18th IEEE Real-Time Systems Symposium: Work in Progress Sessions

Dear Colleagues: Following, the success of last year's Work In Progress (WIP) Sessions during RTSS'96, I am pleased to continue that tradition by presenting you 10 excellent WIP reports for RTSS'97. The prime purpose of RTSS WIP sessions is to provide researchers in Academia and Industry an opportunity to discuss their evolving ideas and gather feedback thereon from the real-time community at large. There were 16 submissions for WIP presentations, of which 10 have been accepted for presentation during the symposium and for inclusion in RTSS'97 WIP proceedings. If you would like to reference any article included in the RTSS'97 WIP Proceedings, please note that theses proceedings are published as a Technical Report from Boston University, Computer Science Department (BUCS-TR-97- 021). Many people worked hard to make the idea of holding the WIP sessions a reality. In particular, I would like to thank Kwei-Jay Lin for accommodating the WIP sessions within the busy schedule of RTSS'97. Also, I would like to thank all members of the RTSS'97 Program Committee who helped me review these submissions. Finally, I would like to thank all those who submitted their work to RTSS'97 WIP Sessions. I hope these sessions will prove beneficial, both to the WIP presenters and to RTSS'97 attendees. Azer Bestavros RTSS'97 WIP Chair December 1997.IEEE-CS TC-RT

Characterizing Group Communication Middleware for Real-time Distributed Systems

This paper presents our current work in characterizing the behavior of a real-time dependable distributed system, which must exhibit predictable behavior under load and in the presence of partial failures. We focus on measuring the end-to-end properties of the middleware implementing the real-time process group service, specifically its membership and message latency. The paper also describes the tools and techniques we have developed, along with some of the practical issues that arise in instrumenting a real-time distributed system. 1 Introduction A major focus of research at The Open Group Research Institute is the development of real-time dependable distributed systems. One of our goals is to provide our academic and industrial partners with configurable, reusable frameworks for research and further development. Target applications include factory automation, sensor monitoring and combat systems, which require predictable behavior, even in emergency conditions. Under this program,..

Breaking photoswitch activation depth limit using ionising radiation stimuli adapted to clinical application

International audienceAbstract Electromagnetic radiation-triggered therapeutic effect has attracted a great interest over the last 50 years. However, translation to clinical applications of photoactive molecular systems developed to date is dramatically limited, mainly because their activation requires excitation by low-energy photons from the ultraviolet to near infra-red range, preventing any activation deeper than few millimetres under the skin. Herein we conceive a strategy for photosensitive-system activation potentially adapted to biological tissues without any restriction in depth. High-energy stimuli, such as those employed for radiotherapy, are used to carry energy while molecular activation is provided by local energy conversion. This concept is applied to azobenzene, one of the most established photoswitches, to build a radioswitch. The radiation-responsive molecular system developed is used to trigger cytotoxic effect on cancer cells upon gamma-ray irradiation. This breakthrough activation concept is expected to expand the scope of applications of photosensitive systems and paves the way towards the development of original therapeutic approaches