19 research outputs found
Methoden und Beschreibungssprachen zur Modellierung und Verifikation vonSchaltungen und Systemen: MBMV 2015 - Tagungsband, Chemnitz, 03. - 04. März 2015
Der Workshop Methoden und Beschreibungssprachen zur Modellierung und Verifikation von Schaltungen und Systemen (MBMV 2015) findet nun schon zum 18. mal statt. Ausrichter sind in diesem Jahr die Professur Schaltkreis- und Systementwurf der Technischen Universität Chemnitz und das Steinbeis-Forschungszentrum Systementwurf und Test.
Der Workshop hat es sich zum Ziel gesetzt, neueste Trends, Ergebnisse und aktuelle Probleme auf dem Gebiet der Methoden zur Modellierung und Verifikation sowie der Beschreibungssprachen digitaler, analoger und Mixed-Signal-Schaltungen zu diskutieren. Er soll somit ein Forum zum Ideenaustausch sein.
Weiterhin bietet der Workshop eine Plattform für den Austausch zwischen Forschung und Industrie sowie zur Pflege bestehender und zur Knüpfung neuer Kontakte. Jungen Wissenschaftlern erlaubt er, ihre Ideen und Ansätze einem breiten Publikum aus Wissenschaft und Wirtschaft zu präsentieren und im Rahmen der Veranstaltung auch fundiert zu diskutieren. Sein langjähriges Bestehen hat ihn zu einer festen Größe in vielen Veranstaltungskalendern gemacht. Traditionell sind auch die Treffen der ITGFachgruppen an den Workshop angegliedert.
In diesem Jahr nutzen zwei im Rahmen der InnoProfile-Transfer-Initiative durch das Bundesministerium für Bildung und Forschung geförderte Projekte den Workshop, um in zwei eigenen Tracks ihre Forschungsergebnisse einem breiten Publikum zu präsentieren. Vertreter der Projekte Generische Plattform für Systemzuverlässigkeit und Verifikation (GPZV) und GINKO - Generische Infrastruktur zur nahtlosen energetischen Kopplung von Elektrofahrzeugen stellen Teile ihrer gegenwärtigen Arbeiten vor. Dies bereichert denWorkshop durch zusätzliche Themenschwerpunkte und bietet eine wertvolle Ergänzung zu den Beiträgen der Autoren. [... aus dem Vorwort
Modelling and Co-simulation of Multi-Energy Systems: Distributed Software Methods and Platforms
L'abstract è presente nell'allegato / the abstract is in the attachmen
Reconfigurable Computing Systems for Robotics using a Component-Oriented Approach
Robotic platforms are becoming more complex due to the wide range of modern applications, including multiple heterogeneous sensors and actuators. In order to comply with real-time and power-consumption constraints, these systems need to process a large amount of heterogeneous data from multiple sensors and take action (via actuators), which represents a problem as the resources of these systems have limitations in memory storage, bandwidth, and computational power.
Field Programmable Gate Arrays (FPGAs) are programmable logic devices that offer high-speed parallel processing. FPGAs are particularly well-suited for applications that require real-time processing, high bandwidth, and low latency. One of the fundamental advantages of FPGAs is their flexibility in designing hardware tailored to specific needs, making them adaptable to a wide range of applications. They can be programmed to pre-process data close to sensors, which reduces the amount of data that needs to be transferred to other computing resources, improving overall system efficiency. Additionally, the reprogrammability of FPGAs enables them to be repurposed for different applications, providing a cost-effective solution that needs to adapt quickly to changing demands. FPGAs' performance per watt is close to that of Application-Specific Integrated Circuits (ASICs), with the added advantage of being reprogrammable.
Despite all the advantages of FPGAs (e.g., energy efficiency, computing capabilities), the robotics community has not fully included them so far as part of their systems for several reasons. First, designing FPGA-based solutions requires hardware knowledge and longer development times as their programmability is more challenging than Central Processing Units (CPUs) or Graphics Processing Units (GPUs). Second, porting a robotics application (or parts of it) from software to an accelerator requires adequate interfaces between software and FPGAs. Third, the robotics workflow is already complex on its own, combining several fields such as mechanics, electronics, and software.
There have been partial contributions in the state-of-the-art for FPGAs as part of robotics systems. However, a study of FPGAs as a whole for robotics systems is missing in the literature, which is the primary goal of this dissertation. Three main objectives have been established to accomplish this. (1) Define all components required for an FPGAs-based system for robotics applications as a whole. (2) Establish how all the defined components are related. (3) With the help of Model-Driven Engineering (MDE) techniques, generate these components, deploy them, and integrate them into existing solutions.
The component-oriented approach proposed in this dissertation provides a proper solution for designing and implementing FPGA-based designs for robotics applications.
