IZ3LSV

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Today's Topics:

1.  Lighthouse Special Event Update (Peter)
2. Re: rotator questions (i8cvs)
3.  ANS=228 AMSAT News Service Weekly Bulletins (JoAnne Maenpaa)
4. Re: Lets Fix ISS, Replace ARISS (Rocky Jones)


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

Message: 1
Date: Sat, 15 Aug 2009 19:48:16 -0400
From: Peter <roi@xxxxxxxxx.xxx>
Subject: [amsat-bb]  Lighthouse Special Event Update
To: AMSAT-BB@xxxxx.xxx
Message-ID: <001a01ca1e02$dfe25380$6901a8c0@xxxxx>
Content-Type: text/plain; charset=Windows-1252

Hello All,

I want to thank all the satellite Stations that made contact with
W2GSB/Lighthouse today, on Fire Island NY, FN30jp as a result of making
contact with the station, you really excited the many visitors that listened
to you, and are responsible for bringing a few more operators into our
orbit, thank you.

I had the recorder on, however I lost part of it, must be the salt air,  I
also had a paper backup but I want to be accurate.  I would appreciate it if
operators who made contact with W2GSB/LH today e-mail me their call, thank
you.


I will only operate one pass tomorrow, Sunday, A0-51-  11:31- 11:46 UTC, due
to a family obligation, we will have other operators thru the day, but I
can't be positive of that, thank you for making this event a lot of fun!  If
you want more information on the event, please visit www.gsbarc.org

73,
Pete, WB2OQQ





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

Message: 2
Date: Sun, 16 Aug 2009 02:03:35 +0200
From: "i8cvs" <domenico.i8cvs@xxx.xx>
Subject: [amsat-bb] Re: rotator questions
To: "AMSAT-BB" <amsat-bb@xxxxx.xxx>, "David Gendle"
	<dgendle@xxx.xx.xxx>
Message-ID: <004401ca1e05$00b656e0$0201a8c0@xxx.xx>
Content-Type: text/plain;	charset="iso-8859-1"

Hi Dave, K4DLG

Very interesting experiece. Do you remember the radar receiving frequency
and the gain of the radar antenna in the plain of Azimuth ?

Tanks for your answere.

73" de

i8CVS Domenico

----- Original Message -----
From: "David Gendle" <dgendle@xxx.xx.xxx>
To: <amsat-bb@xxxxx.xxx>
Sent: Saturday, August 15, 2009 5:02 PM
Subject: [amsat-bb] Re: rotator questions


> Greetings!
>
> This thread is bringing back memories.
>
> Eons ago (60's) when I was servicing long range radar for the USAF
> once a month the third shift crew would have to verify the proper
> azimuth and elevation orientation of our antennas.  We would stop all
> antenna motion, stop transmitting and crank the receiver gain full
> up.  At a specific instant when the sun just broke over the horizon
> we would verify if the azimuth and elevation of the antenna was
> correct by using the large noise burst from the sun.  Using this
> method we could get the antennas within 2 degrees of perfect
> orientation.  It was a foolproof procedure because the location of
> the sun was always predictable.
>
> Ahh.... the good old days! :-)
>
> 73,
> Dave _ K4DLG
>
>
>
>
>
> _______________________________________________
> Sent via AMSAT-BB@xxxxx.xxx. Opinions expressed are those of the author.
> Not an AMSAT-NA member? Join now to support the amateur satellite program!
> Subscription settings: http://amsat.org/mailman/listinfo/amsat-bb





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

Message: 3
Date: Sat, 15 Aug 2009 20:23:00 -0500
From: "JoAnne Maenpaa" <k9jkm@xxxxxxx.xxx>
Subject: [amsat-bb]  ANS=228 AMSAT News Service Weekly Bulletins
To: <amsat-bb@xxxxx.xxx>
Message-ID: <001301ca1e10$191113a0$4b333ae0$@xxx>
Content-Type: text/plain;	charset="us-ascii"

AMSAT NEWS SERVICE
ANS-228

ANS is a free, weekly, news and information service of AMSAT North
America, The Radio Amateur Satellite Corporation. ANS reports on the
activities of a worldwide group of Amateur Radio operators who share an
active interest in designing, building, launching and communicating
through analog and digital Amateur Radio satellites.

