Experience from the last decade of icebreaker expeditions into the central Arctic Ocean demonstrate that about a quarter of the deep polar basin will remain inaccessible to modern multi-channel seismic exploration by towed arrays even when the survey vess el is assisted by a nuclear icebreaker. We propose to develop and use automatic buoys to acquire seismic reflection data particularly over high priority, but relatively inaccessible scientific targets such as the Alpha Ridge and also as a cost effective w ay to augment the seismic data base in areas targeted by proposals for future scientific drilling. An automatic seismic system powered by solar panels and batteries deployed on drifting sea ice, will collect a single channel seismic record with 0.5- 1 km sub-bottom penetration every 50 meter along the drift path. Data will be compressed and transmitted to shore in real time via the Iridium satellite communication system. Uptime is limited by power and is expected to be at least 6 possibly 8 months of the year. Primary targets for buoy deployments are northern part of Yermak Plateau in support of IODP proposal # 645, area of erosion by deep draft ice on the shallowest part of Lomonosov Ridge, and a newly discovered asteroid impact site on the southern flan k of Alpha Ridge. Buoy positions will be available in real time on a web page. Our goal is to achieve a proof of concept for seismic data acquisition to serve as starting point for an international effort analogue to the current International Arctic Buoy Program for meteorological and oceanographic data. This proposal is part of IPY project # 77 Plate Tectonics and Polar Gateways in Earth's History (PLATES and GATES).