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"930610.DFC" (59353 bytes) was created on 06-10-93
10-Jun-93 Daily File Collection
These files were added or updated between 09-Jun-93 at 21:00:00 {Central}
and 10-Jun-93 at 21:00:35.
=--=--=START=--=--= NASA Spacelink File Name:930610.SHU
KSC SHUTTLE STATUS REPORT 6/10/93
KENNEDY SPACE CENTER SPACE SHUTTLE STATUS REPORT
Thursday, June 10, 1993
KSC Contact: Bruce Buckingham
-----------------------------STS-57------------------------------
Mission: STS-57/Spacehab/EURECA-Retrieval Orbital Alt. 287 miles
Vehicle: Endeavour/OV-105 Inclination: 28 degrees
Location: Pad 39-B Crew Size: 6
Launch Date/Window: June 20, 9:37 - 10:48 a.m. EDT
Expected KSC Landing Date/Time: June 28, 8:34 a.m.
Expected Mission Duration: 7 days/23 hours (if cryogenics allow)
IN WORK TODAY:
* Engine 2 heatshield installation
WORK SCHEDULED:
* Launch countdown preparations (Countdown set to begin 2:30 a.m. June 17)
* Helium Signature test (Friday)
* Flight readiness test (Saturday)
* Begin aft compartment closeouts
* External tank purges
* Ordnance installation
* Final helium service of SHOOT payload
WORK COMPLETED:
* Complete securing operations of new high pressure oxidizer
turbopump (HPOTP) to main engine 2
* Main engine 2 leak checks
-----------------------------STS-51------------------------------
Mission: STS-51/ACTS-TOS/ORFEUS-SPAS Orbital Alt.: 184 miles
Vehicle: Discovery/OV-103 Inclination: 28 degrees
Location: OPF bay 3 Crew Size: 5
Mission Duration: 9 days/22 hours Target Launch Date: July 17
IN WORK TODAY:
* Test Ku-Band deploy assembly
* Orbiter mid-body, forward and aft closeouts
* Preparations for main engine installation
WORK SCHEDULED:
* Close payload bay doors for rollover
* Main engine installation (Saturday)
WORK COMPLETED:
* Install Ku-Band deploy assembly from Columbia
* Holddown post closeouts in mobile launcher platform in VAB
* Aerosurface and flight control final cycling and checks
-----------------------------STS-58------------------------------
Mission: STS-58/SLS-2 Orbital Altitude: 176 miles
Vehicle: Columbia/OV-102 Inclination: 39 degrees
Location: OPF bay 2 Crew Size: 7
Mission Duration: 14 days
Target launch period: Early/Mid September
IN WORK TODAY:
* Preparations to install extended duration orbiter (EDO) pallet
* Waste containment system checks and tests
WORK SCHEDULED:
* Drag chute installation
* Install extended duration orbiter pallet
WORK COMPLETED:
* Remove fifth cryogenic tank set
* Remove all three main engines
* Remove Ku-Band deploy assembly.
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:930610.SKD
Daily News/Tv Sked 6-10-93
Daily News
Thursday, June 10, 1993
Two Independence Square,
Washington, D.C.
Audio Service: 202/358-3014
% Ulysses continues to gather information as it reaches highest latitude;
% The Hubble Telescope makes new discoveries.
Launched by the Space Shuttle Discovery in October of 1990,the Ulysses
spacecraft has entered unexplored regions of the solar system as it crossed
into the highest latitude ever achieved relative to the sun's equator of more
than 32 degrees.
According to NASA project scientist for the mission, Dr. Edward Smith, the
Ulysses spacecraft is gathering information about the sun and its environment
as it continues toward the sun's southern pole..
Ulysses and its instruments are in excellent condition. And as a result of
joint efforts from the NASA-ESA mission operations team and NASA's Deep Space
Network , data coverage since launch has been consistently close to 100
percent.
* * * * * * * * * * * * * * * *
NASA's Hubble Space Telescope has made some recent discoveries. Astronomers
working with the telescope have announced results of a major step to measure
the Hubble Constant and the age of the universe.
Astronomers have discovered pulsating stars that become alternately brighter
and fainter with periods ranging from 10 to 50 days or Cepheids. Because the
distance of these stars can be measured by their luminous power, astronomers
conclude the spiral galaxy M81 to be 11 million light years with a 10 percent
uncertainty in this result. Previous research claimed the galaxy's distance to
be from 4.5 to 18 million light years.
The age of the Universe can be estimated from the Hubble Constant which is the
ratio of the recession velocities of galaxies to their distances in the
expanding universe. Research estimates the age of the universe to lie between
10 and 20 billion years.
NASA's Hubble Telescope has also discovered a group of stars that has had their
outer gas layers cannibalized by other passing stars. This results in stellar
"naked cores" with surface temperatures five times hotter than the Earth's sun.
These stars are found deep in the core of M15, one of the densest globular
clusters known. A globular cluster is several hundred thousand stars held
together by each other's gravity. If the cluster is exceptionally dense, the
strong gravitational attraction could strip other stars of their outer layers.
The Hubble Telescope made this discovery because it can resolve stars at the
dense core of M15 and the telescope is sensitive to ultraviolet light and can
distinguish the hot stars from the surrounding cooler stars. Researchers plan
to use Hubble to try and locate these type of stars elsewhere as well.
* * * * * * * * * * * * * * * *
Here's the broadcast schedule for Public Affairs events on NASA TV. Note that
all events and times may change without notice and that all times listed are
Eastern.
Thursday, June 10, 1993
12:30 pm NASA Today news program featuring stories on HST,
STS-57 and water found on Io.
1:00 pm NOVA: Russian Right Stuff.
2:00 pm Launch Box #4.
2:30 pm Zero-G and Space Suits.
3:00 pm The Unwritten Contract.
3:30 pm Standard Parts.
Friday, June 11, 1993
12:00 pm NASA Today news program.
12:15 pm Aeronautics & Space Report.
12:30 pm Flight Without Wings.
1:00 pm Four Days of Gemini IV
1:00 pm Veil of Venus.
2:00 pm Launch Box #5
2:30 pm Gemini Science Program.
3:00 pm The Future Rides on Quality
3:30 pm Everyone Can Make a Difference.
NASA TV is carried on GE Satcom F2R, transponder 13, C- Band, 72 degrees West
Longitude, transponder frequency is 3960 MHz, audio subcarrier is 6.8 MHz,
polarization is vertical.
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:10_4_3.TXT
MARSHALL CENTER TECHNOLOGY UTILIZATION PROJECTS
WATER WINDOW IMAGING X-RAY MICROSCOPE
NASA Technology: Doubly reflecting, normal incidence, multilayer Optical
systems for x-ray imaging
Participants:
Marshall Space Flight Center
University of Alabama at Birmingham
Lawrence Livermore National Laboratory
Stanford University
Baker Consulting
Description:
The "water window" is a narrow band of the x-ray spectrum where water is
relatively transparent and carbon is highly absorptive. Operating within that
wavelength regime, the Water Window Imaging X-ray Microscope will make it
possible to investigate carbon structures, and possibly even observe the
motions of these structures, within the aqueous environment of living cells.