Please send any amateur satellite news or reports to:
ans-editor@xxxxx.xxx

**********************************************************************
* 2009 AMSAT Space Symposium and Annual General Meeting October 9-11 *
*   Four Points Sheraton Hotel at the Baltimore Washington Airport   *
*  Details - http://www.amsat.org/amsat-new/symposium/2009/index.php *
**********************************************************************

In this edition:

* Final Call For Papers AMSAT 2009 Space Symposium
* New Satellite Location Maps Available
* AO-51 Mode Change This Weekend
* South Africa's SumbandilaSat Launch Scheduled For September 15
* AMSAT Awards
* SimSat-4 Amateur Radio High Altitude Ballon Flight Announcement
* Satellite Shorts From All Over
* Invitation to Join Nova East Star Party ARISS Video Link
* Mars Orbit Getting Busier


SB SAT @ AMSAT $ANS-228.01
Final Call For Papers AMSAT 2009 Space Symposium

AMSAT News Service Bulletin 228.01
>From AMSAT HQ SILVER SPRING, MD.
August 16, 2009
To All RADIO AMATEURS
BID: $ANS-228.01

Symposium Proceedings Editor Daniel Schultz, N8GFV this week
issued the final call for papers for the 2009 AMSAT Annual
Meeting and Space Symposium to be held October 9 - 11 at
the Four Points Sheraton Hotel at the Baltimore Washington
Airport.

Proposals for papers, symposium presentations and poster pre-
sentations are invited on any topic of interest to the amateur
satellite community. Since the subject of launch opportunities
is driving most of what AMSAT can do in the near future, papers
on possible cooperative projects with other space organizations
would also be relevant. You might also consider doing a tutorial
session on some technical subject that you are an expert on for
the education of the rest of us.

Daniel requests a tentative title of your presentation as soon
as possible, with final copy submitted by September 1, 2009 for
inclusion in the printed proceedings. Abstracts and papers should
be sent to Dan Schultz, N8FGV, at n8fgv@xxxxx.xxx.

[ANS thanks Daniel Schultz, N8FGV for the above information]

 /EX


SB SAT @ AMSAT $ANS-228.02
New Satellite Location Maps Available

AMSAT News Service Bulletin 228.02
>From AMSAT HQ SILVER SPRING, MD.
August 16, 2009
To All RADIO AMATEURS
BID: $ANS-228.02

A map showing the current satellite location for most of the
amateur satellites are now available on the AMSAT web site.

>From the AMSAT front page, use the left hand side navigation,
go to the 'Satellite Information' navigation box, then select
'Satellite Status'. You may also go directly there using this
URL: http://www.amsat.org/amsat-new/satellites/status.php

Next click on an underlined satellite name in the left hand
column.  This will display a satellite summary, scroll to the
bottom of the page and there will be a map showing the current
location of that satellite and the illuminated and dark portions
of the earth.

This feature can be used for a quick check of the satellite's
location or to verify that your tracking program was setup cor-
rectly. Thanks to Rick, W2GPS and Chip, N2YO for providing this
useful feature.

[ANS thanks Gould, WA4SXM for the above information]

 /EX


SB SAT @ AMSAT $ANS-228.03
AO-51 Mode Change This Weekend

AMSAT News Service Bulletin 228.03
>From AMSAT HQ SILVER SPRING, MD.
August 16, 2009
To All RADIO AMATEURS
BID: $ANS-228.03

On Sunday night Eastern Daylight Time (UTC - 4), around 0000Z
Aug 17 UTC AO-51 will switch to V/S FM repeater mode using the
145.880 MHz uplink and 2401.200 MHz downlink.

The AO-51 spin rate has slowed to over 7 minutes per revolution.
Eighteen months ago this was about 2.5 RPM. So, either you should
experience less to no fading during the pass or longer fades depend-
ing upon the satellite's orientation to your QTH. The AO-51 modes
team welcomes your observations, especially those providing actual
measured data.

Ground controllers probably will turn the L-Band digital uplink off,
to get the best power allocation to both transmitters. You will still
be able to receive the telemetry on 435.150 MHz.

[ANS thanks AO-51 Operations Team for the above information]

 /EX


SB SAT @ AMSAT $ANS-228.04
South Africa's SumbandilaSat Launch Scheduled For September 15

AMSAT News Service Bulletin 228.04
>From AMSAT HQ SILVER SPRING, MD.
August 16, 2009
To All RADIO AMATEURS
BID: $ANS-228.04

The South African Amateur Radio Satellite Association (SA AMSAT)
reports that South Africa's second Amateur Radio satellite Sum-
bandilaSat is due to launch on September 15

AMSAT-SA reported that the satellite is already in Baikonur for
system integration and from where it will be launched on its journey
around the earth on a Soyuz rocket.

The Amateur Radio payload comprises a V/U FM voice transponder with
an uplink in the 2 meter band and a downlink in the 70cm band. It has
a parrot repeater (voice digipeater) and a voice beacon.

The Amateur Radio Payload will be operating in conjunction with the
University of Stellenbosch Software Defined Receiver project as it
will share the VHF receiver and UHF transmitter used by the SDR pro-
ject.

