Title :
Applying Inductive Logic Programming to Self-Healing Problem in Grid Computing: Is it a Feasible Task?
Author :
Ferro, Mariza ; Mury, Antonio Roberto ; Schulze, Bruno
Author_Institution :
ComCiDis Distrib. Sci. Comput. Group, Nat. Lab. for Sci. Comput. Petropolis, Petropolis, Brazil
Abstract :
Grid computing systems are extremely large and complex so, manually dealing with its failures becomes impractical. Recently, it has been proposed that the systems themselves should manage their own failures or malfunctions. This is referred as self-healing. To deal with this challenging, is required to predict and control the process through a number of automated learning and proactive actions. In this paper, we proposed inductive logic programming, a relational machine learning method, for prediction and root causal analysis that makes it possible the development of a self-healing component.
Keywords :
fault tolerant computing; grid computing; inductive logic programming; learning (artificial intelligence); system recovery; automated learning; grid computing system; inductive logic programming; prediction analysis; process control; relational machine learning method; root causal analysis; self-healing component problem; system failures; Automatic control; Computer applications; Distributed computing; Grid computing; Humans; Laboratories; Learning systems; Logic programming; Machine learning; Scientific computing; Grid; Inductive Logic Programming; Machine learning; Self-healing;
Conference_Titel :
Advanced Engineering Computing and Applications in Sciences, 2009. ADVCOMP '09. Third International Conference on
Conference_Location :
Sliema
Print_ISBN :
978-1-4244-5082-4
Electronic_ISBN :
978-0-7695-3829-7
DOI :
10.1109/ADVCOMP.2009.10
