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Date: Fri,  1 Feb 91 01:36:44 -0500 (EST)
Subject: SPACE Digest V13 #096

SPACE Digest                                      Volume 13 : Issue 96

Today's Topics:
			  Asteroid Near Miss
			       Schools
		      Galileo Update - 01/25/91
		      Redundancy vs reliability
		       * SpaceNews  28-Jan-91 *
		 POTENTIAL GEOMAGNETIC STORM WARNING

Administrivia:

    Submissions to the SPACE Digest/sci.space should be mailed to
  space+@andrew.cmu.edu.  Other mail, esp. [un]subscription requests,
  should be sent to space-request+@andrew.cmu.edu, or, if urgent, to
			 tm2b+@andrew.cmu.edu

----------------------------------------------------------------------

Date: 25 Jan 91 21:18:05 GMT
From: swrinde!elroy.jpl.nasa.gov!jato!mars.jpl.nasa.gov!baalke@ucsd.edu  (Ron Baalke)
Subject: Asteroid Near Miss

New York Times -- 1/25/91
"Astronomers Duck as a Tiny Asteroid Passes"
By John Wilford
 
"Astronomers scanning the sky a week ago were astonished to 
see a small asteroid streaking by Earth, within less than half 
the distance to the Moon.  It was the smallest, closest asteroid 
ever observed passing safely by Earth."
 
The story says the observations were made last Thursday night 
and Friday morning by members of the Spacewatch team from 
the University of Arizona.  The paper explains that Spacewatch 
is a regular vigil of tracking asteroids that may be coming 
perilously close to Earth and uses sophisticated and sensitive 
electronic detectors.
 
The story cites the Spacewatch chief astronomer, Dr. Tom 
Gehrels, and his belief that the asteroid in question would not 
visit the vicinity of Earth again, but rather was tied to the 
gravity field of Venus and likely would eventually enter into 
Venus' atmosphere.
 
The Times says this asteroid was estimated to be about 30 feet
in diameter and came within 106,000 miles of the Earth and
that the previous closest call was from an asteroid of about a
half-mile in diameter which passed within 500,000 miles of
earth in March 1989.
      ___    _____     ___
     /_ /|  /____/ \  /_ /|      Ron Baalke         | baalke@mars.jpl.nasa.gov
     | | | |  __ \ /| | | |      Jet Propulsion Lab | 
  ___| | | | |__) |/  | | |___   M/S 301-355        | It's 10PM, do you know
 /___| | | |  ___/    | |/__ /|  Pasadena, CA 91109 | where your spacecraft is?
 |_____|/  |_|/       |_____|/                      | We do!

------------------------------

Date: 25 Jan 91 20:03:12 GMT
From: prism!hamlet!bcomisky@gatech.edu  (William J. Comisky)
Subject: Schools


I was wondering which schools are acknowledged as having the best
astronomy and/or astrophysics programs, both graduate and 
undergraduate  . . . Anyone?


--
William J. Comisky  (GTRI/STL/MSD)             (404) 528-7xxx
Georgia Institute of Technology, Atlanta Georgia, 30332
uucp:     ...!{allegra,amd,hplabs,ut-ngp}!gatech!msd!bcomisky
Internet: bcomisky@msd.gatech.edu

------------------------------

Date: 26 Jan 91 00:00:38 GMT
From: sdd.hp.com!elroy.jpl.nasa.gov!jato!mars.jpl.nasa.gov!baalke@ucsd.edu  (Ron Baalke)
Subject: Galileo Update - 01/25/91


                         GALILEO STATUS REPORT
                           January 25, 1991

     The status of the Galileo spacecraft status as of end of day January 24
was as follows:

        o System Power Margin - 69 watts
        o Spin Configuration - All-Spin - cruise mode
        o Spin Rate/Sensor - 2.89rpm/star scanner
        o Spacecraft Attitude Sun Point Angle - approximately
          1.5 degrees plus or minus 0.3 degree
        o Downlink telemetry rate/antenna - 40 bits/second
          (uncoded)/LGA-2 (Low Gain Antenna-2)
        o General Thermal Control - all temperatures within
          acceptable range
        o RPM (Retro Propulsion Module) Tank Pressures - all
          within acceptable range

     Today, the spacecraft successfully completed the planned sun acquisition
and RPM maintenance activities.  Later today a cruise science memory readout
will be performed for the MAG (Magnetometer) and DDS (Dust Detector)
instruments.  Weekend operations will be limited to a routine USO (Ultra
Stable Oscillator) characterization test on Saturday and a planned sun
acquisition on Sunday.

     A total of 3080 real-time commands have been transmitted to Galileo.
Of these, 1687  have been pre-planned in the sequence design and 1393 were
not.  In the past week, a total of 130 real-time commands were sent; all were
pre-planned.
      ___    _____     ___
     /_ /|  /____/ \  /_ /|      Ron Baalke         | baalke@mars.jpl.nasa.gov
     | | | |  __ \ /| | | |      Jet Propulsion Lab | 
  ___| | | | |__) |/  | | |___   M/S 301-355        | It's 10PM, do you know
 /___| | | |  ___/    | |/__ /|  Pasadena, CA 91109 | where your spacecraft is?
 |_____|/  |_|/       |_____|/                      | We do!