The SA AMSAT payload has been assigned the callsign ZS0SUM. Control
of the satellite's function from the ground will be accomplished by
transmitting CTCSS tones which will be announced. One tone will
will command the satellite in the transponder mode; another CTCSS
tone will command the satellite into the parrot repeater mode; and
if no tones are received for a period of time the satellite will
activate its voice beacon.

Frequencies of operation for the FM voice Transponder and Parrot are:
Uplink    145.880 MHz
Downlink  435.350 MHz

Additional information can be found at these links.
A paper presented by a Stellenbosch student on the SA satellite:
http://dataweek.co.za/article.aspx?pklArticleId=4118&pklCategoryId=42

University of Stellenbosch
http://www.sun.ac.za/

University of KwaZulu-Natal
http://www.ukzn.ac.za/

SunSpace
http://www.sunspace.co.za/

Southern African Amateur Radio Satellite Association (SA AMSAT)
http://www.amsatsa.org.za/

[ANS thanks Trevor, M5AKA, The SouthGate Web site, and SA-AMSAT for
the above information]

 /EX


SB SAT @ AMSAT $ANS-228.05
AMSAT Awards

AMSAT News Service Bulletin 228.05
>From AMSAT HQ SILVER SPRING, MD.
August 16, 2009
To All RADIO AMATEURS
BID: $ANS-228.05

AMSAT Director Contests and Awards, Bruce Paige, KK5DO congrat-
ulates the following Amateur Radio operators who have earned
these awards.

AMSAT Satellite Communications Achievement Award:
Rizkallah Azrak         OD5RI  #503
Dave Glow               AA1VX  #504
Evangelos Kafetzopoulos SV1EEK #505

The following have earned the AMSAT Sexagesimal Award.
David Bird              KC7USS #150

The following have earned the South Africa Communications
Achievement Award.
Evangelos Kafetzopoulos SV1EEK #US137

The following have earned the W4AMI Achievement Award (for 1000 contacts)
Dimtrios Pallis         SW1JGW #54
George Carr             WA5KBH #55
Evangelos Kafetzopoulos SV1EEK #56

To see all the awards visit http://www.amsat.org

[ANS thanks Bruce, KK5DO for the above information]

 /EX


SB SAT @ AMSAT $ANS-228.06
SimSat-4 Amateur Radio High Altitude Ballon Flight Announcement

AMSAT News Service Bulletin 228.06
>From AMSAT HQ SILVER SPRING, MD.
August 16, 2009
To All RADIO AMATEURS
BID: $ANS-228.06

The SimSat-4 high-altitude balloon flight experiment has been
scheduled for Saturday morning, September 19, 2009.

SimSat-4 Principal Investigator, Pat Kilroy, N8PK has posted
the latest information on the web at: http://simsat.net then
click SimSat-4. Pat invites you to check this link on a regular
basis for updates and late breaking news about SimSat-4.

Pat says he needs more volunteers to help execute a successful
flight. He is looking for:

1. Net Control Station for the (A) HF or (B) VHF net.  You are
also invited to create your own net on a repeater more local
to you and your club.

2. Amateur Radio stations to copy and save telemetry during the
mission from the comfort of your own home/shack.

3. Invite a student (young or old) to participate with you. Show
'em how to listen.  That's all.

4. Download and install a CW code reader on your PC.  Play with
it and let us know how well it works.

5. There are many other fun tasksand you can see the list on
the SimSat-4 announcement page.  http://simsat.net and then
click SimSat-4.

[ANS thanks SimSat-4 Principal Investigator, Pat Kilroy, N8PK for
the above information]

 /EX


SB SAT @ AMSAT $ANS-228.07
Satellite Shorts From All Over

AMSAT News Service Bulletin 228.07
>From AMSAT HQ SILVER SPRING, MD.
August 16, 2009
To All RADIO AMATEURS
BID: $ANS-228.07

+ Congratulations to Patrick, WD9EWK on his Worked All States
award. Patrick completed WAS completely via the FM LEO satellites.

+ Short Notice! Mark WA8SME plans to activate the rare grid DM19
(smack in the middle of Nevada) on August 17 during the 2130Z AO27
pass (approximate). He will operate using an HT and Arrow antenna.

+ Software enhancement allows you to fly through the 10,000 galaxies
of the Hubble Ultra Deep Field image at: http://tinyurl.com/n3fhjg
Try the full screen option in the bottom toolbar for the best
experience. (UniverseToday.com)

+ Congratulations to Doug, KD8CAO and Jim, W8MRR on their successful
Amateur Satellite demonstration via AO-51 on 8/11/09 at the Holland
Area Radio Club in Michigan. Jim said, "Everything went right, the
weather was perfect, the satellite and our equipment performed
flawlessly, and a huge crowd of hams were there for our monthly
meeting." Doug and Jim also included a Power Point presentation.