Working through a Technology Utilization applications project, a Marshall
Center scientist is developing a prototype microscope. Patents have been
issued to NASA and private sector interest in licensing the product has already
surfaced although final tests to prove the concept are not expected until 1993.
The microscope, if it proves successful, is expected to have a tremendous
impact on cell biology and genetic engineering possibly providing clues to the
fundamental nature of life.
Benefits: Humanitarian benefits from new advances in cell biology and
perhaps even understanding the dynamics of cancer growth.
TECHNOLOGY UTILIZATION PROJECT
WHEELCHAIR IMPROVEMENTS
NASA Technology: Composites and Structural Design
Participants:
Marshall Space Flight Center
Research Triangle Institute
Easter Seal Society
Description:
A problem statement initiated by the Easter Seal Society resulted in a Marshall
Center TU Office sponsored project to design a softer ride for wheelchairs and
a project to design a racing wheelchair using composite materials. Doug
Kennedy, a nationally known wheelchair racer, agreed to participate in the
"Wheelchair suspension" project. As a result of discussions with contractor
and MSFC laboratory personnel, Kennedy and MSFC and Contractor personnel
started a separate project to redesign Kennedy's aluminum frame racing chair
using a composites. The chair has been tested in one 10K race and, after
additional fine tuning, will be used in an international race. Representatives
from the wheelchair industry have requested new information and believe that
the composite design may be incorporated in regular chairs as well as racing
chairs.
Benefits: Lighter weight wheelchairs with softer rides.
TECHNOLOGY UTILIZATION PROJECT
THERMAL CURTAIN FOR FOOD CART
NASA Technology: Shuttle External Tank Insulation
Participants:
Marshall Space Flight Center
Martin Marietta
United Service Equipment Company (USECO)
Description:
The United Service Equipment Company in 1990 expressed the need for a
technology to use in manufacture of a Unitray Delivery Cart to maintain the
heated side of their food cart at 140-275 F, and at the same time the cooled
side at 34-40 F. An arrangement was established between USECO and Martin
Marietta Manned Space Systems in New Orleans (MMMSS). Martin investigated
concepts utilizing Space Shuttle External Tank thermal protection materials and
manufacturing processes to maintain the desired environment. A new thermal
curtain was designed for the food cart, was successfully tested and shows
product improvement by several factors.
Benefits:
Improved private sector industrial product. Potential use for the
technology in other products. Potential international sales.
TECHNOLOGY UTILIZATION PROJECT
ROBOTICS SIMULATION
NASA Technology: Advanced Robotic Simulations
Participants:
Marshall Space Flight Center
Vanderbilt University
Description:
The first robotic systems for use in the space program were developed by
producing expensive engineering prototype hardware systems. The result was
high development costs. To reduce these costs, graphic simulation of robots
and their control systems was envisioned. ROBOSIM, a joint project of the
Marshall Space Flight Center and Vanderbilt University, was developed to
simulate robotics graphically on a personal computer, reducing the cost and
opening use of the robotics software to a much wider audience. Experimental
use in the classroom at Vanderbilt and other institutions has shown that
ROBOSIM can greatly enhance the teaching of courses in robotics and advanced
automation at the undergraduate and graduate levels. A proposal is being
prepared to distribute ROBOSIM to approximately 335 colleges, universities and
engineering schools in the U.S. which currently offer courses in robotics. If
fully distributed, a user base of 10,000 students per year is possible.
Currently, high quality hands-on robotics courses are available at only a
selected few institutions. ROBOSIM is available in PC format making it
affordable for smaller schools.
Benifits: Increases U.S. technology base by making hands-on robotic
simulation more widely available to the academic community.
TECHNOLOGY UTILIZATION PROJECT
NEW AND INNOVATIVE PROSTHETIC DEVICES FOR BELOW THE ELBOW AMPUTEES
NASA Technology: Creative and Innovative Engineering
Participants:
Marshall Space Flight Center
Fourroux Orthotics & Prosthetics
Jim Carden, amputee
Ms. Amie Bradley, amputee
Description:
When Jim Carden, a retired MSFC engineer, lost his hand in a home shop
accident, he discovered that the conventional harness cable-operated harness
and hook available on the market did not allow him to continue even near normal
activities. Several engineer friends at Marshall began to investigate and,
under the auspices of the TU Office, formed an Applications Engineering group
to investigate ways to improve Carden's situation. Mrs. Amie Bradley, Arab,
Alabama, later joined the group. Custom made sockets, or sleeves which fit
over the lower arm and accept various attachments, or modalities, were
prepared. These include attachments for fishing, holding carpentry nails,
holding nail polish brushes and hair curlers, using a chain saw, gripping pots
and pans in the kitchen and many others. The team is currently searching for a
manufacturer to mass produce the items.
Benifits: Improved lifestyles for amputees and restoring them to more
normal functions.
TECHNOLOGY UTILIZATION PROJECT
OCULAR SCREENING SYSTEM
NASA Technology: Image Analysis and Processing Techniques
Participants:
Marshall Space Flight Center
Vision Research Corporation
Description:
Using technology developed during the Skylab program, a camera based system was
developed in the 1980's which allows young children to be quickly screened for
a wide range of eye problems. The system was developed under a NASA Marshall
Space Flight Center sponsored applications engineering project. It requires no
response from the child being tested and is as fast as taking a photograph,
allowing relatively inexpensive screening of large groups. The system captures
a highly-detailed image of the eyes which is then analyzed for a wide range of
problems. It is recognized as one of the best methods to screen pre-verbal and
early verbal patients. The system was patented in 1987 and a license issued by
NASA. The original firm was later acquired by Vision Research Corporation which
currently markets the system. Dozens of the OSS-C Ocular Screening Systems are
already in clinical use.
Benifits: Improved low cost health care for children, especially those
who cannot verbalize their problems.
TECHNOLOGY UTILIZATION PROJECT
LIGHTNING DETECTION AND LOCATION NETWORK
NASA Technology: Lightning Location Network
Participants:
Marshall Space Flight Center
Baron Services, Inc.
Description:
A method has been developed by Baron Services to convert lightning data
transmitted over telephone lines to be usable for television transmission and
viewing. It provides extremely accurate realtime information for tornado and
other severe storm identification and tracking. Lightning location and
protection network originally developed by NASA's Marshall Space Flight Center.
In recently developed "OmniWxNet" (Omni-Weather-Net) realtime lightning data is
combined with realtime Doppler radar information provides a sophisticated tool
for meteorologists. Baron Services has marketed the system to several local
users and expects to develop national markets.
Benefits: Improved weather data for general public, high tech test
programs, emergency management teams, etc.
TECHNOLOGY UTILIZATION PROJECT
LASER WELD BEAD TRACKING SYSTEM
NASA Technology: Space Shuttle Welding System
Participants:
Marshall Space Flight Center
Martin Marietta Manned Space Systems (MMMSS)
Applied Research, Inc. (ARI)
Copeland Industries
Description:
Technology developed at the Marshall Center for welding components of the
External tank involves an automatic system using a laser sensor to "look" at
the seam where two pieces of metal are to be joined. The laser senses minute
variations and misalignments and transmits the information through an
industrial computer to the weld head. The resulting weld bead is as near
perfect as possible. The use of the system in the private sector industrial
environment was proven through a project with the Copeland Corporation, which
produces air conditioner compressors, up to 1,200 units per shift. The system
proved successful in the Copeland plant which is considering use of the system.
