With the fast development and rising popularity of autonomous vehicle (AV) technology, multiple AVs may soon be driving on the same road simultaneously. Such multi-AV coexistence driving situations will lead to new and persistent challenges. Therefore, improvements on making control decisions for multiple AVs becomes necessary for continued driving safety. In this paper, we propose a multi-AV decision making system (MADM), which considers multi-AV coexistence driving situations during the decision-making process. In MADM, we first build a policy formation method to generate policies that learn the driving behaviors of an expert based on the expert's driving trajectory data. We then develop a multi-AV decision-making method, which adjusts the formed policies through multi-agent reinforcement learning. The adjusted policies make control decisions for multiple AVs with safety guarantee. We used a real-world traffic dataset to evaluate the decision making performance of MADM in comparison with several state-of-the-art methods. Experimental results show that MADM reduces emergency rate by as high as 51% when compared with existing methods.