+ AMSAT-UK's FUNcube satellite project is featured on the front cover
of the August 12-18 edition of Electronics Weekly magazine. You can
read the digital version of Electronics Weekly magazine online in
PDF format at: http://cde.cerosmedia.com/1D4a803d8814a11352.cde

+ Roland PY4ZBZ has posted an audio recording from his AO-7 SSB QSO
with Andre, ZS2BK covering a of distance of 6890 km. The recording
is at: http://www.qsl.net/py4zbz/satelite/ZS2BK_AO7.wav  Photos
of his 2 element Yagi on VHF and 6 el on UHF are on-line at:
http://www.qsl.net/py4zbz/satelite.htm#owa6

+ The next Hudson Valley Satcom Group net is Thursday August 20 at
8PM EDT (UTC-4), on the 146.97 Repeater and Echolink node: N2EYH-L
(via WA2BSS)

[ANS thanks everyone for the above information]

 /EX


SB SAT @ AMSAT $ANS-228.08
Invitation to Join Nova East Star Party ARISS Video Link

AMSAT News Service Bulletin 228.08
>From AMSAT HQ SILVER SPRING, MD.
August 16, 2009
To All RADIO AMATEURS
BID: $ANS-228.08

On Saturday, August 22, 2009 participants at the Nova East Star
Party (Smileys Provincail Park, Brooklyn, Nova Scotia Canada)
will have the opportunity to speak with Canadian Astronaut and
Expedition 20/21 Flight Engineer Dr. Robert (Bob) Thirsk, VA3CSA,
on board the International Space Station.

With the help of the Province of Nova Scotia's Emergency Management
Office and Bell Aliant a LIVE satellite uplink will be used to pro-
vide a 1 hour webcast of the event.

Starting at shortly after 12:00 UTC the webcast will include amateur
radio and astronomical topics. The webcast will conclude with the
actual contact which begins with AOS at 12:54:08 UTC.

Please join us for this very special educational outreach event at
http://exclusive.bellaliant.net/spacestation.

[ANS thanks the ARISS Mentor for Nova East Star Party 2009, Wayne
Harasimovitch, VE1WPH for the above information]

 /EX


SB SAT @ AMSAT $ANS-228.09
Mars Orbit Getting Busier

AMSAT News Service Bulletin 228.09
>From AMSAT HQ SILVER SPRING, MD.
August 16, 2009
To All RADIO AMATEURS
BID: $ANS-228.09

MarsDaily.com reports that NASA's Mars Reconnaissance Orbiter is
in safe mode, a precautionary standby status, and in communications
with Earth after unexpectedly switching to its backup computer on
Thursday, August 6.

Engineers are working to determine the cause of the spontaneous swap
from the orbiter's "A" side computer and subsystems to the redundant
"B" side.

They have successfully increased the communication rate from the
orbiter, but some engineering data about what was occurring just
before the side swap may never be available. The team expects it
will be at least several days until normal science operations resume.

After the challenging mission to moon, ISRO has begun preparations
for sending an Indian spacecraft to Mars within the next six years.
Mission studies have been completed and collection of scientific pro-
posals has begun. India is examining launch opportunities between 2013
and 2015.

MarsDaily.com also reported this week that China's first satellite
to probe Mars has been transported to Russia for a launch later this
year.

Yinghuo-1, the 110-kilogramme (242-pound) Chinese satellite, is
scheduled to be launched along with Russia's "Phobos Explorer" aboard
a Zenit rocket in October after final testing, the Beijing News said.

After entering Mars' orbit -- 10 to 11 months later -- the orbiter
will probe the Martian space environment, with a special focus on
what happened to the water that appears to have once been abundant
on the planet's surface.

[ANS thanks MarsDaily.com and SpaceDaily.com for the above information]

 /EX


In addition to regular membership, AMSAT offers membership in the
President's Club. Members of the President's Club, as sustaining donors
to AMSAT Project Funds, will be eligible to receive additional benefits.
Application forms are available from the AMSAT Office. And with that
please keep in mind the camel who journeyed a thousand miles across the
desert to reach the oasis palm, and yet he could not get a date.

73,
This week's ANS Editor,
JoAnne Maenpaa, K9JKM
K9JKM at amsat dot org



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

Message: 4
Date: Sat, 15 Aug 2009 12:37:40 -0500
From: Rocky Jones <orbitjet@xxxxxxx.xxx>
Subject: [amsat-bb] Re: Lets Fix ISS, Replace ARISS
To: <ka1rrw@xxxxx.xxx>, Amsat BB <amsat-bb@xxxxx.xxx>
Message-ID: <COL106-W37B6F4C18D12624E196F6DD6030@xxx.xxx>
Content-Type: text/plain; charset="Windows-1252"


Miles.  well done.  I suspect that you have hit a brick wall...but I concur in
everything you wrote.