------------------------------

Date: Sun, 27 Jan 91 02:00:08 EST
From: John Roberts <roberts@cmr.ncsl.nist.gov>
Disclaimer: Opinions expressed are those of the sender
	and do not reflect NIST policy or agreement.
Subject: Redundancy vs reliability


>From: v071pzp4@ubvmsd.cc.buffalo.edu (Craig L Cole)
>Newsgroups: sci.space
>Subject: Re: Why man rate? (was: space news from Dec 17 AW&ST)
>Date: 25 Jan 91 16:54:43 GMT
>Organization: University at Buffalo

>Sure, adding safety and redudancy features increases the complexity 
>of the system, which in actually starts to reduce safety. 

This is not a proper interpretation of the proper use of redundancy. The
only reason to add redundancy is to increase reliability, and to go beyond
this to a point at which overall reliability is actually decreased would
be pretty idiotic. Yes, determining the point of optimum redundancy an 
setting up interfaces, control, and switching systems so that you do not
add other problems is a challenge, but I believe that it is within the
ability of the designers of the Shuttle and other US aerospace systems.
The actual optimum choice can not be made by use of "common sense", and
there is no simple general rule of thumb - extensive calculations and
simulations are required for every design decision.

In the past, I have had long arguments with individuals over the premise
that it is theoretically possible to build an advanced system such as a
military aircraft with redundant components such that overall system
reliability is improved even though the (hopefully) statistically independent
component failure rate increases. For some reason this concept (admittedly
somewhat subtle) seems to be beyond the ability of a large portion of the
population, but recent events involving military aircraft suggest that it
is a valid design approach, even beyond the expectations of the proponents.

Unfortunately, it is also generally the case that high-reliability
redundant systems are more expensive than simpler systems. The Shuttle,
for example, is a reliable but very expensive system. It's the cost,
rather than the reliability issues, that show it's time to look for
substitutes for the necessary functions the Shuttle provides. With luck,
the current fleet may last until such substitutes are available.
(Though it's probably a sensible precaution to keep the capability for
*one* more replacement vehicle if needed.)

>But, after
>seeing all of the glitches the shuttle has usually easily solved
>by these features, I'd rather take my chances having those extra
>systems to use. 

>Man-rating a rocket will eventually become an outdated term, as rockets
>will become inherently be safe enough to launch whatever you want --
>satellites, manned capsules, or whatever.

Well, there are other considerations besides reliability - such as peak
acceleration and vibration, which might not affect a given inanimate
payload, but which would affect humans. It's unlikely that the Sprint
missile will ever be man-rated (100G takeoff (!)).

>Craig Cole
>V071PZP4@UBMVS.BITNET
>V071PZP4@UBVMS.CC.BUFFALO.EDU
               John Roberts
               roberts@cmr.ncsl.nist.gov

------------------------------

Date: 26 Jan 91 03:47:54 GMT
From: ka2qhd!kd2bd@rutgers.edu  (John Magliacane)
Subject: * SpaceNews  28-Jan-91 *


SB SPACE @ ALLBBS < KD2BD $SPC0128
* SpaceNews  28-Jan-91 *

Bulletin ID: $SPC0128


                              =========
                              SpaceNews
                              =========

                       MONDAY JANUARY 28, 1991

SpaceNews originates at KD2BD in Wall Township, New Jersey, USA.  It
is published every week and is made available for unlimited distribution.



* U2MIR-1 NEWS *
================
Packet Radio (AX.25) communications were carried out last week between
the Soviet "Mir" space station and many ground stations on 145.550 MHz.
Callsigns of U2MIR and U2MIR-1 were used by the amateur radio station
on board Mir.  Personal observations as well as observations by others
seem to confirm the fact that Mir now has a fully operational packet
radio bulletin board system, complete with a "standard" PBBS command
system capable of supporting mail exchanges between users as well as
disseminating news bulletins to all users of the system.

The U2MIR-1 BBS system is compatible with standard 1200 baud 2-meter
FM packet stations currently in existance all over the world.  No
special TNCs or external PSK modems are required for access.  Downlink
signals from Mir are strong. Even operation with indoor antennas seems
possible.

Packet radio operations from Mir came as quite a surprise to many who
expected operations to begin in March.  While BBS operations took place
for several days last week, it remains to be seen when or if operations
will continue on a permanent basis.  Packet BBS operations from U2MIR
can generally be made at any time, since the station can be run in an
unattended mode while the cosmonauts are sleeping or busy with other
work.


* SPACE RADIATION *
===================
NASA is reporting that operations of the orbiting Hubble Space Telescope
are being affected by radiation induced electronic failures on a daily
basis.  Single event upsets (SEUs) in a 1 kilobit low-power TTL bipolar
random access memory (93L-422) are causing Hubble's crucial focusing
elements to lose data on a regular basis.

