the website, the second chapter shows de information of the researching work. It discusses the different types of websites, technologies and languages that can be used for build-up, a comparison of similar entities to MHI, the limitations of the environment and the final choice was considered more appropriate for this case. Chapter three begins to develop the design of the solution. Here there are the lowest level design that presents the customer to fix any problem, the high level design with a higher degree of reality than the last and the test plans. Chapter four shows everything that has been used in the implementation and integration of the website: tools, technologies, design templates and modules that provide different functionalities. Reaching the fifth chapter, you can see a detailed documentation of the results of the usability and accessibility tests made to some users and the conclusions of it. Once the implementation of MHI website is done, in chapter six there is a consultancy work, showing prices and budgets of the different tasks which were carried out for this project. In chapter seven there are the conclusions of what happened in the previous chapters and eight chapter shows possible future works that could be carried out based on what the institution already have, including this work. To make easier to the reader understand this paper and satisfy his curiosity, the chapter nine includes the bibliography consulted with all the documentation and chapter ten has a glossary of terms and an explanation of technical terms and acronyms. Finally, in chapter eleven there are attached both the document that was used for usability testing as a manual administrator for the website, making the environment friendlier for people who have to maintain it in the future.

Mejoras y extensiones en el Front-End de un modelo de predicción de acciones de un estudiante en un laboratorio virtual 3D

Este documento presenta las mejoras y las extensiones introducidas en la herramienta de visualización del modelo predictivo del comportamiento del estudiante o Student Behavior Predictor Viewer (SBPV), implementada en un trabajo anterior. El modelo predictivo del comportamiento del estudiante es parte de un sistema inteligente de tutoría, y se construye a partir de los registros de actividad de los estudiantes en un laboratorio virtual 3D, como el Laboratorio Virtual de Biotecnología Agroforestal, implementado en un trabajo anterior, y cuyos registros de actividad de los estudiantes se han utilizado para validar este trabajo fin de grado. El SBPV es una herramienta para visualizar una representación gráfica 2D del grafo extendido asociado con cualquiera de los clusters del modelo predictivo del estudiante. Además de la visualización del grafo extendido, el SBPV controla la navegación a través del grafo por medio del navegador web. Más concretamente, el SBPV permite al usuario moverse a través del grafo, ampliar o reducir el zoom del gráfico o buscar un determinado estado. Además, el SBPV también permite al usuario modificar el diseño predeterminado del grafo en la pantalla al cambiar la posición de los estados con el ratón. Como parte de este trabajo fin de grado, se han corregido errores existentes en la versión anterior y se han introducido una serie de mejoras en el rendimiento y la usabilidad. En este sentido, se han implementado nuevas funcionalidades, tales como la visualización del modelo de comportamiento de cada estudiante individualmente o la posibilidad de elegir el método de clustering para crear el modelo predictivo del estudiante; así como ha sido necesario rediseñar la interfaz de usuario cambiando el tipo de estructuras gráficas con que se muestran los elementos del modelo y mejorando la visualización del grafo al interaccionar el usuario con él. Todas estas mejoras se explican detenidamente en el presente documento.---ABSTRACT---This document presents the improvements and extensions made to the visualization tool Student Behavior Predictor Viewer (SBPV), implemented in a previous job. The student behavior predictive model is part of an intelligent tutoring system, and is built from the records of students activity in a 3D virtual laboratory, like the “Virtual Laboratory of Agroforestry Biotechnology” implemented in a previous work, and whose records of students activity have been used to validate this final degree work. The SBPV is a tool for visualizing a 2D graphical representation of the extended graph associated with any of the clusters of the student predictive model. Apart from visualizing the extended graph, the SBPV supports the navigation across the graph by means of desktop devices. More precisely, the SBPV allows user to move through the graph, to zoom in/out the graphic or to locate a given state. In addition, the SBPV also allows user to modify the default layout of the graph on the screen by changing the position of the states by means of the mouse. As part of this work, some bugs of the previous version have been fixed and some enhancements have been implemented to improve the performance and the usability. In this sense, we have implemented new features, such as the display of the model behavior of only one student or the possibility of selecting the clustering method to create the student predictive model; as well as it was necessary to redesign the user interface changing the type of graphic structures that show model elements and improving the rendering of the graph when the user interacts with it. All these improvements are explained in detail in the next sections.