Having said that.  ISS and human spaceflight in general (at least in the US)
is on the verge of a very big shake up...and that might shake the ham equation
as well.

Robert Oler WB5MZO

> Date: Sat, 15 Aug 2009 10:20:38 -0700
> From: ka1rrw@xxxxx.xxx
> To: amsat-bb@xxxxx.xxx
> Subject: [amsat-bb]  Lets Fix ISS, Replace ARISS
>
> Marex
>
> Miles Mann WF1F
>
> Marex
>
> wf1f@xxxxxxx.xxx
>
>
>
> August 25, 2009
>
> Dear ARISS supporters:
>
> I am writing to you because of the extremely poor track record that ARISS
has accumulated over the past 12 years regarding ISS hardware projects.
>
> The only way to correct the problem and fix the Amateur Radio educational
program is to completely reorganization the current ARISS hardware structure.
>
> Under the new ARISS Closed Door policy, only selected members from AMSAT-NA
are allowed to participate.
>
> This new policy has turned the once open ARISS into a closed door Monopoly
controlled by the AMSAT Corporation.
>
> Based on the current actions of ARISS and their very poor performance with
in-flight hardware I would like to propose a complete reorganization of the
ARISS hardware process.
>
> Please review the enclosed information.
>
> I look forward to discussing the proposal with you are your earliest
opportunity.
>
> Sincerely
>
> G. Miles Mann
>
>
>
>
>
> Memo from ARISS April 2009
>
> From Gaston Bertels ARISS Chairman
>
> Hi Miles,
>
> By decision of the ARISS Board, participation to ARISS-i meetings is limited
to delegates from the Member Societies and observers nominated by these
societies.
>
> USA member societies are the ARRL and AMSAT NA.
>
> Only these societies can nominate participants to the ARISS-i meetings.
>
> Best regards
>
> 73
>
> Gaston Bertels, ON4WF
>
> ARISS Chairman
>
>
>
>
>
>
>
>
>
>
>
> ARISS Reorganization Proposal
>
> By Miles Mann
>
> June 17, 2009
>
> Rev 1.01
>
>
>
> What is ARISS?
>
> The goal of ARISS was to create an organization to select, control and
coordinate Amateur Radio projects designed for the International Space Station
(ISS).
>
> The ARISS program would then assist the 16 countries (Russia, Canada, Japan,
Brazil, USA, member nations of ESA, Belgium, Denmark, France, Germany, Italy,
The Netherlands, Norway, Spain, Sweden, Switzerland, and the United Kingdom),
which are supporting the ISS to help choose the best educational Amateur Radio
projects for ISS.
>
> Each county would have delegate-voting privileges on ARISS and project
selection activities.
>
>
>
> Summary:
>
> When Dave Larsen and Miles Mann (MAREX) helped form ARISS in August 1996,
one of our goals was to keep Space open for the public and not turn the ISS,
into a monopoly controlled by the AMSAT Corporation.
>
> We were partially successful. Unfortunately most of the ARISS voting
delegation came from AMSAT Corporation representatives from different counties
and a few other radio clubs. The newly formed ARISS agreed to allow competing
clubs to submit proposals. The MAREX team helped create ARISS, however since
the majority of people present were from the AMSAT Corporation, MAREX was not
allowed to have any voting privileges.
>
> Prior to 2009, ARISS would say that its meetings were open to the public and
other clubs were welcome to observer. In 2009 ARISS changed its open door
policy to a closed-door policy. The public is no longer allowed to attend any
of the meetings.
>
> Now, only selected members of the AMSAT Corporation are allowed to present
Amateur radio project proposals to ARISS for International Space Station.
>
> The AMSAT Corporation has full control over the voting and the hardware
selection process, thus creating a monopoly on the International Space station
for Amateur Radio projects.
>
>
>
> ARISS Reorganization Proposal:
>
> There are two main reasons to reorganize the ARISS delegate voting
structure.
>
> 1) The AMSAT Corporation has a monopolistic control over ARISS and has
routinely blocked competitive Educational Amateur radio projects from being
submitted. The new closed-door policy and "Selected AMSAT Members only" policy
are part of the struggling AMSAT Corporations attempt to make the
International Space Station their private Space Station monopoly.
>
>
>
> The actions of the AMSAT Corporation remind me of a fictional movie Quote
"Star Wars, A New Hope" Princess Leia, says to Governor Wilhuff Tarkin:
>
> "The more you tighten your grip, the more star systems will slip through
your fingers"
>
> 2) Over the past 12 years AMSAT Corporation has demonstrated its inability
to Select, Manage and Maintain Educational Amateur Radio hardware projects for
the International Space Station. The hardware track record of the AMSAT
Corporation control over ARISS projects on ISS has been very poor.
>
> In a separate document I will go over the hardware failures and the success
we have had in the ARISS project. You will clearly see a pattern of extremely
poor hardware management, including:
>
> Poor project selection (even when there is ample evidence to reject a
project, the AMSAT Corporation would approve a project)
> Inability to maintain projects in flight. When problems were discovered in-
