LADDER: A Human-Level Bidding Agent for Large-Scale Real-Time Online Auctions


الملخص بالإنكليزية

We present LADDER, the first deep reinforcement learning agent that can successfully learn control policies for large-scale real-world problems directly from raw inputs composed of high-level semantic information. The agent is based on an asynchronous stochastic variant of DQN (Deep Q Network) named DASQN. The inputs of the agent are plain-text descriptions of states of a game of incomplete information, i.e. real-time large scale online auctions, and the rewards are auction profits of very large scale. We apply the agent to an essential portion of JDs online RTB (real-time bidding) advertising business and find that it easily beats the former state-of-the-art bidding policy that had been carefully engineered and calibrated by human experts: during JD.coms June 18th anniversary sale, the agent increased the companys ads revenue from the portion by more than 50%, while the advertisers ROI (return on investment) also improved significantly.

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