Proceedings of the 5th iCC 1998 in San Jose, CA (USA)

CAN Implementations
Prof. Dr. W. Lawrenz, P. Kinowski, G. Kircher (c&s): CAN Conformance Testing - State of the Art and Test Experience
A. Wolf, C. Koller (Siemens Microelectronics): 16-bit Microcontroller with two on Chip CAN Modules
L. Perier, A. Coen (ST Microelectronics): CAN-do Solutions for Car Multiplexing
CAN Physical Layer
J. Krellner, A. J. Pohlmeyer (Motorola): Virtual Prototyping of a Fault Tolerant CAN Physical Layer Transceiver
F. Colandrea, P. Heinrich (ST Microelectronics): Triple Voltage Regulator with Fault-Tolerant Low-Speed CAN-Transceiver for Car Body Applications
H. Arita, T. Nakamikawa, H. Fukumaru (Hitachi): The CAN Repeater with Optical Fibre Link
Higher Layer Protocols
Dr. W. Schulze (ESD): Implementation of a CAN Gateway between DeviceNet and CANopen
D. R. Purdy (Naval Air Warfare Center): Target’s Common Digital Architecture
Dr. K. Tindel (VCT AB): The Volcano System
Conformance Testing
P. Dierauer (Honeywell): Single Device Test Requirements for Reliable CAN-Based Multi-Vendor Networks
K. Hion Tang (University of Warwick): DeviceNet Interoperability Testing
G. Beckmann, S. Wagner, Prof. Dr. J.-U. Varchmin, Th. Kohlmeyer (TU Braunschweig): T. Kramer, (National Instruments): CANopen Conformance Test Procedures
Sponsor Session
Dr. J. Barrenscheen (Siemens AG): TwinCAN - A New Milestone for Inter-Network Communication
F. Bogenberger, C. Mielenz (Motorola): Accurate Message Level CAN Simulation
J. Eltze, (NEC Electronics): Full-CAN Module with Gateway Support
System Reliability
P. Ferriol, F. Navio, J. J. Navio, J. Pons, J. Proenza, J. M. Julià (University of Balears): A Double CAN Architecture for Fault-Tolerant Control Systems
H. Hilmer, Prof. Dr. H.-D. Kochs (University of Duisburg), E. Dittmar (ABB): A CAN-based Architecture for Highly Reliable Communication Systems
J. C. Campelo, A. Rubio, F. Rodriguez, J. J. Serrano (University of Valencia): CAN Controller Implementing Features for Reliable Communication
Industrial Automation
W. H. Moss (ODVA): Report on ISO TC 184/SC 5/WG 5 Open Systems Application Frameworks
H. Eberle (Ixxat Automation), Prof. Dr. K. Etschberger (STZP): CANopen Devices Becoming Intelligent with IEC 1131-3
K. Lennartsson (Kvaser): Design of Mixed Higher Layer Protocol Systems
Open Software Interfaces
M. W. Nelisse (TNO): CAN and Windows CE
R. Gallus (Softing): OPC for CANopen and DeviceNet
H. Utz (National Semiconductors): Dedicated CAN-Module Features to Improve the Performance of Open Software Interfaces
Real-time Performance
T. Berger, D. John, K. J. Neumann (University of Karlsruhe): Hybrid Priorisation of CAN Messages to Improve Average-Case Behaviour
A. Bohannon, D. Heffernan (PEI Technologies/University of Limerick): A Structured Approach to Real-Time Application Software Design for the CAL Environment
W. Henderson, D. Kendall, A. Robson, St. Bradley (University of Northumbia): An Holistic Approach to Performance Prediction of Distributed Real-Time CAN Systems
Scheduling
P. Fonseca , F. Santos, A. Mota, J. A. Fonseca (University of Aveiro): A Dynamically Reconfigurable CAN System
R. Rüdiger (FH Braunschweig/Wolfenbüttel): Evaluating the Temporal Behaviour of CAN Based Systems by Means of a Cost Functional
F. Rodriguez, J. C. Campelo (University of Valencia): EDF Message Scheduling on a CAN Network
Application I
P. M Schumacher, B. Riedel (SIG Positec Selectron AG): CAN in Railroad and Tramway Applications
Th. Isler (Inicore AG): CAN on Integration Technologies
D. Gifford, B. Kirk (Robinson Associates), B. Leisch (Universität Linz): A Component Based Architecture for CAN Based Systems
Application II
Dr. M. Wollschlaeger, St. Wehrmann (3soft): Intranet-based Management of CAN Devices
A. Dunne, P. Dillon (PEI Technologies), D. Heffernan (University of Limerick), P. Stack (Ventilux Ltd.): A CAN-based Emergency Light Test Network
S. Bradley, J. Tay, P. Gray, G. Priede, St. Addison (University of Aberdeen): CAN-based Architecture for Free-Falling Deep-Ocean Lander Vehicles