"Our immediate plans are to develop a strategy to shut down critical payload systems aboard the satellite," said Space Network Project Manager Roger Flaherty at NASA's Goddard Space Flight Center. "Then the team will execute maneuvers to raise TDRS-1's orbit, thus eliminating potential collision dangers with other communications satellites in geosynchronous orbit." TDRS-1 had many firsts. Its position over the Indian Ocean successfully eliminated the "Zone of Exclusion" in an area where communications with spacecraft were previously impossible, thus providing true global coverage for all TDRS System customers. In 1998, TDRS-1 garnished world-wide publicity when it provided the first medical teleconferencing link, complete with voice, video and imaging data from the South Pole. It was used again in July 2002 to provide continuous, dropout-free data during a two-hour telemedicine event involving a physician at the Amundsen-Scott South Pole Station and physicians at the Massachusetts General Hospital in Boston. "Amazing results from a satellite that almost didn't make it to orbit," said Flaherty.
TDRS-1's upper stage failed upon deployment from the space shuttle in April 1983. Engineers at Goddard came to its rescue using the tiny, one-pound thrusters onboard the spacecraft. Over the course of several months they fired the thrusters to nudge TDRS-1 into its geosynchronous Earth orbit. NASA has used the satellite in ways never expected as its orbit has been inclining almost one degree per year since deployment.