ARI, which is marketing the system, has also reported a sale to an industry in
Colorado.
Benefits:
Welding operations, especially those which involve pressure vessels or
other products which must resist incursion by air or water, can benefit.
TECHNOLOGY UTILIZATION PROJECT
FLEXIBLE AGRICULTURAL ROBOTIC MANIPULATOR SYSTEM (FARMS)
NASA Technology: Robotics, Automation, End-Effector Technology
Participants:
Marshall Space Flight Center
University of Georgia
Oglevee's, Inc.
Description:
FARMS is a cooperative project to produce an automated system to perform
handling and processing of plant material in the nursery and greenhouse
industry. The industry is extremely labor intensive due to delicate nature of
many plants and shoots. Goal of the project is to develop a system for
processing of live plant material. The Marshall portion of the project is
development of a gripper/end effector and the controlling software. The
overall system is provided by Oglevee's, a large greenhouse firm, and the
testing environment and test cell setup is under the auspices of the University
of Georgia. The Marshall Center end effector/ controller determines
orientation, picks up the small cutting using predetermined pressure, and
measures the diameter and mass of the cutting. Currently, testing has been
completed and feasibility studies are underway to investigate the feasibility
of a production model for the commercial market. The potential also exists for
use of the end effector in automated systems involving thin wires and other
delicate operations.
Benefits: Automation in delicate operations usually requiring hands-on
manhours.
TECHNOLOGY UTILIZATION PROJECT
EMERGENCY VEHICLE ALERT SYSTEM
NASA Technology: Sensors, signal processing, electronics
Participants:
Marshall Space Flight Center
Gallaudet College (Hearing Impaired)
Applied Research Inc.
Description:
The Emergency Vehicle Alert System (EVAS) is an applications engineering
project of the Marshall Center TU Office. It involves the development of a
limited range transmitter to be mounted on emergency vehicles and a small
receiver in private automobiles. The purpose is to alert drivers, especially
hearing impaired, that an emergency vehicle, or other type vehicle which might
present a driving hazard, is near. The display would provide the location and
type of the emergency vehicle. The direction of the emergency vehicle is
computed and the display indicates to the driver that the emergency vehicle is
in front, behind or to either side. It could also prove useful to warn drivers
of construction, postal delivery, garbage collection, farm implement and other
large and slow moving vehicles. Prototype systems have been assembled and are
presently in the testing stage.
Benefits: Increased facilities for the handicapped.
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:3_6_2.TXT
NOTE: This file is too large {18898 bytes} for inclusion in this collection.
The first line of the file:
SHUTTLE PAYLOAD FLIGHT ASSIGNMENTS APRIL 1993
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:3_6_3.TXT
ELV PAYLOAD FLIGHT ASSIGNMENTS
(Expendable Launch Vehicle)