SEU induced errors are being minimized by using a rapid refresh cycle
with the RAM device to limit the time in which multiple SEUs can occur.
The 93L-422 RAM device has a well documented history of SEU failures,
but was used anyway since clever software routines could help correct
or prevent SEUs from affecting telescope operations.  It appears the
SEU problem was greater than anticipated and might also explain why
NASA scientists mysteriously lost radio contact with the Magellan
Venus spacecraft for 18 hours shortly after insertion motor separation
last fall.  Scientists are now trying to duplicate that problem in an
effort to determine its cause.

All OSCAR satellites experience problems with radiation induced RAM
errors.  High energy radiation particles damaged one of the sense
amplifiers in the Integrated Housekeeping Unit (IHU) on board OSCAR-10.
Since that damage occurred, the spacecraft essentially became "brain
dead", and no longer transmits RTTY and CW telemetry or supports a
sophisticated transponder schedule.

Most satellites operating with 8-bit CPUs generally use 12-bit RAM systems
to help reduce the effect of radiation induced memory errors.  OSCAR-11
as well as the MicroSats run a "wash" routine as part of eir spacecraft's
operating system.  The wash routine checks all memoryocations, counting
all errors and correcting all single bit errors.  A "wash pointer" reports
the current memory address checked and transmits thanformation as part
of the spacecraft telemetry report.

OSCAR-11 has been used quite extensively to study the problem of single
event upsets on spacecraft systems.  In fact, it is an interesting hobby
to find correlations between radiation induced spacecraft RAM errors,
space dust counts, and ionospheric HF radio propagation conditions!

Most SEUs occur around the polar regions of the Earth, especially around
an area known as the "South Atlantic Anomaly", a heavily proton charged
region around Antartica.  Solar flares are also responsible for increasing
the rate at which SEUs occur in satellite computer subsystems.


* TNX QSL! *
============
A special thanks to all those who sent QSLs and letters to SpaceNews:

N1HZH  : Joel Magid, Groton, Massachusettes, USA
K3CRF  : Dave Smith, Bellevue, Nebraska, USA

...and e-mail messages:

VK2EE, WB2DHY, WB4IJV, K7EA, DG9MAQ


* FEEDBACK WELCOMED *
=====================
Feedback regarding SpaceNews can be directed to the editor (John) via any
of the following paths:

INTERNET : kd2bd@ka2qhd.de.com
PACKET   : KD2BD @ NN2Z.NJ.USA.NA
UUCP     : ...uunet!rutgers!ka2qhd!kd2bd

MAIL     : John A. Magliacane, KD2BD
           Department of Electronics Technology
           Advanced Technology Center
           Brookdale Community College
           765 Newman Springs Road
           Lincroft, New Jersey 07738
           U.S.A.



/EX
-- 
John A. Magliacane                 FAX  : (908) 747-7107
Electronics Technology Department  AMPR : KD2BD @ NN2Z.NJ.USA.NA
Brookdale Community College        UUCP : ...!rutgers!ka2qhd!kd2bd
Lincroft, NJ  07738  USA           VOICE: (908) 842-1900 ext 607

------------------------------

X-Delivery-Notice:  SMTP MAIL FROM does not correspond to sender.
Date:    Sun, 27 Jan 91 13:15:30 MST
From: std_oler%HG.ULeth.CA@vma.cc.cmu.edu (Cary Oler)
Subject: POTENTIAL GEOMAGNETIC STORM WARNING
X-St-Vmsmail-To: st%"space+@andrew.cmu.edu"

                *********************************************
                ***  POTENTIAL GEOMAGNETIC STORM WARNING  ***
                *********************************************

                         Issued:  18:00 UT, 27 January

                           Geomagnetic Storm Warning

                                 -------------


Attention:

     Due to the recent major flaring and expected interplanetary shocks, a
Potential Geomagnetic Storm Warning has been issued, particularly for the
middle and high latitude regions.  There is uncertainty regarding how intense
the geomagnetic activity could become.  Hence, a geomagnetic storm warning
has been issued.  Please note that this warning does not mean that a magnetic
storm is in progress.  This warning is meant only to alert those who could
be affected to the potential for geomagnetic storming.  Activity is currently
expected to remain near active to very active levels for middle latitudes,
but higher latitudes could sustain minor storming for extended periods.  If
geomagnetic storming does develope over middle latitudes, a Geomagnetic Storm
Alert will be posted.

     The estimated planetary magnetic A-index for the next three days is
expected to be near 25.  High latitudes could experience magnetic storming
capable of pushing the A-index above 50.  Middle latitudes will likely
experience activity between 20 and 35.  Low latitudes will likely observe
A-index values of near 15 to possibly 30.

     Conditions should begin to improve on 30 January (possibly earlier),
barring any further major flaring (which seems likely at the present time).
Watch for possible geomagnetic and/or major flare alerts.


**  End of Warning **

------------------------------

End of SPACE Digest V13 #096
*******************