SIMULATION ON DISTRIBUTED CONTROL SYSTEM TIME DELAY

One of the fastest growing market segments among control and automation technologies is the introduction and development of network control systems. Even though, fieldbus systems have been used for several years, functional and performance validation is an important issue addressed by fieldbus network design. Simulation support is needed for early functional validation and performance as an evaluation tool for the network design and operation performance analysis in early engineering stages. The delay time which is a random variable produced in the essence of the networked control system transmission process can greatly reduce the performance of control systems such as rising time and overshoot increasing, and situation where the control system become unstable. Therefore, this project briefly explains about the study on the fieldbus real time performance in term of time delay. Delay analysis on a designed cascaded control tank system with the case study of with and without controller have been performed to observe the severity of time delay on fieldbus system. The scope of study covered includes study on methodology to perform analysis on the fieldbus system of a plant using SIMULINK. From the findings, it can be observed that induced delay in complex fieldbus system is very prominent. Complex plant system has a high network delay and response time. Thus, these drawbacks can be overcome using simulation environment to forecast system behaviour and find the best suited network solutions beforehand to minimize engineering and hardware costs

SIMULATION ON DISTRIBUTED CONTROL SYSTEM TIME DELAY

One of the fastest growing market segments among control and automation technologies is the introduction and development of network control systems. Even though, fieldbus systems have been used for several years, functional and performance validation is an important issue addressed by fieldbus network design. Simulation support is needed for early functional validation and performance as an evaluation tool for the network design and operation performance analysis in early engineering stages. The delay time which is a random variable produced in the essence of the networked control system transmission process can greatly reduce the performance of control systems such as rising time and overshoot increasing, and situation where the control system become unstable. Therefore, this project briefly explains about the study on the fieldbus real time performance in term of time delay. Delay analysis on a designed cascaded control tank system with the case study of with and without controller have been performed to observe the severity of time delay on fieldbus system. The scope of study covered includes study on methodology to perform analysis on the fieldbus system of a plant using SIMULINK. From the findings, it can be observed that induced delay in complex fieldbus system is very prominent. Complex plant system has a high network delay and response time. Thus, these drawbacks can be overcome using simulation environment to forecast system behaviour and find the best suited network solutions beforehand to minimize engineering and hardware costs

A new approach to the development and maintenance of industrial sequence logic

This thesis is concerned with sequence logic as found in industrial control systems, with the focus being on process and manufacturing control systems. At its core is the assertion that there is a need for a better approach to the development of industrial sequence logic to satisfy the life-cycle requirements, and that many of the ingredients required to deliver such an approach are now available. The needs are discussed by considering the business case for automation and deficiencies with traditional approaches. A set of requirements is then derived for an integrated development environment to address the business needs throughout the control system life-cycle. The strengths and weaknesses of relevant control system technology and standards are reviewed and their bias towards implementation described. Mathematical models, graphical methods and software tools are then assessed with respect to the requirements for an integrated development environment. A solution to the requirements, called Synect is then introduced. Synect combines a methodology using familiar graphical notations with Petri net modelling supported by a set of software tools. Its key features are justified with reference to the requirements. A set of case studies forms the basis of an evaluation against business needs by comparing the Synect methodology with current approaches. The industrial relevance and exploitation are then briefly described. The thesis ends with a review of the key conclusions along with contributions to knowledge and suggestions for further research

Modellierung von Kommunikationssystemen zum Zweck der Systemanalyse und des Systementwurfs

Einen wesentlichen Beitrag zu Innovationen und Weiterentwicklungen in der Automobilindustrie leisten elektronische Komponenten. Der funktionale Wachstum in den Bereichen Sicherheit, Komfort und Fahrerassistenz führt zu einer Erhöhung der Komplexität. Neben der Anzahl der Komponenten steigert sich auch der Bedarf an Kooperation und Datenaustausch. Insbesondere by-wire- und Assistenzsysteme (Hochautomatisiertes Fahren) zeichnen sich durch hohe Anforderungen in den Bereichen Zuverlässigkeit, Datenkonsistenz, Fehlertoleranz und Ausfallsicherheit aus. Die Zusammenarbeit einzelner Steuergeräte fordert von der Kommunikationsstruktur neben hohen Datenraten auch Determinismus und Echtzeitverhalten. Die Entwicklung dieser komplexen verteilten Systeme profitiert durch modellbasierte Entwurfsprozesse. Der Nachweis von grundlegenden Systemeigenschaften mit dem Schwerpunkt Kommunikation soll bereits in frühen Entwurfsphasen mit Hilfe von ausführbaren Spezifikationen modell- und simulationsbasiert erfolgen. In dieser Arbeit wird ein Modellierungsansatz entworfen, welcher die typischen ereignis- und zeitgesteuerten Protokolle in der Domäne Automotive adressiert. Der Fokus liegt auf den Buszugriffsverfahren. Modelle auf unterschiedlichen Abstraktionsebenen werden am Beispiel von Controller Area Network (CAN) und FlexRay definiert und realisiert. Neben der reinen Kommunikation werden die angrenzenden Themenfelder Gateway (heterogene Kopplung) und Betriebssystem berücksichtigt. Detaillierte Modelle eignen sich zur Analyse spezifischer Protokolleigenschaften sowie zur Weiterentwicklung von Protokollfunktionen auf Modellebene. Mit abstrakteren Modellen lassen sich Leistungs- und Eigenschaftsanalysen von großen heterogenen Systemen durchführen. Echtzeitkommunikation, vernetzte Systeme und Anwendungsfelder für modellbasierte Entwurfsprozesse finden sich auch außerhalb des Automobilbereiches. Die Anwendung wird am Beispiel der Entwicklung und Optimierung eines komplexen verteilten Systems zur Steuerung einer Nanopositionier- und Nanomessmaschine demonstriert. Innerhalb des Entwicklungsprozesses werden Entwurf, Realisierung und Leistungsbewertung bezüglich der Architektur des Gesamtsystems, der Verteilung von Funktionen und der Realisierung einzelner Komponenten sowie applikationsspezifische Kommunikationsprotokolle betrachtet.Major innovations and improvements in the automotive industry base on the electronic components. The growing number of functionality in the areas safety, comfort and driver assistance lead to an increase of the complexity. Not only the number of components increase. Especially to realize complex assistance systems the cooperation and data exchange gets more important. In particular, by-wire and assistance systems (highly-automated driving) have high requirements on reliability, data consistency and safety. The cooperation of single control units to realize these complex functions require not only high data rates but also determinism and real-time behavior of the communication architecture. The development of these complex distributed systems benefits from model-based design processes. The verification and validation of system properties with a focus on communication should be possible in early design phases using model and simulation-based approaches based on executable specifications. In this thesis, a modeling approach is developed addressing the typical event-driven and time-triggered protocols in the automotive domain. Models on different abstraction levels are defined and implemented. The Controller Area Network (CAN) and FlexRay are used as examples. Beside the communication protocols some related topics: gateway-functionality (heterogeneous communication) and operating system. The developed detailed models are adequate for the analysis of specific protocol properties as well as the improvement of protocol functions on model level. More abstract models can be used to analyze the performance, real-time behavior and characteristics of large heterogeneous systems. Real-time communication, distributed embedded systems and model-based design processes are not limited to the automotive sector. Therefore the utilization of the modeling approach is demonstrated within the development and optimization of a distributed embedded system: a signal- and dataprocessing unit of a nanopositioning- and nanomeasuringmachine. The example covers most parts of the development process. Selected topics are the design of the system architecture, the distributed allocation of functionality, the realization of single components and the development of application specific communication protocols

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