**** ELV PAYLOAD FLIGHT ASSIGNMENTS ****
APRIL 1993
----------+---------+------------------+-------+--------+-------------------+
DATE | CLASS | |PAYLOAD| LAUNCH | PAYLOAD |
MO YR | | LAUNCH VEH. INCL | ORBIT | SITE | |
----------+---------+------------+-----+-------+--------+-------------------+
MAY 93 | SMALL | SCOUT |90.0 | POLAR | VAFB | RADCAL |
----------+---------+------------+-----+-------+--------+-------------------+
JUN 93 | MEDIUM | ATLAS E |98.7 | SS | VAFB | NOAA-I |
----------+---------+------------+-----+-------+--------+-------------------+
OCT 93 | SMALL | SCOUT |97.0 | POLAR | VAFB | MSTI-02 |
----------+---------+------------+-----+-------+--------+-------------------+
FEB 94 | MEDIUM | DELTA II |28.7 | HE |CCAFS | WIND |
----------+---------+------------+-----+-------+--------+-------------------+
APR 94** | INTERMED| ATLAS I |28.5 | GSO |CCAFS | GOES-I |
----------+---------+------------+-----+-------+--------+-------------------+
MAY 94 | MEDIUM | ATLAS E |98.7 | SS | VAFB | NOAA-J |
----------+---------+------------+-----+-------+--------+-------------------+
MAY 94 | MEDIUM | DELTA II |90.0 | HE | VAFB | POLAR |
----------+---------+------------+-----+-------+--------+-------------------+
JUL 94 | SMALL | PEGASUS |TBD | LEO | WFF | TOMS-01 |
----------+---------+------------+-----+-------+--------+-------------------+
AUG 94 | SMALL | PEGASUS |TBD | LEO | VAFB | FAST |
----------+---------+------------+-----+-------+--------+-------------------+
DEC 94 | MEDIUM | DELTA II |98.6 | LEO | VAFB | RADARSAT |
----------+---------+------------+-----+-------+--------+-------------------+
DEC 94 | SMALL | PEGASUS |TBD | LEO | WFF | SAC-B/HETE |
----------+---------+------------+-----+-------+--------+-------------------+
MAR 95** | INTERMED| ATLAS I |28.5 | GSO |CCAFS | GOES-J |
----------+---------+------------+-----+-------+--------+-------------------+
JUN 95 | SMALL | PEGASUS |TBD | LEO | WFF | SWAS |
----------+---------+------------+-----+-------+--------+-------------------+
JUL 95 | INTERMED| ATLAS IIAS |28.5 | HE |CCAFS | SOHO |
----------+---------+------------+-----+-------+--------+-------------------+
AUG 95 | MEDIUM | DELTA II |TBD | LEO |CCAFS | XTE |
----------+---------+------------+-----+-------+--------+-------------------+
** FOR NASA PLANNING PURPOSES.
**** ELV PAYLOAD FLIGHT ASSIGNMENTS ****
APRIL 1993
----------+---------+------------------+-------+--------+-------------------+
DATE | CLASS | |PAYLOAD| LAUNCH | PAYLOAD |
MO YR | | LAUNCH VEH. INCL | ORBIT | SITE | |
----------+---------+------------+-----+-------+--------+-------------------+
FEB 96 | MEDIUM | DELTA II |TBD | PLAN |CCAFS | NEAR** |
----------+---------+------------+-----+-------+--------+-------------------+
MAR 96 | MEDIUM | DELTA II |TBD | LUNAR |CCAFS | SCOUT-01** |
----------+---------+------------+-----+-------+--------+-------------------+
JUN 96 | SMALL | PEGASUS |TBD | TBD | WFF | SMEX-04 |
----------+---------+------------+-----+-------+--------+-------------------+
JUN 96 | MEDIUM | TITAN II |98.7 | SS | VAFB | NOAA-K |
----------+---------+------------+-----+-------+--------+-------------------+
NOV 96 | MEDIUM | DELTA II |TBD | MARS |CCAFS | MESUR PATHFINDER**|
----------+---------+------------+-----+-------+--------+-------------------+
MAR 97 | MEDIUM | DELTA II |TBD | LUNAR |CCAFS | SCOUT-02** |
----------+---------+------------+-----+-------+--------+-------------------+
MAY 97 | MEDIUM | TITAN II |98.7 | SS | VAFB | NOAA-L |
----------+---------+------------+-----+-------+--------+-------------------+
MAY 97 | MEDIUM | DELTA II** |TBD | LEO | VAFB | LAGEOS III** |
----------+---------+------------+-----+-------+--------+-------------------+
JUN 97 | SMALL | PEGASUS |TBD | TBD | WFF | SMEX-05 |
----------+---------+------------+-----+-------+--------+-------------------+
AUG 97 | MEDIUM | DELTA II |TBD | HE |CCAFS | ACE |
----------+---------+------------+-----+-------+--------+-------------------+
OCT 97 | LARGE | TITAN IV |TBD | PLAN |CCAFS | CASSINI |
CENTAUR
----------+---------+------------+-----+-------+--------+-------------------+
JUN 98 | INTERMED| TBD |TBD | POLAR | VAFB | EOS-AM-1 |
----------+---------+------------+-----+-------+--------+-------------------+
JUN 98 | SMALL | PEGASUS |TBD | TBD | WFF | SMEX-06 |
----------+---------+------------+-----+-------+--------+-------------------+
AUG 98 | INTERMED| TBD |TBD | GTO |CCAFS | TDRS-F08 |
----------+---------+------------+-----+-------+--------+-------------------+
JUN 99 | MEDIUM | TITAN II 31|98.7 | SS | VAFB | NOAA-M |
----------+---------+------------+-----+-------+--------+-------------------+
AUG 99 | INTERMED| TBD |TBD | GTO |CCAFS | TDRS-F09 |
----------+---------+------------+-----+-------+--------+-------------------+
SEP 99 | MEDIUM | DELTA II |TBD | POLAR | VAFB | AXAF-S |
----------+---------+------------+-----+-------+--------+-------------------+
AUG 00 | INTERMED| TBD |TBD | GTO |CCAFS | TDRS-F10 |
----------+---------+------------+-----+-------+--------+-------------------+
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:3_6_4.TXT
PREVIOUS EXPENDABLE LAUNCH VEHICLE FLIGHTS
PREVIOUS SCOUT VEHICLE FLIGHTS
PROGRAM INITIATION DATE: 1959 LAUNCHES TO DATE: 116
FIRST FLIGHT: 1960 LAUNCH VEHICLE SUCCESSES: 102
LAST 20 FLIGHTS
-----------+-----------------+--------------------+----------------+--------
| | | FINAL PAYLOAD |
LAUNCH DATE| FLIGHT NUMBER | SPACECRAFT | ORBIT ACHIEVED | NOTES
-----------+-----------------+--------------------+----------------+--------
27-OCT-77 | S-200 | NAVY | LEO | SUCCESS
26-APR-78 | S-201 | HCMM | LEO | SUCCESS
18-FEB-79 | S-202 | SAGE | LEO | SUCCESS
2-JUN-79 | S-198 | UK-6 | LEO | SUCCESS
30-OCT-79 | S-203 | MAGSAT | LEO | SUCCESS
-----------+-----------------+--------------------+----------------+--------
14-MAY-81 | S-192 | NOVA I | LEO | SUCCESS
27-JUN-83 | S-205 | HILAT | LEO | SUCCESS
11-OCT-84 | S-208 | NOVA-III | LEO | SUCCESS
2-AUG-85 | S-209 | SOOS-I | LEO | SUCCESS
12-DEC-85 | S-207 | AFITV | LEO | SUCCESS
-----------+-----------------+--------------------+----------------+--------
13-NOV-86 | S-199 | AF POLAR BEAR | LEO | SUCCESS
16-SEP-87 | S-204 | SOOS-II | LEO | SUCCESS
25-MAR-88 | S-206 | SAN MARCO-DL | LEO | SUCCESS
25-APR-88 | S-211 | SOOS-III | LEO | SUCCESS
15-JUN-88 | S-213 | NOVA-II | LEO | SUCCESS
-----------+-----------------+--------------------+----------------+--------
25-AUG-88 | S-214 | SOOS-IV | LEO | SUCCESS
9-MAY-90 | S-212 | MACSAT | LEO | SUCCESS
29-JUN-91 | S-216 | REX | LEO | SUCCESS
3-JUL-92 | S-215 | SAMPEX | LEO | SUCCESS
21-NOV-92 | S-210 | MSTI-I | LEO | SUCCESS
-----------+-----------------+--------------------+----------------+--------
PREVIOUS DELTA VEHICLE FLIGHTS
PROGRAM INITIATION DATE: 1959 LAUNCHES TO DATE: 218
FIRST FLIGHT: 1960 LAUNCH VEHICLE SUCCESSES: 206
LAST 20 FLIGHTS
-----------+-----------------+--------------------+----------------+--------
| | | FINAL PAYLOAD |
LAUNCH DATE| FLIGHT NUMBER | SPACECRAFT | ORBIT ACHIEVED | NOTES
