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Nowadays, people are overwhelmingly exposed to various kinds of information from different information networks. In order to recommend users with the information entities that match their interests, many recommendation methods have been proposed so far. And some of these methods have explored different ways to utilize different kinds of auxiliary information to deal with the information sparsity problem of user feedbacks. However, as a special kind of information sparsity problem, the &#x201C;cold start&#x201D; problem is still a big challenge not well-solved yet in the recommendation problem. In order to tackle the &#x201C;cold start&#x201D; challenge, in this paper, we propose a novel recommendation model, which integrates the auxiliary information in multiple heterogeneous information networks (HINs), namely the <italic>Cross-HIN Recommendation System (CHRS)</italic>. By utilizing the rich heterogeneous information from meta-paths, the <italic>CHRS</italic> is able to calculate the similarities of information entities and apply the calculated similarity scores in the recommendation process. For the information entities shared among multiple information networks, <italic>CHRS</italic> transfers item latent information from other networks to help the recommendation task in a given network. During the information transfer process, <italic>CHRS</italic> applies a domain adaptation matrix to tackle the domain difference problem. We conduct experiments to compare our <italic>CHRS</italic> method with several widely employed or the state-of-art recommendation models, and the experimental results demonstrate that our method outperforms the baseline methods in addressing the &#x201C;cold start&#x201D; recommendation problem.