关键词：水声通信；高发送功率；长数据分组传输；通信
摘 要：Underwater acoustic communications consume a significant amount of energy due to the high transmission power (10-50W) and long data packet transmission duration (0.1-1 s). Mobile Autonomous Underwater Vehicles (AUVs) can conserve energy by waiting for the 'best' network topology configuration, e.g., a favorable alignment, before starting to communicate. Due to the frequency-selective underwater acoustic ambient noise and high medium power absorption-which increases exponentially with distance-a shorter distance between AUVs translates into a lower transmission loss and a higher available bandwidth. By leveraging the predictability of AUV trajectories, a novel solution is proposed that optimizes communications by delaying packet transmissions in order to wait for a favorable network topology (thus trading end-to-end delay for energy and/or throughput). In addition, the proposed solution exploits the frequency-dependent radiation pattern of underwater acoustic transducers to reduce communication energy consumption. Our solution is implemented and evaluated through emulations, showing improved performance over some well-known geographic routing solutions and delay-tolerant networking solutions.