-----------+-----------------+--------------------+----------------+--------
30-OCT-90 | 200 | INMARSAT-2/F1 | GSO | SUCCESS
26-NOV-90 | 201 | NAVSTAR-10 | GSO | SUCCESS
7-JAN-91 | 202 | NATO-IVA | GSO | SUCCESS
8-MAR-91 | 203 | INMARSAT-2/F2 | GSO | SUCCESS
12-APR-91 | 204 | ASC-2/CONTEL | GSO | SUCCESS
-----------+-----------------+--------------------+----------------+--------
29-MAY-91 | 205 | AURORA II | GSO | SUCCESS
3-JUL-91 | 206 | NAVSTAR-11 | GSO | SUCCESS
23-FEB-92 | 207 | NAVSTAR-12 | GSO | SUCCESS
9-APR-92 | 208 | NAVSTAR-13 | GSO | SUCCESS
13-MAY-92 | 209 | PALAPA-B4 | GSO | SUCCESS
-----------+-----------------+--------------------+----------------+--------
7-JUN-92 | 210 | EUVE | LEO | SUCCESS
7-JUL-92 | 211 | NAVSTAR-14 | GSO | SUCCESS
24-JUL-92 | 212 | GEOTAIL | HEEO | SUCCESS
31-AUG-92 | 213 | SATCOM C-4 | GSO | SUCCESS
9-SEP-92 | 214 | NAVSTAR-15 | GSO | SUCCESS
-----------+-----------------+--------------------+----------------+--------
12-OCT-92 | 215 | DFS KOPERNIKUS | GSO | SUCCESS
22-NOV-92 | 216 | NAVSTAR-16 | GSO | SUCCESS
18-DEC-92 | 217 | NAVSTAR-17 | GSO | SUCCESS
2-FEB-93 | 218 | NAVSTAR-18 | GSO | SUCCESS
29-MAR-93 | 219 | GPS-1 | GSO | SUCCESS
-----------+-----------------+--------------------+----------------+--------
PREVIOUS ATLAS CENTAUR VEHICLE FLIGHTS
PROGRAM INITIATION DATE: 1958 LAUNCHES TO DATE: 76
FIRST FLIGHT: 1962 LAUNCH VEHICLE SUCCESSES: 63
LAST 20 FLIGHTS
-----------+-----------------+--------------------+----------------+--------
| | | FINAL PAYLOAD |
LAUNCH DATE| FLIGHT NUMBER | SPACECRAFT | ORBIT ACHIEVED | NOTES
-----------+-----------------+--------------------+----------------+--------
15-DEC-81 | 58 | INTELSAT V | GSO | SUCCESS
4-MAR-82 | 59 | INTELSAT V | GSO | SUCCESS
28-SEP-82 | 60 | INTELSAT V | GSO | SUCCESS
19-MAY-83 | 61 | INTELSAT V | GSO | SUCCESS
9-JUN-84 | 62 | INTELSAT V | | FAILURE
-----------+-----------------+--------------------+----------------+--------
22-MAR-85 | 63 | INTELSAT VA | GSO | SUCCESS
29-JUN-85 | 64 | INTELSAT VA | GSO | SUCCESS
28-SEP-85 | 65 | INTELSAT VA | GSO | SUCCESS
4-DEC-86 | 66 | FLTSATCOM-7 | GSO | SUCCESS
26-MAR-87 | 67 | FLTSATCOM-6 | | FAILURE
-----------+-----------------+--------------------+----------------+--------
25-SEP-89 | 68 | FLTSATCOM-8 | GSO | SUCCESS
25-JUL-90 | 69 | CRRES | GTO | SUCCESS
18-APR-91 | 70 | BS-3H | | FAILURE
7-DEC-91 | 71 | EUTELSAT II F3 | GSO | SUCCESS
10-FEB-92 | 72 | DSCS-3 F1 | GSO | SUCCESS
-----------+-----------------+--------------------+----------------+--------
13-MAR-92 | 73 | GALAXY V | GSO | SUCCESS
9-JUN-92 | 74 | INTELSAT-K | GSO | SUCCESS
2-JUL-92 | 75 | DSCS-3 F2 | GSO | SUCCESS
22-AUG-92 | 76 | GALAXY 1R | | FAILURE
25-MAR-93 | 77 | UHF-F1 | | FAILURE
-----------+-----------------+--------------------+----------------+--------
PREVIOUS COMMERCIAL TITAN III FLIGHTS
PROGRAM INITIATION DATE: 1987 LAUNCHES TO DATE: 4
FIRST FLIGHT: 1989 LAUNCH VEHICLE SUCCESSES: 3
ALL FLIGHTS
-----------+-----------------+--------------------+----------------+--------
| | | FINAL PAYLOAD |
LAUNCH DATE| FLIGHT NUMBER | SPACECRAFT | ORBIT ACHIEVED | NOTES
-----------+-----------------+--------------------+----------------+--------
31-DEC-89 | 1 | JCSAT/SKYNET | GSO | SUCCESS
14-MAR-90 | 2 | INTELSAT VI/F3 | * | FAILURE
23-JUN-90 | 3 | INTELSAT VI/F4 | GSO | SUCCESS
25-SEP-92 | 4 | MARS OBSERVER | PLANETARY | SUCCESS
-----------+-----------------+--------------------+----------------+--------
*Retrieved by Space Shuttle Endeavour in May 1992 and successfully
boosted into geosynchronous orbit.
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:3_6_5.TXT
NOTE: This file is too large {24654 bytes} for inclusion in this collection.
The first line of the file:
PAYLOAD REQUESTS
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:3_6_6.TXT
NOTE: This file is too large {82152 bytes} for inclusion in this collection.
The first line of the file:
PAYLOAD/ACRONYM LIST
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:3_6_7.TXT
MIXED FLEET MANIFEST NOTES
O THIS MANIFEST SERVES AS THE BASELINE FOR PLANNING PURPOSES. IT INCLUDES
PAYLOAD FLIGHT ASSIGNMENTS FOR THE SPACE SHUTTLE THROUGH FISCAL YEAR 1995
AND NASA EXPENDABLE LAUNCH VEHICLE (ELV) MISSIONS THROUGH FY 1999.
NOTE: THE FY 96-99 SHUTTLE MANIFEST PLANNING IS OMITTED PENDING SPACE
STATION REDESIGN. THE PLAN UNDER REVIEW ASSUMES A FLIGHT RATE OF EIGHT
FLIGHTS PER YEAR.
O SPACE SHUTTLE LAUNCH DATES ARE SHOWN BY MONTH AND/OR QUARTER AND REPRESENT
REASONABLE EXPECTATION AS TO WHEN THE LAUNCH WILL OCCUR; HOWEVER IN MOST
CASES, NASA'S INTERNAL PLANNING WILL BE AGAINST EARLIER LAUNCH DATE
TARGETS.
O PRIMARY AND COMPLEX SECONDARY SPACE SHUTTLE PAYLOAD FLIGHT ASSIGNMENTS ARE
BASELINED IN THE SPACE SHUTTLE PROGRAM CONTROL DOCUMENTATION APPROXIMATELY
17 MONTHS PRIOR TO LAUNCH. OTHER SECONDARY PAYLOAD ASSIGNMENTS ARE
NORMALLY BASELINED 8 TO 12 MONTHS PRIOR TO LAUNCH. NOTE: ONCE BASELINED,
THE FLIGHT NUMBERS ARE MAINTAINED WITH THE PRIMARY PAYLOAD; THESE
BASELINED FLIGHTS MAY NOT REMAIN IN NUMERICAL ORDER WITH SUBSEQUENT
MANIFEST CHANGES.
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:3_6_8.TXT
NOTE: This file is too large {35928 bytes} for inclusion in this collection.
The first line of the file:
PREVIOUS SPACE SHUTTLE FLIGHTS
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:3_6_9.TXT
NOTE: This file is too large {177052 bytes} for inclusion in this collection.
The first line of the file:
NASA MIXED FLEET PAYLOAD FLIGHT ASSIGNMENTS APRIL 1993
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:6_2_18_5.TXT
NOTE: This file is too large {27551 bytes} for inclusion in this collection.
The first line of the file:
- Current Two-Line Element Sets #207 -
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:6_2_2_45_6.TXT
STS-57 TV SKED, REV C
***********************************************************************
NASA SELECT TV SCHEDULE
STS-57
6/10/93
Rev C
***********************************************************************
NASA Select programming can be accessed through GE Satcom F2R, transponder 13.
The frequency is 3960 MHz with an orbital position of 72 degrees West
Longitude. This is a full transponder service and will be operational 24 hours
a day.
Two hour edited programs of each flight day will be replayed for Hawaii and
Alaska on Spacenet 1, transponder 17L, channel 18. The orbital position is 120
degrees West Longitude, with a frequency of 4060 MHz. Audio is on 6.8 MHz. The
programs will begin on launch day and continue through landing airing at
11:01PM Central Time.
This NASA Select Television Schedule of mission coverage is available on
COMSTORE, the mission TV schedule computer bulletin board service. Call
713/483-5817, and follow the prompts to access this service.
------------------------ Thursday, June 17 ----------------------------
L-3 Days
SUBJECT SITE CDT
------- ---- ---
COUNTDOWN STATUS BRIEFING KSC TBD
CREW ARRIVAL KSC TBD
------------------------- Friday, June 18 -----------------------------
L-2 Days
NOTE: TIMES AND BRIEFINGS MAY CHANGE.