Intrinsic responses to Borna disease virus infection of the central nervous system

Immune cells invading the central nervous system (CNS) in response to Borna disease virus (BDV) antigens are central to the pathogenesis of Borna disease (BD). We speculate that the response of the resident cells of the brain to infection may be involved in the sensitization and recruitment of these inflammatory cells. To separate the responses of resident cells from those of cells infiltrating from the periphery, we used dexamethasone to inhibit inflammatory reactions in BD. Treatment with dexamethasone prevented the development of clinical signs of BD, and the brains of treated animals showed no neuropathological lesions and a virtual absence of markers of inflammation, cell infiltration, or activation normally seen in the CNS of BDV-infected rats. In contrast, treatment with dexamethasone exacerbated the expression of BDV RNA, which was paralleled by a similarly elevated expression of mRNAs for egr-1, c-fos, and c-jun. Furthermore, dexamethasone failed to inhibit the increase in expression of mRNAs for tumor necrosis factor α, macrophage inflammatory protein 1β, interleukin 6, and mob-1, which occurs in the CNS of animals infected with BDV. Our findings suggest that these genes, encoding transcription factors, chemokines, and proinflammatory cytokines, might be directly activated in CNS resident cells by BDV. This result supports the hypothesis that the initial phase of the inflammatory response to BDV infection in the brain may be dependent upon virus-induced activation of CNS resident cells.

Synchronous collaboration of virtual and remote laboratories

Virtual and remote laboratories(VRLs) are e-learning resources which enhance the accessibility of experimental setups providing a distance teaching framework which meets the student's hands-on learning needs. In addition, online collaborative communication represents a practical and a constructivist method to transmit the knowledge and experience from the teacher to students, overcoming physical distance and isolation. Thus, the integration of learning environments in the form of VRLs inside collaborative learning spaces is strongly desired. Considering these facts, the authors of this document present an original approach which enables user to share practical experiences while they work collaboratively through the Internet. This practical experimentation is based on VRLs, which have been integrated inside a synchronous collaborative e-learning framework. This article describes the main features of this system and its successful application for science and engineering subjects.

Providing Collaborative Support to Virtual and Remote Laboratories

Virtual and remote laboratories (VRLs) are e-learning resources that enhance the accessibility of experimental setups providing a distance teaching framework which meets the student's hands-on learning needs. In addition, online collaborative communication represents a practical and a constructivist method to transmit the knowledge and experience from the teacher to students, overcoming physical distance and isolation. This paper describes the extension of two open source tools: (1) the learning management system Moodle, and (2) the tool to create VRLs Easy Java Simulations (EJS). Our extension provides: (1) synchronous collaborative support to any VRL developed with EJS (i.e., any existing VRL written in EJS can be automatically converted into a collaborative lab with no cost), and (2) support to deploy synchronous collaborative VRLs into Moodle. Using our approach students and/or teachers can invite other users enrolled in a Moodle course to a real-time collaborative experimental session, sharing and/or supervising experiences at the same time they practice and explore experiments using VRLs.