The modular architecture, the tool 'FPGA Interfaces for Robotics Middlewares' (FIRM), and the toolchain 'FPGA Architectures for Robotics' (FAR) provide a set of tools and a comprehensive design process that enables the development of complex FPGA-based designs more straightforwardly and efficiently. The component-oriented approach contributed to the state-of-the-art in FPGA-based designs significantly for robotics applications and helps to promote their wider adoption and use by specialists with little FPGA knowledge
Embedded System Design
A unique feature of this open access textbook is to provide a comprehensive introduction to the fundamental knowledge in embedded systems, with applications in cyber-physical systems and the Internet of things. It starts with an introduction to the field and a survey of specification models and languages for embedded and cyber-physical systems. It provides a brief overview of hardware devices used for such systems and presents the essentials of system software for embedded systems, including real-time operating systems. The author also discusses evaluation and validation techniques for embedded systems and provides an overview of techniques for mapping applications to execution platforms, including multi-core platforms. Embedded systems have to operate under tight constraints and, hence, the book also contains a selected set of optimization techniques, including software optimization techniques. The book closes with a brief survey on testing. This fourth edition has been updated and revised to reflect new trends and technologies, such as the importance of cyber-physical systems (CPS) and the Internet of things (IoT), the evolution of single-core processors to multi-core processors, and the increased importance of energy efficiency and thermal issues
Embedded System Design
A unique feature of this open access textbook is to provide a comprehensive introduction to the fundamental knowledge in embedded systems, with applications in cyber-physical systems and the Internet of things. It starts with an introduction to the field and a survey of specification models and languages for embedded and cyber-physical systems. It provides a brief overview of hardware devices used for such systems and presents the essentials of system software for embedded systems, including real-time operating systems. The author also discusses evaluation and validation techniques for embedded systems and provides an overview of techniques for mapping applications to execution platforms, including multi-core platforms. Embedded systems have to operate under tight constraints and, hence, the book also contains a selected set of optimization techniques, including software optimization techniques. The book closes with a brief survey on testing. This fourth edition has been updated and revised to reflect new trends and technologies, such as the importance of cyber-physical systems (CPS) and the Internet of things (IoT), the evolution of single-core processors to multi-core processors, and the increased importance of energy efficiency and thermal issues
Nova combinação de hardware e de software para veículos de desporto automóvel baseada no processamento directo de funções gráficas
Doutoramento em Engenharia EletrónicaThe main motivation for the work presented here began with previously
conducted experiments with a programming concept at the time named
"Macro". These experiments led to the conviction that it would be possible to
build a system of engine control from scratch, which could eliminate many of
the current problems of engine management systems in a direct and intrinsic
way. It was also hoped that it would minimize the full range of software and
hardware needed to make a final and fully functional system.
Initially, this paper proposes to make a comprehensive survey of the state of
the art in the specific area of software and corresponding hardware of
automotive tools and automotive ECUs. Problems arising from such software
will be identified, and it will be clear that practically all of these problems stem
directly or indirectly from the fact that we continue to make comprehensive use
of extremely long and complex "tool chains". Similarly, in the hardware, it will
be argued that the problems stem from the extreme complexity and
inter-dependency inside processor architectures. The conclusions are
presented through an extensive list of "pitfalls" which will be thoroughly
enumerated, identified and characterized.
Solutions will also be proposed for the various current issues and for the
implementation of these same solutions. All this final work will be part of a
"proof-of-concept" system called "ECU2010". The central element of this
system is the before mentioned "Macro" concept, which is an graphical block
representing one of many operations required in a automotive system having
arithmetic, logic, filtering, integration, multiplexing functions among others. The
end result of the proposed work is a single tool, fully integrated, enabling the
development and management of the entire system in one simple visual
interface. Part of the presented result relies on a hardware platform fully
adapted to the software, as well as enabling high flexibility and scalability in
addition to using exactly the same technology for ECU, data logger and
peripherals alike.
Current systems rely on a mostly evolutionary path, only allowing online
calibration of parameters, but never the online alteration of their own
automotive functionality algorithms. By contrast, the system developed and
described in this thesis had the advantage of following a "clean-slate"
approach, whereby everything could be rethought globally. In the end, out of all
the system characteristics, "LIVE-Prototyping" is the most relevant feature,
allowing the adjustment of automotive algorithms (eg. Injection, ignition,
lambda control, etc.) 100% online, keeping the engine constantly working,
without ever having to stop or reboot to make such changes. This consequently
eliminates any "turnaround delay" typically present in current automotive
systems, thereby enhancing the efficiency and handling of such systems.A principal motivação para o trabalho que conduziu a esta tese residiu na
constatação de que os actuais métodos de modelação de centralinas
automóveis conduzem a significativos problemas de desenvolvimento e
manutenção. Como resultado dessa constatação, o objectivo deste trabalho
centrou-se no desenvolvimento de um conceito de arquitectura que rompe
radicalmente com os modelos state-of-the-art e que assenta num conjunto de
conceitos que vieram a ser designados de "Macro" e "Celular ECU". Com este
modelo pretendeu-se simultaneamente minimizar a panóplia de software e de
hardware necessários à obtenção de uma sistema funcional final.