COUNTDOWN STATUS BRIEFING KSC 8:00 AM
SPACEHAB PAYLOADS BRIEFING KSC 8:30 AM
SPACEHAB PAYLOADS BRIEFING KSC 12:30 PM
SPACEHAB PAYLOADS BRIEFING JSC 1:00 PM
SPACEHAB PAYLOADS BRIEFING KSC 1:30 PM
------------------------- Saturday, June 19 ---------------------------
L-1 Day
NOTE: TIMES AND BRIEFINGS MAY CHANGE.
COUNTDOWN STATUS BRIEFING KSC 8:00 AM
EURECA BRIEFING KSC 8:30 AM
OACT/SPACEHAB BRIEFING KSC 9:00 AM
GAS BRIEFING KSC 9:30 AM
SHOOT BRIEFING KSC 10:30 AM
PRE-LAUNCH NEWS CONFERENCE KSC 11:45 AM
-------------------------- Sunday, June 20 ----------------------------
FD1
ORBIT SUBJECT SITE MET CDT
----- ------- ---- --- ---
NASA SELECT COVERAGE BEGINS KSC 04:00 AM
LAUNCH KSC 00/00:00 08:37 AM
NASA SELECT ORIGINATION SWITCHED JSC 00/00:08 08:45 AM
TO JSC
MECO JSC 00/00:08 08:45 AM
1 NASA SELECT ORIGINATION SWITCHED KSC 00/00:13 08:50 AM
TO KSC
1 LAUNCH REPLAYS WILL OCCUR KSC 00/00:13 08:50 AM
APPROX. 5 MIN. AFTER MECO
(T=30:00)
1 POST LAUNCH PRESS CONFERENCE KSC 00/00:53 09:30 AM
1 NASA SELECT ORIGINATION SWITCHED JSC 00/01:28 10:05 AM
TO JSC
2 SPACEHAB ACTIVATION 00/02:30 11:07 AM
(Not Televised)
3 Ku BAND ANTENNA DEPLOY 00/03:15 11:52 AM
(Not televised)
3 MISSION UPDATE JSC 00/03:23 12:00 PM
4 VTR DUMP OPPORTUNITY/CREW CHOICE TDRE 00/05:45 02:22 PM
T=10:00
4 NASA SELECT ORIGINATION SWITCHED KSC 00/06:23 03:00 PM
TO KSC
4 ENGINEERING LAUNCH REPLAYS KSC 00/06:23 03:00 PM
(T=30:00)
5 NASA SELECT ORIGINATION SWITCHED JSC 00/06:53 03:30 PM
TO JSC
6 CREW SLEEP 00/08:30 05:07 PM
7 REPLAY OF FD1 ACTIVITIES JSC 00/10:23 07:00 PM
--------------------------- Monday, June 21 ---------------------------
FD2
NOTE: ADDITIONAL SPACEHAB ACTIVITIES MAY BE DOWNLINKED
THROUGOUT THE DAY.
11 CREW WAKE UP 00/16:30 01:07 AM
14 P/TV02 LEMZ-1 ACTIVATION TDRW 00/21:10 05:47 AM
T=5:00
15 P/TV02 EFE ACTIVATION TDRW 00/22:26 07:03 AM
T=15:00
16 P/TV01 RMS CHECKOUT TDRE 01/00:28 09:05 AM
T=30:00
17 P/TV02 SCG OPERATIONS TDRE 01/01:20 09:57 AM
T=20:00
17 P/TV01 RMS PAYLOAD BAY SURVEY TDRE 01/01:20 09:57 AM
T=18:00
(May be pre-empted by SCG science tv
and the MSB)
17 * MISSION STATUS BRIEFING JSC 01/01:23 10:00 AM
18 P/TV02 SPACEHAB ACTIVITIES TDRE/W 01/02:50 11:27 AM
T=20:00
18 MISSION UPDATE JSC 01/03:23 12:00 PM
22 CREW SLEEP 01/08:30 05:07 PM
24 REPLAY OF FD2 ACTIVITIES JSC 01/10:23 07:00 PM
-------------------------- Tuesday, June 22 ---------------------------
FD3
NOTE: ADDITIONAL SPACEHAB ACTIVITIES MAY BE DOWNLINKED
THROUGHOUT THE DAY.
27 CREW WAKE UP 01/16:30 01:07 AM
30 P/TV02 TDS-SE SOLDER ACTIVITY TDRW 01/22:07 06:44 AM
T=10:00
31 P/TV02 TDS-SE SOLDER ACTIVITY TDRE 01/22:17 06:54 AM
T=50:00
32 * MISSION STATUS BRIEFING JSC 02/00:23 09:00 AM
34 P/TV06 BELO STATIONS INTERVIEW TDRW 02/03:05 11:42 AM
T=15:00
34 MISSION UPDATE JSC 02/03:23 12:00 PM
34 P/TV02 LEMZ ACTIVITY TDRE 02/03:50 12:27 PM
T=5:00
35 P/TV05 EMU CHECKOUT DOWNLINK TDRE 02/04:55 01:32 PM
OPPORTUNITY
T=59:00
(May not be televised/crew choice)
37 CREW SLEEP 02/08:00 04:37 PM
35 REPLAY OF FD3 ACTIVITIES JSC 02/10:23 07:00 PM
------------------------- Wednesday, June 23 --------------------------
FD4
NOTE: TELEVISION DOWNLINK OF EURECA RETRIEVAL ACTIVITIES
WILL OCCUR ORBITS 44 - 49 AS TDRSS AND GSTDN
COVERAGE ALLOWS. ADDITIONAL SPACEHAB ACTIVITIES
MAY ALSO BE DOWNLINKED.
42 CREW WAKE UP 02/16:00 12:37 AM
44 P/TV02 EFE OPERATIONS TDRE 02/19:00 03:37 AM
T=20:00
44 ORBITER NH BURN (Not Televised) 02/19:24 04:01 AM
45 ORBITER NC4 BURN (Not Televised) 02/20:11 04:48 AM
45 RENDEZVOUS DOWNLINK OPPORTUNITY MIL 02/20:14 04:51 AM
T=14:00
46 Ku BAND TO RADAR MODE (Not Televised) 02/21:15 05:52 AM
46 RENDEZVOUS DOWNLINK OPPORTUNITY MIL 02/21:53 06:30 AM
T=9:00
46 ORBITER NCC BURN (Not Televised) 02/22:20 06:57 AM
47 Ti BURN (Not Televised) 02/23:19 07:56 AM
47 RENDEZVOUS DOWNLINK OPPORTUNITY GDS, 02/23:27 08:04 AM
T=17:00 MIL
47 RMS POISE FOR CAPTURE (Not Televised) 02/23:32 08:09 AM
48 RENDEZVOUS DOWNLINK OPPORTUNITY GDS, 03/01:05 09:42 AM
T=22:00 MIL
48 Ku BAND TO COMM (Not Televised) 03/01:15 09:52 AM
48 P/TV07 EURECA GRAPPLE TDRE 03/01:35 10:12 AM
48 P/TV07 EURECA BERTH (Not Televised) 03/02:00 10:37 AM
49 P/TV07 EURECA BERTH CON'T TDRE 03/02:43 11:20 AM
T=32:00
49 MISSION UPDATE JSC 03/03:23 12:00 PM
50 P/TVO7 VTR DUMP OPPORTUNITY TDRW 03/04:22 12:59 PM
CREW CHOICE
50 MISSION STATUS BRIEFING JSC 03/05:23 02:00 PM
52 CREW SLEEP 03/08:00 04:37 PM
54 REPLAY OF FD4 ACTIVITIES JSC 03/10:23 07:00 PM
------------------------- Thursday, June 24 ---------------------------
FD5
NOTE: TELEVISION DOWNLINK OF EVA ACTIVITIES WILL OCCUR
ORBITS 59 - 65 AS TDRSS COVERAGE ALLOWS. SPACEHAB
ACTIVITIES MAY ALSO BE DOWNLINKED.