flight, the AMSAT Corporation would either deny the problem existed or take 3
or 4 plus years to correct the problem.
> Failure to provide NASA and ESA valid project status information. The AMSAT
Corporation would routinely deny there are problems with equipment, even when
ISS crewmembers in-flight reported the problems with the ARISS projects.
> AMSAT Corporations refusal to perform basic compatibly and usability testing
on projects has led to some embarrassing failures. The lack of testing has
been a reoccurring team throughout the ARISS projects.
>
>
> Reorganization Solution:
>
> Change the current voting delegate structure from an AMSAT Corporation
controlled formation to a new structure in which corporations do not control
the Hardware project selection and voting. The best way to manage ARISS fairly
is to select representatives from Universities from around the wold to take
over the delegate voting positions in ARISS hardware projects.
>
> What I proposed is that representative from 16+ ISS countries each select
two Universities to act as voting ARISS delegates. The new University
delegates would take the place of the existing ARISS delegates.
>
> The supporting corporations would still be welcome to participate in ARISS
projects, however the corporations would not have Voting rights.
>
> I also envision that most of the existing duties current performed by the
existing ARISS volunteers wold still continue with the same volunteers and
supporting agencies. The majority of changes will be focused on the University
providing an independent view on which projects make the best sense.
>
> The ARISS team claims to provide educational opportunities for the world.
However during the 12 years of ARISS existence, no school or university has
ever built a project for ARISS. The new University Delegate plan would now
open the doors for Universities and other schools to participate in future
ARISS projects.
>
> Note: the Military funded PC-Sat-2 project by the US Naval Academy may have
had some student involvement.
>
>
>
> Who should choose the University Delegates?
>
> The Space Agency representatives from each supporting ISS nation will be
asked to contact qualifying universities in their countries. Our goal is to
have two universities, with educational programs related to RF technologies or
Space exploration / satellite programs participate as delegates for ARISS.
>
> The universities will be asked to participate in the ARISS program as a
voting delegate for 4-year terms, with the option to renew.
>
>
>
> University Delegate responsibilities:
>
> The responsibilities of the university delegates will be similar to the
existing ARISS tasks, including:
>
> Hardware Guild Lines
> Project Selection
> Hardware meetings and conferences
> Work with ESA, NASA and other agencies for the proper approvals and
additional guidelines.
> In-flight Project Management
> Existing ARISS supporting corporations:
>
> The existing corporations and clubs such as, ARRL, AMSAT, IARU, MAREX and
others will still be allowed to act as technical consultants and manage
different aspects of ARISS. However these corporations will not have voting
privileges in the hardware selection process.
>
>
>
> Additional Benefits:
>
> TBD
>
>
>
>
>
>
>
> This section contains a brief over view of example of common ARISS/AMSAT
Corporation failures.
>
> Poor project selection:
>
> When ample evidence is presented to ARISS to reject a hardware project, the
ARISS team will still peruse projects that have little benefit for the Amateur
Radio community based on the amount of effort required to fly a project to
ISS.
>
> Toss-Satellites:
>
> Toss-Satellites are usually small projects which are literally tossed out
the hatch of the Space Station. Several of these projects were successfully
launched from the Space Station Mir during its 15-year flight. Toss-Satellites
will only run for a few months. Due to the orbit of ISS/Mir the orbit decay
will cause these satellites to re-enter the earth astmothsphere in 6-18
months.
>
> With ISS scheduled to be retired in 2015, it is very important for ARISS to
select projects that have a short development time and a great return on the
effort.
>
> Early on during the ISS project, Frank Bauer (ARISS Chairman and VP of AMSAT
Corporation) said he did not want to waste our valuable resources on building
Toss-Satellites. The MAREX team supported Frank Bauer?s position on Toss-
Satellites. A few years later Frank Bauer and ARISS approved the Suit-Sat1
Toss-Satellite project.
>
> The Suit-Sat1 project incorporated a "Expired" spacesuit that was scheduled
to be disposed of in an incinerating Progress module. Instead, the spacesuit
was stuffed with an Amateur Radio beacon and released as a free flying
project.
>
> The original plan called for the "off-the-shelf-hardware" to be partially
pressurized inside the spacesuit. At the last minute the plans changed and the
equipment was exposed to the full vacuum of space. The transmitter for the
project failed and only a handful of stations were able to hear its extremely
weak signal.
>
>
>
> The project was partially successful in that it generated worldwide
