 Alpha Crew Ready for Extended Stay

 By Todd Halvorson
 Cape Canaveral
 Bureau Chief
 posted: 05:15 pm ET
 31 May 2001

 CAPE CANAVERAL, Fla. - Two American astronauts and a Russian cosmonaut
 will spend an extra month aboard the International Space Station, but the
 crew said Thursday that they are in no hurry to return to planet Earth.

 A day after ongoing problems with the station's new robot arm prompted
 NASA to delay launch of their ride home, Yuri Usachev and his two U.S.
 colleagues - Susan Helms and Jim Voss - said they were mentally prepared
 for a lengthier orbital stay.

 "We have a crew consensus. We're happy about that," Helms told SPACE.com
 in a space-to-ground interview. "We've always assumed that we would be up
 here six months - so this slip that people are talking about is not, in
 our minds, a major impact."

 Onboard Alpha since mid-March, the so-called Expedition Two crew
 originally had been slated to return to terra firm July 23 aboard shuttle
 Discovery, which will serve as a station-bound taxi for a replacement
 crew.

 A planned July 12 launch, however, was pushed back to early August to
 give ground engineers more time to sort out problems with a balky
 shoulder joint on the station's $600 million Canadian robot arm.

 Also delayed: The planned June 20 launch of shuttle Atlantis and a
 specially designed airlock that will serve as a staging area for
 spacewalks at the outpost.

 The 57.7-foot (17.5-meter) station crane is required to mount the $164
 million airlock to the outpost because the shuttle's shorter robot arm
 isn't long enough to do the job.

 Considered the centerpiece of Canada's $900 million station contribution,
 the new robot arm was delivered to the outpost by a visiting shuttle crew
 in April. Extensive testing of the device began in early May, and since
 then two separate problems have cropped up.

 On May 17, the arm's wrist joint locked up during a checkout session.
 Engineers think a computer control box near the elbow of the arm might
 not have been working properly but they have not been able to duplicate
 the problem.

 The wrist joint since then has been working fine. Even so, Usachev and
 Voss might be asked to replace the suspect computer control box during a
 spacewalk now scheduled for June 8.

 A more serious problem cropped up six days later when the arm's shoulder
 joint began acting up. A software glitch initially was thought to be the
 problem, but engineers now suspect that a back-up electronics unit on the
 shoulder joint might have failed.

 "The exact problem is not yet known. We've got specialists on the ground
 who are obviously looking at this very closely," Helms said in a separate
 interview.

 "But I think we can nail the problem down to a general statement - (to) a
 problem with the electronics of one of the joints, and that would be the
 shoulder pitch joint."

 Like most space station systems, the arm is equipped with both prime and
 back-up computer control boxes and electronics units. In order to operate
 the arm, computer commands are sent from consoles inside the station to
 the computer control boxes, which then relay commands to the electronics
 units on the arm’s wrist, elbow and shoulder joints.

 If any of the joints fail to work properly, then the arm puts itself into
 what NASA calls a "safe mode" - which means that it automatically stops
 operating.

 The prime units on the arm all have been working as advertised, and in
 that mode, the construction crane is operating as intended. Both problems
 cropped up during tests designed to show that the back-up units are
 working properly.

 NASA flight rules, meanwhile, call for both the prime and back-up
 computer control and electronics units to be operating properly before
 the arm is used to install the 12-ton airlock.

 The flight rule is intended to avoid a scenario during which an arm
 failure could leave the airlock stranded at the end of the crane while
 astronauts are trying to mount it to the station.

 NASA engineers, meanwhile, are working on a software patch that would
 essentially mask the problem encountered with the shoulder joint when
 back-up units are being used to operate the arm. The idea is to design a
 patch that would enable the arm to continue operating even if a back-up
 computer control box or electronics unit failed.

 The software "work-around" would enable NASA to press ahead with the
 airlock installation mission. The other option is to perform shoulder
 joint replacement surgery. That would involve launching a new shoulder
 joint and then installing it during a spacewalk.

 As it stands, the launch of Atlantis and the airlock now have been pushed
 back to no earlier than July 2. Discovery and a new resident station crew
 - which will include U.S. astronaut Frank Culbertson and Russian
 cosmonauts Vladimir Dezhurov and Mikhail Turin - then would follow a
 month later, with launch tentatively slated for no earlier than Aug. 3.

 Should the arm problems persist, NASA officials might reverse the order
 of the shuttle missions, with the airlock installation flight slipping
 until September.

 Culberston and his station crew, however, are not yet trained to perform
 the airlock installation job, so NASA officials would prefer to launch
 the shuttle missions in their current order.

 Usachev and his crew, meanwhile, trained extensively for the airlock
 installation job and think that the robot arm problems will be resolved
 in a timely manner.

 "I'm confident that engineers will find a way to work around it," Helms
 said. "They also do have a way to fix it. And all we need to do is wait
 until they make their decision."

 In the meantime, an extra month in orbit is something the veteran
 astronaut and her colleagues are looking forward to.

 "The shuttle (schedule) always had the potential to slip to the right, so
 we were just mentally prepared for that," Helms said. "We expected it,
 and we're going to enjoy the extra time that we have."