57 CREW WAKE UP 03/16:00 12:37 AM
58 P/TV05 EVA PREP DOWNLINK TDRW 03/18:00 02:37 AM
OPPORTUNITY
T=10:00
59 P/TV05 EVA PREP DOWNLINK TDRE/W 03/18:25 03:02 AM
OPPORTUNITY
T=55:00
62 P/TV05 EVA PREP DOWNLINK TDRW 03/23:00 07:37 AM
OPPORTUNITY
T=10:00
62 P/TV05 AIRLOCK DEPRESS TDRE 03/23:40 08:17 AM
T=7:00
62 P/TV05 AIRLOCK EGRESS (Not Televised) 04/00:00 08:37 AM
EVA BEGINS
63 EVA & RMS ACTIVITIES TDRW/E 04/00:22 08:59 AM
T=63:00
64 EVA & RMS ACTIVITIES TDRW/E 04/01:45 10:22 AM
T=56:00
65 EVA & RMS ACTIVITIES TDRW/E 04/03:26 12:03 PM
T=32:00
65 AIRLOCK INGRESS TDRE 04/04:00 12:37 PM
T=5:00
65 MISSION UPDATE JSC 04/04:53 01:30 PM
65 MISSION STATUS BRIEFING JSC 04/06:23 03:00 PM
67 CREW SLEEP 04/08:00 04:37 PM
69 REPLAY OF FD5 ACTIVITIES JSC 04/10:23 07:00 PM
--------------------------- Friday, June 25 ---------------------------
FD6
NOTE: ADDITIONAL SPACEHAB ACTIVITIES MAY BE DOWNLINKED
THROUGHOUT THE DAY.
73 CREW WAKE UP 04/16:00 12:37 AM
75 P/TV02 EFE ACTIVITIES TDRE 04/19:50 04:27 AM
T=10:00
76 P/TV02 EFE ACTIVITIES TDRW 21:45 06:22 AM
T=15:00 (May not have Ku coverage)
78 * MISSION STATUS BRIEFING JSC 04/23:53 08:30 AM
78 P/TV08 FARE TEST #5 DOWNLINK TDRW 05/00:00 08:37 AM
OPPORTUNITY (May be pre-empted
by MSB)
T=19:00
78 P/TV02 LEMZ-3 ACTIVITIES TDRW 05/01:03 09:40 AM
T=5:00
80 MISSION UPDATE JSC 05/03:23 12:00 PM
80 P/TV06 CNN INTERVIEW TDRW 05/03:45 12:22 PM
T=15:00
82 CREW SLEEP 05/07:00 03:37 PM
84 REPLAY OF FD6 ACTIVITIES JSC 05/10:23 07:00 PM
87 CREW WAKE UP 05/15:00 11:37 PM
------------------------- Saturday, June 26 ---------------------------
FD7
NOTE: ADDITIONAL SPACEHAB ACTIVITIES MAY BE DOWNLINKED
THROUGHOUT THE DAY.
90 P/TV02 EFE ACTIVITIES TDRE 05/19:00 03:37 AM
T=15:00
92 * MISSION STATUS BRIEFING JSC 05/23:53 08:30 AM
92 P/TV02 LEMZ-4 ACTIVITIES TDRE 06/00:00 08:37 AM
T=5:00
95 MISSION UPDATE JSC 06/03:23 12:00 PM
96 CREW SLEEP 06/06:00 02:37 PM
99 REPLAY OF FD7 ACTIVITIES JSC 06/09:23 06:00 PM
102 CREW WAKE UP 06/14:00 10:37 PM
-------------------------- Sunday, June 27 ----------------------------
FD8
NOTE: SPACEHAB ACTIVITIES MAY BE DOWNLINKED THROUGOUT THE DAY.
107 CREW CONFERENCE TDRW 06/22:00 06:37 AM
T=30:00
108 * MISSION STATUS BRIEFING JSC 06/23:53 08:30 AM
110 Ku BAND STOW 07/02:20 10:57 AM
(Not televised)
110 MISSION UPDATE JSC 07/03:23 12:00 PM
112 CREW SLEEP 07/05:30 02:07 PM
114 REPLAY OF FD8 ACTIVITIES JSC 07/09:23 06:00 PM
117 CREW WAKE UP 07/13:30 10:07 PM
---------------------------- Monday, June 28 --------------------------
FD9
122 DEORBIT BURN (Not Televised) 07/21:48 06:25 AM
123 LANDING KSC 07/22:56 07:33 AM
POST LANDING PRESS CONFERENCE KSC L+TBD
LANDING REPLAYS KSC L+TBD
------------------------ DEFINITION OF TERMS -----------------------
CAN-DO: Variety of experiments located in two canisters in payload bay
CDT: Central Daylight Time
EFE: Environmental control and life support system Flight Experiment
EURECA: European Retrievable Carrier
EVA: Extra-vehicular activity
FARE: Fluid Acquisition and Resupply Experiment
FD: Flight Day
GBA: GAS Bridge Assembly
GDS: Goldstone Tracking Station
GSTDN: Ground Spacecraft Tracking and Data Network
JSC: Johnson Space Center
KSC: Kennedy Space Center
LEMZ: Liquid Encapsulated Melt Zone
MECO: Main Engine Cut-off
MET: Mission elapsed Time. The time which begins at the moment
of launch and is read: Days/Hours:minutes. Launch= 00/00:00
MIL: Merrit Island Tracking Station
MSB: Mission Status Briefing
NC4: Orbital correction burn
NCC: Orbital correction burn
NH: Orbital height adjustment burn
TI: Terminal Initiation burn
P/TV: Photo/Television Scene
RMS: Remote Manipulator System
SCG: Solution Crystal Growth
SPACEHAB:Commercial module carried in payload bay
STS: Space Transportation System
TDS-SOLDER:Tools and Diagnostic System Solder
TDRE,W: Tracking and Data Relay Satellite, both East and West longitudes
TDRSS: Tracking and Data Relay Satellite System
T=: Time event duration equals
VTR: Video Tape Recorder
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=--=START=--=--= NASA Spacelink File Name:6_8_2_5_18.TXT
Galileo Status 5/28/93 thru 6/8/93
GALILEO
MISSION DIRECTOR STATUS REPORT
POST-LAUNCH
May 28 - June 3, 1993
SPACECRAFT
1. On May 31, cruise science Memory Readouts (MRO) were performed for the
Magnetometer (MAG) instrument. Preliminary analysis indicates the data was
received properly.
