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NASA Space Station On-Orbit Status 6 August 2004

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  • NASA Space Station On-Orbit Status 6 August 2004

    Space Ref
    Aug 7 2004

    NASA Space Station On-Orbit Status 6 August 2004

    SpaceRef note: This NASA Headquarters internal status report, as
    presented here, contains additional, original material produced by
    SpaceRef.com (copyright © 2004) to enhance access to related status
    reports and NASA activities.

    All ISS systems continue to function nominally except those noted
    previously or below.

    Before breakfast, FE/SO Michael Fincke performed the 24-hr. data
    registration of the acoustic dosimeters (two body-worn and one
    static) deployed yesterday. Readings will again be taken tonight
    before sleep time. [Before turning the dosimeters back on again,
    their batteries were changed out. The dosimeters were then
    statically deployed for approximately 16 hrs in specified locations.]

    In preparation for more upcoming ADUM (Advanced Diagnostic Ultrasound
    in Microgravity) activities, the Science Officer set up and took
    another training session on the ADUM experiment's On-board
    Proficiency Enhancer (OPE). [Mike used the ADUM OPE compact disk on
    the HRF PC/laptop, focusing on cardiac, thoracic & bone scanning,
    plus data acquisition (probe positioning) and principles of remote
    guidance, ultrasound and anatomy.]

    Previous Reports

    ISS On-orbit Status [HQ]
    ISS Status [JSC]
    Shuttle Processing [KSC]

    CDR Gennady Padalka meanwhile set up and configured equipment for
    another test of the Russian ASN-M satellite navigation system's NPM
    receiver module, using the ASN-2401 antenna system and Laptop 3.
    [Purpose of today's experiment is to test the NPM's performance under
    real flight conditions, including assessment of the precision of the
    acquired state vector (SV), generation of statistics for the
    successful operation of the NPM test mode on orbit, evaluation of the
    NPM data integrity in flight as well as its Cold and Hot start times,
    verification of software functionality in the ASN-M NVM (navigation
    computing module), and analyzing navigation satellite signal and ISS
    structures multipath effects on the NPM. When functioning, the ASN
    will use GLONASS satellites (the Russian GPS equivalent) to update
    the SV without using the ground (which up to now has to uplink daily
    SV updates) or requiring SV transfers from the USOS from time to
    time. The ASN equipment was originally installed in the SM but was
    found faulty and had to be returned to the ground. After repair it
    was shipped again to the station on Progress 11P and re-installed by
    Yuri Malenchenko on 7/8/03, followed by various troubleshooting
    attempts en suite.]

    In the Lab module, Mike Fincke powered up the HRF GASMAP (Human
    Research Facility/Gas Analyzer System for Metabolic Analysis
    Physiology) and its laptop for the regular routine 30-day health
    check (without environmental sampling), for a minimum run of six
    hours. Afterwards, the equipment was turned off again.

    Mike also activated the EXPRESS Rack 5 laptop computer (ER5 ELC) for
    the subsequently scheduled payload activities. Using the new SNFM
    (Serial Network Flow Monitor) application, the SO then initiated a
    3-hr. session to capture packet data traffic on the LAN-2 science
    network on the ELC during the subsequent SAMS (space acceleration
    measurement system) repair. Later tonight, ER5 ELC will be powered
    off again. [The software automatically transmits stored files to
    the ARIS POP computer (Active Rack Isolation System/Payload On-orbit
    Processor) in ER2 for later downlink and analysis on the ground.]

    On the SAMS, Fincke performed a software upgrade, installing the
    newly revised software load, then downloaded files from the SAMS ICM
    (interim control module). After reviewing an OBT (onboard training)
    course for operating the CGBA (Commercial Generic Bioprocessing
    Apparatus), the FE later tonight will activate the payload for
    autonomous operation.

    In the Service Module Work Compartment (SM RO), Gennady removed two
    IMU-128-2 microaccelerometers behind wall panels and replaced them
    with new units brought up on Progress 14P. The old IMUs were
    discarded as trash to be loaded on the next Progress. Part of the
    task was to take photo documentation of the new accelerometers with
    the Nikon D1 digital camera.

    Padalka had an additional hour on his schedule reserved for stowing
    remaining EVA tools, batteries etc.

    At ~9:30am EDT, the CDR started another run of the Russian BIO-5
    Rasteniya-2 ("plants-2") experiment in the "Lada-5" greenhouse,
    setting it up for operation and activating it by turning on
    environmental control power (pumps, light and fan), priming the
    tensiometers and setting laptop mode to cultivation. [Rasteniya-2
    researches growth and development of plants under spaceflight
    conditions. After hardware installation, Gennady planted six seeds
    of acacia leaf peas between the wicks of the root module, made power
    connections and locked the tray. Regular daily maintenance of the
    experiment involves monitoring of seedling growth, humidity
    measurements, moistening of the substrate if necessary, and
    photo/video recording.]

    Later today, CDR Padalka is to perform the periodic replenishing of
    the Elektron's water supply for electrolysis, filling the KOV thermal
    loops' EDV container with purified (deionized) water from the BKO
    multifiltration/purification column unit. [The procedure was
    specially designed to prevent air bubbles from getting into the BZh
    liquid unit where they could cause micropump impeller cavitation and
    Elektron shutdown, as numerous past times. In the procedure, the EDV
    water is drawn from the BKO and the air/liquid separator unit (GZhS)
    while the crewmember checks for any air bubbles in the EDV (and, if
    visible, estimates their number).]

    On the basis of yesterday's tagup and an uplinked list of
    instructions, Mike Fincke assembled the new flexhose cover box from
    its individual pieces delivered on Progress. The box was then
    installed on the U-jumper flexhose at the Lab science window, to
    protect it from inadvertent "grasps" by crewmembers hovering at the
    window.

    The daily routine maintenance on the SOZh life support system was
    performed by Gennady, who also prepared the daily IMS "delta" file
    update, while Mike took care of the standard routine checkup of
    autonomous Lab payloads.

    Mike Fincke also worked on the PC printer, printing out revised ODF
    (operations data file) Warning pages, complete with P&I (pen & ink)
    updates.

    Padalka conducted his weekly IMS (inventory management system) tagup
    with ground specialists, discussing open issues concerning
    identification of equipment and storage locations for updating the
    IMS database.

    For the SO's OBT preparation for the MFMG (Miscible Fluids in
    Microgravity) demo scheduled for the next "Saturday Science" program,
    POIC (Payload Operations & Integration Center) uplinked sample movies
    showing Mike Foale performing MFMG.

    Fincke and Padalka performed their full regimen of physical exercise
    on VELO with force loader, RED (resistive exercise device) and TVIS
    (treadmill with vibration isolation and stabilization).

    Working off the Russian task list, the CDR was to conduct another run
    of the Russian Uragan earth-imaging program, using the Kodak 760 DSC
    (digital still camera) with 800mm-lens from SM windows #9. [Among
    today's observation targets are the Altai glaciers, the South shore
    of the Baikal Sea, Trans-Baikal population centers, the Amur river,
    the Far East coast towards Sovetskaya Gavan, Sakhalin Island,
    volcanoes in Armenia and Yerevan, etc.]

    The station continues to fly in XPOP attitude (X-axis perpendicular
    to orbit plane), pitch: 0.8 deg, yaw: -8.0 deg, roll: 0 deg.
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