Construction of Intelligent Virtual Worlds Using a Grammatical Framework

The potential of integrating multiagent systems and virtual environments has not been exploited to its whole extent. This paper proposes a model based on grammars, called Minerva, to construct complex virtual environments that integrate the features of agents. A virtual world is described as a set of dynamic and static elements. The static part is represented by a sequence of primitives and transformations and the dynamic elements by a series of agents. Agent activation and communication is achieved using events, created by the so-called event generators. The grammar defines a descriptive language with a simple syntax and a semantics, defined by functions. The semantics functions allow the scene to be displayed in a graphics device, and the description of the activities of the agents, including artificial intelligence algorithms and reactions to physical phenomena. To illustrate the use of Minerva, a practical example is presented: a simple robot simulator that considers the basic features of a typical robot. The result is a functional simple simulator. Minerva is a reusable, integral, and generic system, which can be easily scaled, adapted, and improved. The description of the virtual scene is independent from its representation and the elements that it interacts with.

Augmented and Virtual Reality techniques for footwear

The use of 3D imaging techniques has been early adopted in the footwear industry. In particular, 3D imaging could be used to aid commerce and improve the quality and sales of shoes. Footwear customization is an added value aimed not only to improve product quality, but also consumer comfort. Moreover, customisation implies a new business model that avoids the competition of mass production coming from new manufacturers settled mainly in Asian countries. However, footwear customisation implies a significant effort at different levels. In manufacturing, rapid and virtual prototyping is required; indeed the prototype is intended to become the final product. The whole design procedure must be validated using exclusively virtual techniques to ensure the feasibility of this process, since physical prototypes should be avoided. With regard to commerce, it would be desirable for the consumer to choose any model of shoes from a large 3D database and be able to try them on looking at a magic mirror. This would probably reduce costs and increase sales, since shops would not require storing every shoe model and the process of trying several models on would be easier and faster for the consumer. In this paper, new advances in 3D techniques coming from experience in cinema, TV and games are successfully applied to footwear. Firstly, the characteristics of a high-quality stereoscopic vision system for footwear are presented. Secondly, a system for the interaction with virtual footwear models based on 3D gloves is detailed. Finally, an augmented reality system (magic mirror) is presented, which is implemented with low-cost computational elements that allow a hypothetical customer to check in real time the goodness of a given virtual footwear model from an aesthetical point of view.

A Virtual Joystick as a Novel Interaction Modality for Surgeon-Computer Interaction During Computer-Assisted Surgical Procedures

Interacting with a computer system in the operating room (OR) can be a frustrating experience for a surgeon, who currently has to verbally delegate to an assistant every computer interaction task. This indirect mode of interaction is time consuming, error prone and can lead to poor usability of OR computer systems. This thesis describes the design and evaluation of a joystick-like device that allows direct surgeon control of the computer in the OR. The device was tested extensively in comparison to a mouse and delegated dictation with seven surgeons, eleven residents, and five graduate students. The device contains no electronic parts, is easy to use, is unobtrusive, has no physical connection to the computer and makes use of an existing tool in the OR. We performed a user study to determine its effectiveness in allowing a user to perform all the tasks they would be expected to perform on an OR computer system during a computer-assisted surgery. Dictation was found to be superior to the joystick in qualitative measures, but the joystick was preferred over dictation in user satisfaction responses. The mouse outperformed both joystick and dictation, but it is not a readily accepted modality in the OR.

Od demokracji "wirtualnej" ku europejskiej: Geneze i konsekwencje przelomu politycznego w Moldawii. Prace OSW 32/2009. = From "virtual" to European democracy - the origins and consequences of the political breakthrough in Moldova. OSW Study 32/2009

2009 may become a turning point in the history of post-Soviet Moldova. The country’s political class and society are faced with a fundamental choice. On the one hand, if the Party of Communists of the Republic of Moldova, which has governed the country since 2001, remains in power, this would mean a consolidation of the authoritarian rule of the party leader Vladimir Voronin, perpetuation of the superficial nature of democratic institutions and a continuation of the manoeuvring between the European Union and Russia (with the increasing risk of falling into the latter’s exclusive zone of influence). On the other hand, the take over of political power by the opposition parties creates an opportunity for Moldova to resume building a democratic, pluralistic political system based on the rule of law and to develop closer links with the European Union within the framework of the European Neighbourhood Policy, including the Eastern Partnership.

