Posted on 23.10.2009 - 11:00 EDT in SURVEY NEWS by Rons_ROV_Links
Operational oceanography played a key role in the safe rescue of all 155 people on board US Airways Flight 1549 which crashed into the Hudson River on 15 January 2009, as Alan F. Blumberg of the Centre for Maritime Systems, Stevens Institute of Technology writes in the latest issue of the Journal of Operational Oceanography (JOO) published by the Institute of Marine Engineering, Science and Technology (IMarEST).
From his campus window Professor Blumberg could easily see the plane with its passengers standing on the wings awaiting rescue. He and his colleague Nickitas Georgas were able to use the Stevens NYHOPS - New York Harbor Observing and Prediction Systems website to prepare a detailed summary of the water and weather conditions in the Hudson River surrounding the crash site and a forecast of conditions for the next 48 hours.
Those details were emailed to the Director of Watch Command for the NYC Office of Emergency Management (OEM) and the EMS Command Center, Fire Department of New York within minutes of the crash.
He goes on to explain, operational oceanography played a vital role in the decision to deploy rescue assets downstream, not upstream, along Manhattan and to guide the plane eastward to an area for salvage operations. Speed of rescue was all important for the passengers and crew as hypothermia on a cold January day could result in a matter of minutes.
"As a result of the coordinated efforts between various agencies, everyone onboard Flight 1549 was safely rescued," he writes. "New York Governor David A. Paterson declared that this was 'a miracle on the Hudson'. As an educational institution, a goal is to research how to use and transition high technology hardware and software for applied purposes. Agencies that had the foresight to fund our operational observation and forecasting work made it possible for us to be present in the moment, being aware of what is going on right here and now providing a graphic demonstration of how operational oceanography can benefit safety."