2. On June 1, at the beginning of the DSS-63 (Madrid 70 meter antenna) pass,
the CDU (Command Data Unit) lock count had unexpectedly increased 2 DN from its
previous value the day before. This change apparently occurred between the
DSS-63 end of track on May 31 and the DSS-63 beginning of track on June 1.
3. On June 1, a NO-OP command was sent to reset the command loss timer to 264
hours, its planned value for this mission phase.
4. On June 1, cruise science Memory Readouts (MROs) were performed for the
Extreme Ultraviolet Spectrometer (EUV) and Dust Detector (DDS) instruments.
Preliminary analysis indicates the data was received properly.
5. On June 2 and 3, Attitude and Articulation Control Subsystem (AACS)
calibration data was collected on the spin detector, gyros, wobble, spin
bearing assembly drag, and accelerometers.
6. On June 3, a Delayed Action Command (DAC) was transmitted which will turn
ranging on Friday, June 4, 1993. This command was sent to support checkout of
new ground hardware and software modifications at DSS-14 (Goldstone 70 meter
antenna).
7. The AC/DC bus imbalance measurements have not exhibited significant change
(greater than 25 DN) throughout this period. The AC measurement reads 19 DN
(4.3 volts). The DC measurement reads 143 DN (16.8 volts). These measurements
are consistent with the model developed by the AC/DC special anomaly team.
8. The Spacecraft status as of June 3, 1993, is as follows:
a) System Power Margin - 70 watts
b) Spin Configuration - Dual-Spin
c) Spin Rate/Sensor - 3.15rpm/Star Scanner
d) Spacecraft Attitude is approximately 28 degrees
off-sun (lagging) and 2 degree off-earth (lagging)
e) Downlink telemetry rate/antenna- 40bps(coded)/LGA-1
f) General Thermal Control - all temperatures within
acceptable range
g) RPM Tank Pressures - all within acceptable range
h) Orbiter Science- Instruments powered on are the PWS,
EUV, UVS, EPD, MAG, HIC, and DDS
i) Probe/RRH - powered off, temperatures within
acceptable range
j) CMD Loss Timer Setting - 264 hours
Time To Initiation - 260 hours
UPLINK GENERATION/COMMAND REVIEW AND APPROVAL:
1. The High Gain Antenna (HGA) downlink test mini-sequence was approved by the
Project on June 3, 1993. This mini-sequence covers spacecraft activities from
June 22 to June 25, 1993.
GDS (Ground Data Systems):
1. Galileo participated in a successful MOSO System Test of MGDS V18.1 Command
on May 27, using DSS-42 (Canberra 34 meter antenna). Galileo was able to
translate, interact with the MOSO PDB, transmit to the CPA (Command Processor
Assembly), and radiate command files. Monitor 5-9 data was displayed and
appeared correct. Monitor 5-15 data were not tested; the DSN (Deep Space
Network) NOCC (Network Operations Control Center) upgrade to support the
Galileo interface is scheduled for June 7. The MOSO Functional Area and System
Test Reviews (FATR/STR) for MGDS Command V18.1 is scheduled for June 15, 1993.
TRAJECTORY
As of noon Thursday, June 3, 1993, the Galileo Spacecraft trajectory
status was as follows:
Distance from Earth 287,221,300 km (1.92 AU)
Distance from Sun 341,692,100 km (2.29 AU)
Heliocentric Speed 80,000 km per hour
Distance from Jupiter 475,188,300 km
Round Trip Light Time 32 minutes, 2 seconds
SPECIAL TOPIC
1. As of June 3, 1993, a total of 70364 real-time commands have been
transmitted to Galileo since Launch. Of these, 65252 were initiated in the
sequence design process and 5112 initiated in the real-time command process.
In the past week, two real time commands were transmitted; one was initiated in
the sequence design process and one initiated in the real-time command process.
Major command activities included commands to reset the command loss timer and
to turn ranging on.
GALILEO STATUS REPORT
June 3, 1993
The Galileo Spacecraft is operating normally in the dual-spin mode and is
transmitting coded telemetry at 40 bps (bits/second).
Yesterday, AACS (Attitude and Articulation Control Subsystem) calibration
data collection was performed, as scheduled. Tracking was scheduled over
DSS-63 (Madrid 70 meter antenna).
Today, June 3, 1993, the AACS calibration data collection is continuing.
Tracking is again scheduled over DSS-63.
Tomorrow, cruise science memory readouts are scheduled. Tracking is
scheduled over DSS-14 (Goldstone 70 meter antenna). .
GALILEO STATUS REPORT
June 4, 1993
The Galileo Spacecraft is operating normally in the dual-spin mode and is
transmitting coded telemetry at 40 bps (bits/second).
Yesterday, AACS (Attitude and Articulation Control Subsystem) calibration
data collection was performed, as planned. Tracking was scheduled over DSS-63
(Madrid 70 meter antenna).
Today, June 4, 1993, cruise science memory readouts are scheduled.
Tracking is scheduled over DSS-14 (Goldstone 70 meter antenna).
Over the weekend, no spacecraft activity is scheduled. Tracking is
scheduled over DSS-63 on Saturday. No tracking is scheduled on Sunday.
.
GALILEO STATUS REPORT
June 7, 1993
The Galileo Spacecraft is operating normally in the dual-spin mode and is
transmitting coded telemetry at 40 bps (bits/second).
Over the weekend, no spacecraft activity was scheduled. However, tracking
was scheduled over DSS-63 (Madrid 70 meter antenna) on Saturday.
Today, June 7, 1993, cruise science memory readouts are scheduled, along
with a USO (Ultra Stable Oscillator) test. Real-time commands are scheduled to
update the acquisition sensor parameters. A tape recorder conditioning
activity is also scheduled. Delta DOR (Differential One-way Range) passes are
scheduled over DSS-14 (Goldstone 70 meter antenna) and DSS-63, and DSS-14 and
DSS-43 (Canberra 70 meter antenna). Tracking is scheduled over DSS-63, DSS-14
and DSS-43.
Tomorrow, a HIC (Heavy Ion Counter) memory readout is scheduled. Tracking
is scheduled over DSS-14, DSS-43 and DSS-63.
.
GALILEO STATUS REPORT
June 8, 1993
The Galileo Spacecraft is operating normally in the dual-spin mode and is
transmitting coded telemetry at 40 bps (bits/second).
Yesterday, cruise science memory readouts were performed, along with an
USO (Ultra Stable Oscillator) test. Real-time commands were sent to update the
acquisition sensor parameters. A tape recorder conditioning activity was also
performed. Delta DOR (Differential One-way Range) passes were performed over
DSS-14 (Goldstone 70 meter antenna) and DSS-63 (Madrid 70 meter antenna), and
DSS-14 and DSS-43 (Canberra 70 meter antenna). Tracking was scheduled over
DSS-63, DSS-14 and DSS-43.
Today, June 8, 1993, a HIC (Heavy Ion Counter) engineering memory readout
is being performed. Tracking is scheduled over DSS-14, DSS-43 and DSS-63.
Tomorrow, no spacecraft activity is scheduled. Tracking is scheduled over
DSS-14. .
.
Source:NASA Spacelink Modem:205-895-0028 Internet:192.149.89.61
=--=--=-END-=--=--=
=--=END OF COLLECTION---COLLECTED 14 FILES---COMPLETED 21:10:26=--=