Transductive Ranking on Graphs
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Theory of Computation
Advisor
Ronitt Rubinfeld
Metadata
Show full item recordAbstract
In ranking, one is given examples of order relationships among objects, and the goal is to learn from these examples a real-valued ranking function that induces a ranking or ordering over the object space. We consider the problem of learning such a ranking function in a transductive, graph-based setting, where the object space is finite and is represented as a graph in which vertices correspond to objects and edges encode similarities between objects. Building on recent developments in regularization theory for graphs and corresponding Laplacian-based learning methods, we develop an algorithmic framework for learning ranking functions on graphs. We derive generalization bounds for our algorithms in transductive models similar to those used to study other transductive learning problems, and give experimental evidence of the potential benefits of our framework.
Date issued
2008-08-07Series/Report no.
MIT-CSAIL-TR-2008-051
Keywords
Graph-based learning, Transductive learning, Ranking, Graph regularization