Inicialmente, esta tese propõem-se fazer um levantamento exaustivo do
estado da arte na área específica do software e correspondente hardware das
ferramentas e centralinas automóveis. Os problemas decorrentes de tal
software serão identificados e, dessa identificação deverá ficar claro, que
praticamente todos esses problemas têm origem directa ou indirecta no facto
de se continuar a fazer um uso exaustivo de "tool chains" extremamente
compridas e complexas. De forma semelhante, no hardware, os problemas
têm origem na extrema complexidade e inter-dependência das arquitecturas
dos processadores. As consequências distribuem-se por uma extensa lista de
"pitfalls" que também serão exaustivamente enumeradas, identificadas e
caracterizadas.
São ainda propostas soluções para os diversos problemas actuais e
correspondentes implementações dessas mesmas soluções. Todo este
trabalho final faz parte de um sistema "proof-of-concept" designado
"ECU2010". O elemento central deste sistema é o já referido conceito de
“Macro”, que consiste num bloco gráfico que representa uma de muitas
operações necessárias num sistema automóvel, como sejam funções
aritméticas, lógicas, de filtragem, de integração, de multiplexagem, entre
outras. O resultado final do trabalho proposto assenta numa única ferramenta,
totalmente integrada que permite o desenvolvimento e gestão de todo o
sistema de forma simples numa única interface visual. Parte do resultado
apresentado assenta numa plataforma hardware totalmente adaptada ao
software, bem como na elevada flexibilidade e escalabilidade, para além de
permitir a utilização de exactamente a mesma tecnologia quer para a
centralina, como para o datalogger e para os periféricos.
Os sistemas actuais assentam num percurso maioritariamente evolutivo,
apenas permitindo a calibração online de parâmetros, mas nunca a alteração
online dos próprios algoritmos das funcionalidades automóveis. Pelo contrário,
o sistema desenvolvido e descrito nesta tese apresenta a vantagem de seguir
um "clean-slate approach", pelo que tudo pode ser globalmente repensado. No
final e para além de todas as restantes características, o
“LIVE-PROTOTYPING” é a funcionalidade mais relevante, ao permitir alterar
algoritmos automóveis (ex: injecção, ignição, controlo lambda, etc.) de forma
100% online, mantendo o motor constantemente a trabalhar e sem nunca ter
de o parar ou re-arrancar para efectuar tais alterações. Isto elimina
consequentemente qualquer "turnaround delay" tipicamente presente em
qualquer sistema automóvel actual, aumentando de forma significativa a
eficiência global do sistema e da sua utilização
Proceedings of the International Workshop "Innovation Information Technologies: Theory and Practice": Dresden, Germany, September 06-10.2010
This International Workshop is a high quality seminar providing a forum for the exchange of scientific achievements between research communities of different universities and research institutes in the area of innovation information technologies. It is a continuation of the Russian-German Workshops that have been organized by the universities in Dresden, Karlsruhe and Ufa before.
The workshop was arranged in 9 sessions covering the major topics: Modern Trends in Information Technology, Knowledge Based Systems and Semantic Modelling, Software Technology and High Performance Computing, Geo-Information Systems and Virtual Reality, System and Process Engineering, Process Control and Management and Corporate Information Systems
Safety and Reliability - Safe Societies in a Changing World
The contributions cover a wide range of methodologies and application areas for safety and reliability that contribute to safe societies in a changing world. These methodologies and applications include: - foundations of risk and reliability assessment and management
- mathematical methods in reliability and safety
- risk assessment
- risk management
- system reliability
- uncertainty analysis
- digitalization and big data
- prognostics and system health management
- occupational safety
- accident and incident modeling
- maintenance modeling and applications
- simulation for safety and reliability analysis
- dynamic risk and barrier management
- organizational factors and safety culture
- human factors and human reliability
- resilience engineering
- structural reliability
- natural hazards
- security
- economic analysis in risk managemen
XXIII Congreso Argentino de Ciencias de la Computación - CACIC 2017 : Libro de actas
Trabajos presentados en el XXIII Congreso Argentino de Ciencias de la Computación (CACIC), celebrado en la ciudad de La Plata los días 9 al 13 de octubre de 2017, organizado por la Red de Universidades con Carreras en Informática (RedUNCI) y la Facultad de Informática de la Universidad Nacional de La Plata (UNLP).Red de Universidades con Carreras en Informática (RedUNCI