9th IEEE International Symposium on Object and component-oriented Real-time distributed Computing

Sponsor: IEEE Computer Society TC on Distributed Processing In cooperation with: OMG, IFIP WG 10.4
Homepage: http://www.rtselab.org/~isorc2006 =======================================================
Important Dates:
Paper Submissions: December 9, 2005
Acceptance Notification: January 20, 2006
Camera-Ready Papers Due: February 15, 2006
Symposium Co-Chairs:
Moon Hae Kim Konkuk Univ., Korea
Peter Puschner TU Wien, Austria
Insup Lee Univ. of Pennsylvania, USA
Program Co-Chairs:
Sunggu Lee POSTECH, Korea
Uwe Brinkschulte Univ. of Karlsruhe, Germany
Bhavani Thuraisingham Univ. of Texas, Dallas USA
Robbert G. Pettit (Industrial Advances Track) Aerospace Corp., USA
SCOPE
This is the ninth IEEE Computer Society symposium dealing with the
rapidly expanding field of object-oriented real-time distributed
computing (ORC) technology. The principal theme of ISORC is the use
of the object-oriented computing paradigm - which has prevailed in
many non-real-time applications in the past decade - in a wide variety
of real-time applications. In the ISORC series, this paradigm
emphasizes its spirit of openness where diverse views and new
approaches to challenging issues can be freely discussed.
TOPICS OF INTEREST
Papers pertaining to all aspects of ORC are sought, including but not
limited to the following:
Programming and system engineering:
ORC paradigms, object models, languages, RT Corba, Embedded .NET,
RT RMI, RT Java, UML, application programming interface (API),
specification, design, verification, validation, testing, maintenance,
system of systems, etc.
Distributed computing and communication infrastructures:
Internet QoS (quality of service), real-time communication,
networked computing platforms, protocols, inter-operability, security,
trusted and dependable systems, fault tolerance, virtual subnets for ORC.
System software:
real-time kernels and operating systems, middleware support for ORC,
QoS management, extensibility, synchronization, resource allocation,
scheduling, fault tolerance, security.
Applications:
embedded systems (automotive, avionics, consumer electronics,
building systems, etc), multimedia processing,
RT Web-based applications and use of XML,
real-time object-oriented simulations.
System evaluation:
output accuracy, timeliness, worst-case execution time, dependability,
end-to-end QoS, overhead, fault detection and recovery time.
Papers dealing with other issues that are related to the
specification, design, implementation, and evaluation of ORC systems
are also welcome. To promote dialogues between researchers and users
of ORC, contributions from industry are particularly welcome.