attention to ISS and Amateur Radio.
>
> The Suit-Sat1 version of the project used a combination of existing ARISS
hardware and "off-the-shelf-hardware". The project was completed in a
relatively short periods of time (less than 2 years) primary because it used
mostly existing hardware. The Suit-Sat1 project did consume resources that
could have been used for longer duration projects.
>
> In 2006, AMSAT Corporation director and ARISS Hardware Manager Lou McFadin
proposed building another project called Suit-Sat2. For this project, rather
than using affordable and easy to deliver "off-the-Shelf" hardware, McFadin
decided to custom build a new transceiver from scratch, using new technology
called "Software Defined Radio".
>
> The Suit-Sat2 project required over 4 years to develop and will not be ready
for flight until 2010. The Suit-Sat2 project will have a flight life
expectancy of 4-12 months.
>
> The effort placed into Suit-Sat2 has caused other long term projects to be
ignored.
>
>
> Summary:
>
> The Suit-Sat1 transmitter failed immediately.
> Design called for a pressurized suit, was changed to full vacuum, without
any testing.
> AMAST Corporation is continuing to push for more short duration projects.
> Longer duration projects are being ignored
>
>
> University Charter proposal changes:
>
> Under the new ARISS Reorganization Charter, I propose that we cancel all
Toss Satellite projects for the duration of the remaining ISS mission and
focus our attention on longer duration projects that reach more users.
>
>
>
> Inability to Maintain projects in flight
>
> Kenwood TM-D700 Project:
>
> The Kenwood TM-D700 Transceiver, is a very good product. It is unique it
that is has a built in Data modem and mailbox. The downside to this
transceiver is that it gives the users too much control over the "User
Editable Software". It is possible to modify the software in a way that makes
the transceiver too difficult to operate, and that is exactly what happened on
this ARISS project.
>
> The MAREX team encouraged the AMSAT Corporation to keep the software setup
simple. The MAREX team had used a similar transceiver on Mir and quickly
discovered the Mir cosmonauts were easily confused by the Kenwood PM buttons
(a PM button is a Function button that have the ability to reboot the radio
into a completely new configuration).
>
> For the sake of brevity, the software complexity failed in many ways, I will
highlight one of the significant failures caused by the complex "User Editable
Software" TM-D700 software.
>
> The first thing we noticed in December 2003 when the Kenwood TM-700 was
activated from the International Space Station, was that the Packet Mailbox
was practically unusable. Only a very experienced operator, with thousands of
watts of power could access the TM-D700 mailbox. The Data delays caused by the
"User Editable Software" reduced the Mailbox data throughput from 300 bits per
second to less than 50 bits per second (See Data Test note #1). Even very
experienced Satellite packet mailbox users had extreme difficulty access the
TM-D700 mailbox. By comparison, entry level users could easily access the
Mailbox that MAREX installed on Mir.
>
> ARISS was immediately notified of the problem, however ARISS did not put any
effort into analyzing or correcting the problem. The MAREX team researched the
problem independently of ARISS and discovered that stock terrestrial versions
of the TM-700 had a working Packet Mailbox. The MAREX team soon discovered the
problem was caused by the Criss-Cross software configured that ARISS had used
on the ISS version of the TM-D700. It took MAREX 4 years of actively lobbying
ARISS to fix the problem.
>
>
>
> In the spring of 2008 (4+ years after the problem was first discovered) the
ARISS team finally had a new version of software that appeared to work. The
MAREX team tested a subset of this software that was manually configured on
board ISS. The TM-D700 Mailbox began to work for the first time 4 years, with
a normal data throughput. Unfortunately, due to a lack of coordination, a
Replacement TM-D700 was sent to ISS in the summer of 2008. The Replacement TM-
D700 was not loaded with the new software and we are back where we were in
December 2003, running the bad software.
>
> As of spring 2009 the working "User Editable Software" software has NOT been
loaded on to the ISS version of the TM-D700. The packet mailbox is still
broken on ISS TM-D700.
>
> Summary:
>
> The ARISS / AMSAT Corporation never performed any type of functionality
testing of the TM-D700 project before flight.
> The ARISS team accepted the project from Bob Brurunga team at face value and
never attempted to verify if the project meet the original operational goals.
> The ARISS team took no action to research or fix the problem. After 5 years
of flight, the easily fixable mailbox feature is still broken on ISS.
> University Charter proposal changes:
>
> Under the new ARISS Reorganization Charter, I propose that the university
form a monitoring team to periodically review the status of all Amateur Radio
projects on board ISS and other satellites sharing the same frequencies. The
