The best performing algorithms for a particular oversubscribed scheduling application, Air Force Satellite Control Network (AFSCN) scheduling, appear to have little in common. Yet, through careful experimentation and modeling of performance in real problem instances, we can relate characteristics of the best algorithms to characteristics of the application. In particular, we find that plateaus dominate the search spaces (thus favoring algorithms that make larger changes to solutions) and that some randomization in exploration is critical to good performance (due to the lack of gradient information on the plateaus). Based on our explanations of algorithm performance, we develop a new algorithm that combines characteristics of the best perfor...
In practical applications, some important classes of problems are NP-complete. Although no worst-cas...
The use of random test problems to evaluate algorithm performance raises an important, and generally...
Includes bibliographical references (p. 25-26).Ravindra K. Ahuja, James B. Orlin
The best performing algorithms for a particular oversubscribed scheduling application, Air Force Sat...
Oversubscribed scheduling problems require removing or partially satisfying tasks when enough resour...
Previous results for a real-world domain, scheduling communications requests for the Air Force Satel...
Abstract This paper presents new results showing that a very simple stochastic hill climbing algorit...
In this paper we study the performance of four mapping algorithms. The four algorithms include two n...
This paper compares the performance of three classes of scheduling algorithms for real-time systems ...
This paper presents an empirical performance analysis of three project scheduling algorithms dealing...
In recent years, planning and scheduling research has paid increasing attention to problems that inv...
International audienceThis paper presents the robustness and performance anal- ysis of the Controlle...
Abstract. Machine learning can be utilized to build models that predict the runtime of search algori...
Abstract. Three algorithms are tested on the satellite range scheduling problem, using data from the...
We study the scheduling of tasks in computer systems which utilize imprecise (partial) computations....
In practical applications, some important classes of problems are NP-complete. Although no worst-cas...
The use of random test problems to evaluate algorithm performance raises an important, and generally...
Includes bibliographical references (p. 25-26).Ravindra K. Ahuja, James B. Orlin
The best performing algorithms for a particular oversubscribed scheduling application, Air Force Sat...
Oversubscribed scheduling problems require removing or partially satisfying tasks when enough resour...
Previous results for a real-world domain, scheduling communications requests for the Air Force Satel...
Abstract This paper presents new results showing that a very simple stochastic hill climbing algorit...
In this paper we study the performance of four mapping algorithms. The four algorithms include two n...
This paper compares the performance of three classes of scheduling algorithms for real-time systems ...
This paper presents an empirical performance analysis of three project scheduling algorithms dealing...
In recent years, planning and scheduling research has paid increasing attention to problems that inv...
International audienceThis paper presents the robustness and performance anal- ysis of the Controlle...
Abstract. Machine learning can be utilized to build models that predict the runtime of search algori...
Abstract. Three algorithms are tested on the satellite range scheduling problem, using data from the...
We study the scheduling of tasks in computer systems which utilize imprecise (partial) computations....
In practical applications, some important classes of problems are NP-complete. Although no worst-cas...
The use of random test problems to evaluate algorithm performance raises an important, and generally...
Includes bibliographical references (p. 25-26).Ravindra K. Ahuja, James B. Orlin