A conceptual model of personalized virtual learning environments

The Virtual Learning Environment (VLE) is one of the fastest growing areas in educational technology research and development. In order to achieve learning effectiveness, ideal VLEs should be able to identify learning needs and customize solutions, with or without an instructor to supplement instruction. They are called Personalized VLEs (PVLEs). In order to achieve PVLEs success, comprehensive conceptual models corresponding to PVLEs are essential. Such conceptual modeling development is important because it facilitates early detection and correction of system development errors. Therefore, in order to capture the PVLEs knowledge explicitly, this paper focuses on the development of conceptual models for PVLEs, including models of knowledge primitives in terms of learner, curriculum, and situational models, models of VLEs in general pedagogical bases, and particularly, the definition of the ontology of PVLEs on the constructivist pedagogical principle. Based on those comprehensive conceptual models, a prototyped multiagent-based PVLE has been implemented. A field experiment was conducted to investigate the learning achievements by comparing personalized and non-personalized systems. The result indicates that the PVLE we developed under our comprehensive ontology successfully provides significant learning achievements. These comprehensive models also provide a solid knowledge representation framework for PVLEs development practice, guiding the analysis, design, and development of PVLEs. (c) 2005 Elsevier Ltd. All rights reserved.

Intelligent agent supported personalization for virtual learning environments

Virtual learning environments (VLEs) are computer-based online learning environments, which provide opportunities for online learners to learn at the time and location of their choosing, whilst allowing interactions and encounters with other online learners, as well as affording access to a wide range of resources. They have the capability of reaching learners in remote areas around the country or across country boundaries at very low cost. Personalized VLEs are those VLEs that provide a set of personalization functionalities, such as personalizing learning plans, learning materials, tests, and are capable of initializing the interaction with learners by providing advice, necessary instant messages, etc., to online learners. One of the major challenges involved in developing personalized VLEs is to achieve effective personalization functionalities, such as personalized content management, learner model, learner plan and adaptive instant interaction. Autonomous intelligent agents provide an important technology for accomplishing personalization in VLEs. A number of agents work collaboratively to enable personalization by recognizing an individual's eLeaming pace and reacting correspondingly. In this research, a personalization model has been developed that demonstrates dynamic eLearning processes; secondly, this study proposes an architecture for PVLE by using intelligent decision-making agents' autonomous, pre-active and proactive behaviors. A prototype system has been developed to demonstrate the implementation of this architecture. Furthemore, a field experiment has been conducted to investigate the performance of the prototype by comparing PVLE eLearning effectiveness with a non-personalized VLE. Data regarding participants' final exam scores were collected and analyzed. The results indicate that intelligent agent technology can be employed to achieve personalization in VLEs, and as a consequence to improve eLeaming effectiveness dramatically.

Construction of an Intraplate Fault System Model of South Australia, and Simulation Tool for the iSERVO Institute Seed Project

To foster ongoing international cooperation beyond ACES (APEC Cooperation for Earthquake Simulation) on the simulation of solid earth phenomena, agreement was reached to work towards establishment of a frontier international research institute for simulating the solid earth: iSERVO = International Solid Earth Research Virtual Observatory institute (http://www.iservo.edu.au). This paper outlines a key Australian contribution towards the iSERVO institute seed project, this is the construction of: (1) a typical intraplate fault system model using practical fault system data of South Australia (i.e., SA interacting fault model), which includes data management and editing, geometrical modeling and mesh generation; and (2) a finite-element based software tool, which is built on our long-term and ongoing effort to develop the R-minimum strategy based finite-element computational algorithm and software tool for modelling three-dimensional nonlinear frictional contact behavior between multiple deformable bodies with the arbitrarily-shaped contact element strategy. A numerical simulation of the SA fault system is carried out using this software tool to demonstrate its capability and our efforts towards seeding the iSERVO Institute.