One of the problems found in natural language processing systems, is the difficulty to identify textual elements referring to the same entity, this task is called coreference. Solving this problem is an integral part of discourse comprehension since it allows language users to connect the pieces of speech information concerning to the same entity. Consequently, coreference resolution is a key task in natural language processing.Despite the large efforts of existing research, the current performance of coreference resolution systems has not reached a satisfactory level yet. In this work, we describe a structure learning system for unrestricted coreferencere solution that explores two techniques: latent coreference trees and automatic entropy-guided feature induction. The latent tree modeling makes the learning problem computationally feasible,since it incorporates are levant hidden structure. Additionally,using an automatic feature induction method, we can efciently build enhanced non-linear models using linear model learning algorithms, namely, the structure dandsparse perceptron algorithm. We evaluate the system on the CoNLL-2012 Shared Task closed track data set, for the English portion. The proposed system obtains a 62.24 per cent value on the competition s official score. This result is be low the 65.73 per cent, the state-of-the-art performance for this task. Nevertheless, our solution significantly reduces the time to obtain the clusters of adocument, since, our system takes 0.35 seconds per document in the testing set, while in the state-of-the-art, it takes 5 seconds for each one.