IEEE INFOCOM '92 Proceedings of the eleventh annual joint conference of the IEEE computer and communications societies on One world through communications (Vol. 2)
Scheduling Algorithms for Multiprogramming in a Hard-Real-Time Environment
Journal of the ACM (JACM)
Priority Inheritance Protocols: An Approach to Real-Time Synchronization
IEEE Transactions on Computers
Performance-Based Design Of Distributed Real-Time Systems
RTAS '97 Proceedings of the 3rd IEEE Real-Time Technology and Applications Symposium (RTAS '97)
An optimal pinwheel scheduler using the single-number reduction technique
RTSS '96 Proceedings of the 17th IEEE Real-Time Systems Symposium
A proportional share resource allocation algorithm for real-time, time-shared systems
RTSS '96 Proceedings of the 17th IEEE Real-Time Systems Symposium
Scheduling real-time applications in an open environment
RTSS '97 Proceedings of the 18th IEEE Real-Time Systems Symposium
Integrating Multimedia Applications in Hard Real-Time Systems
RTSS '98 Proceedings of the IEEE Real-Time Systems Symposium
A Theory of Rate-Based Execution
RTSS '99 Proceedings of the 20th IEEE Real-Time Systems Symposium
A Fixed-Priority-Driven Open Environment for Real-Time Applications
RTSS '99 Proceedings of the 20th IEEE Real-Time Systems Symposium
Lottery and Stride Scheduling: Flexible Proportional-share Resource Management
Lottery and Stride Scheduling: Flexible Proportional-share Resource Management
Stride Scheduling: Deterministic Proportional- Share Resource Management
Stride Scheduling: Deterministic Proportional- Share Resource Management
Real-time digital signal processing of component-oriented phased array radars
RTSS'10 Proceedings of the 21st IEEE conference on Real-time systems symposium
| Hi-index | 14.98 |
A multifunction phased array radar must search and track suspicious targets in its surveillance space in a real-time fashion. With inefficient scheduling implementations in many traditional systems, much radar resource is wasted with a very limited performance gain. This paper targets one of the most important issues in the design of modern phased array radars: real-time dwell scheduling. We formalize the typical workload of a modern phased array radar and propose a rate-based approach to schedule radar dwells in a real-time fashion. We show how to reserve radar resources to guarantee the minimum radar operation without sacrificing the stability of the system. The strength of our approach is verified by a series of simulation experiments based on a real phased array radar for air defense frigates [9]. A significant improvement in the performance of phased array radars was shown.