Computer Safety, Reliability and Security : 17th International Conference, SAFECOMP'98, Heidelberg Germany, October 5-7, 1998, Proceedings / edited by Wolfgang Ehrenberger.

Format:

Book

Contributor:

Ehrenberger, W. D., editor.

SpringerLink (Online service)

Series:

Computer Science (Springer-11645)

Lecture notes in computer science 0302-9743 ; 1516.

Lecture Notes in Computer Science, 0302-9743 ; 1516

Language:

English

Subjects (All):

Data encryption (Computer science).

Computers and civilization.

Software engineering.

Coding theory.

Information theory.

Computer logic.

Computers, Special purpose.

Cryptology.

Computers and Society.

Software Engineering/Programming and Operating Systems.

Coding and Information Theory.

Logics and Meanings of Programs.

Special Purpose and Application-Based Systems.

Local Subjects:

Cryptology.

Computers and Society.

Software Engineering/Programming and Operating Systems.

Coding and Information Theory.

Logics and Meanings of Programs.

Special Purpose and Application-Based Systems.

Physical Description:

1 online resource (XVI, 404 pages).

Edition:

First edition 1998.

Contained In:

Springer eBooks

Place of Publication:

Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 1998.

System Details:

text file PDF

Summary:

Computers and their interactions are becoming the characteristic features of our time: Many people believe that the industrial age is going over into the information age. In the same way as life of the beginning of this century was dominated by machines, factories, streets and railways, the starting century will be characterised by computers and their networks. This change naturally affects also the institutions and the installations our lives depend upon: power plants, including nuclear ones, chemical plants, mechanically working factories, cars, railways and medical equipment; they all depend on computers and their connections. In some cases it is not human life that may be endangered by computer failure, but large investments; e. g. if a whole plant interrupts its production for a long time. In addition to loss of life and property one must not neglect public opinion, which is very critical in many countries against major technical defects. The related computer technology, its hardware, software and production process differ between standard applications and safety related ones: In the safety case it is normally not only the manufacturers and the customers that are involved, but a third party, usually an assessor, who is taking care of the public interest on behalf of a state authority. Usually safety engineers are in a better position than their colleagues from the conventional side, as they may spend more time and money on a particular task and use better equipment.

Contents:

Formal Methods I - Analysis and Specification

CoRSA - A Constraint Based Approach to Requirements and Safety Analysis

An Agenda for Specifying Software Components with Complex Data Models

Safety in Production Cell Components: An Approach Combining Formal Real Time Specifications and Patterns

Safety Properties Ensured by the OASIS Model for Safety Critical Real-Time Systems

Linking Hazard Analysis to Formal Specification and Design in B

Management and Human Factors

Controlling Your Design through Your Software Process

Operator Errors and Their Causes

Security

A Performance Comparison of Group Security Mechanisms

Towards Secure Downloadable Executable Content: The JAVA Paradigm

Model and Implementation of a Secure SW-Development Process for Mission Critical Software

Impact of Object-Oriented Software Engineering Applied to the Development of Security Systems

Medical Informatics

"Profit by Safety" or Quackery in Biomedical Information Technology?

Formal Methods II - Languages and Verification

Towards Automated Proof of Fail-Safe Behavior

Verifying a time-triggered protocol in a multi-language environment

Methods and Languages for Safety Related Real Time Programming

ANSI-C in Safety Critical Applications Lessons-Learned from Software Evaluation

Applications

A Structured Approach to the Formal Certification of Safety of Computer Aided Development Tools

Applying Formal Methods in Industry The UseGat Project

Increasing System Safety for By-Wire Applications in Vehicles by Using a Time Triggered Architecture

Fault-Tolerant Communication in Large-Scale Manipulators

Distributed Fault Tolerant and Safety Critical Applications in Vehicles - A Time-Triggered Approach

Model Checking Safety Critical Software with SPIN: an Application to a Railway Interlocking System

EURIS, a Specification Method for Distributed Interlockings

Object Oriented Safety Analysis of an Extra High Voltage Substation Bay

Formal Methods III - Petri Nets

Integration of Logical and Physical Properties of Embedded Systems by Use of Time Petri Nets

Safety Verification of Software Using Structured Petri Nets

Reliability

Refinement of Safety-Related Hazards into Verifiable Code Assertions

Conceptual Comparison of two Commonly Used Safeguarding Principles

A Holistic View on the Dependability of Software-Intensive Systems

Verifying Integrity of Decision Diagrams.

Other Format:

Printed edition:

ISBN:

978-3-540-49646-5

9783540496465

Access Restriction:

Restricted for use by site license.