Review team will provide the NASA and ESA representatives the status of the On
board projects. These reports will include the health of the projects and what
adjustments if any may be required for the safe operation of the equipment.
>
> It is normal for projects to require simple periodic maintenance to ensure
proper operation. The Amateur Radio projects are often used for dedicated
School two-way radio links. It would be a simple procedure to have a basic
safety check worked into each school schedule to verify basic aspects of the
Amateur Radio project being used.
>
> If at any time an Amateur Radio project on ISS appears to be unstable or
possibly on the verge of an unsafe condition, the Review team will notify NASA
and ESA immediately and request the project be shutdown until it can be
reevaluated for safety.
>
>
>
>
>
>
>
> Failure to provide NASA and ESA valid project status information
>
> The AMSAT Corporation would routinely deny there are problems with
equipment, even when ISS crewmembers in-flight reported the problems with the
ARISS projects.
>
> One example, Kenwood TM-D700 Fan.
>
> The TM-D700 transceiver has a built in Cooling Fan that operates when the
transmitter is active. None of us really paid much attention to the cooling
fan, nor did anyone bother to research the Duty cycle of the fan or its life
span. Instead we did focus on trying to keep the radio cool by not using the
High power mode and "Hard Wiring" the radio so that it would never transmitter
with more than 25 watts, (the terrestrial of the TM-D700 version is capable of
operating at 45 watts transmitter output).
>
> When the packet Radio options were being discussed, one of the features of
packet is called the Beacon Mode. With this option the packet station would
send out a short 1-2 second bust of data every few minutes.
>
> Example:
>
> RS0ISS>CQ [07/21/02 05:19:44]: <<UI>>:ARISS - INNTERNATIONAL SPACE STATION
>
> The purpose of the beacon is to signal stations on Earth that the ISS packet
station is in range of their location. Normally the window of access
opportunity to ISS is a small 10-minute window. By setting the beacon
correctly we could ensue that most stations would hear the beacon at least
once during their access window. If the beacon were set too frequently, it
would waist power and increase the heat load on the transmitter.
>
> The MAREX team requested a beacon set for 3-4 minutes at a power setting of
5 watts. ARISS wanted a beacon set for 2 minutes at 10 watts transmitter
power. ARISS got their way. The beacon option may seem trivial, however it did
have a big effect on the status of the cooling fan.
>
> No one knew at that time, how the fan worked and what controlled the fans
On/Off cycle.
>
> The way it works, is when the transmitter is ON, the Fan is ON. When the
transmitter turns OFF, a timer is set and the fan keeps running for 2 more
minutes after the transmitter turns OFF.
>
>
>
> Had we known this early, it would have influenced the beacon decision. Since
the beacon was set to Broadcast every two minutes. And the Cooling fan would
run for 2 minutes after the transmitter stopped, it meant that the fan was
running continuously 24 hours a day 7 days a week, whenever the TM-D700 was
turned on.
>
> The Packet software was designed to be on at all times (except during
Repeater mode). Even when the radio was in Voice mode, the packet system was
still running on a different pair of frequencies. And every two minutes the
packet system would send out another beacon, which kept the cooling fan
running all of the time.
>
> In August 2006 after 2.5 years of TM-D700 operations in flight, Cosmonaut
Commander Pavel Vinogradov reported the TM-D700 fan did not seem to be
working, "I blow on it, the fan moves and then stops". The day before the
Radio had over heated and locked up due to a problem with the Laptop
transmitter Vox-Box control cable (I will cover Vox-Box control cable in a
separate section).
>
> I was in the Tele-conference with ARISS when our Energia representative
repeated the conversation he had with Commander Pavel Vinogradov. ARISS
immediately went into denial mode and refused to believe the comments made by
Commander Pavel Vinogradov. The MAREX team requested on several occasions that
ARISS should perform a routine check out of the TM-700 on during one of the
weekly School schedule link days. It would be easy to add a few new "check
list" items to the school schedule checklist to examine the operation of the
fan to verify its status. ARISS flat-out refused to perform any examination of
the fan on the TM-D700.
>
> Frank Bauer said "I do not want to bring any attention to NASA that we may
be having a problem with fan".
>
> In August 2007 I talked to ISS crewmember Clayton Anderson on board ISS. I
asked Clayton the question that ARISS had been refusing to ask, "Is the fan on
the TM-D700 working". Clayton responded, "It?s hard to tell, I do not think
the fan is working".
>
> The statements made by Clayton Anderson and Commander Pavel Vinogradov while
using the TM-D700 on board ISS do not confirm the fan is actually broken,
however there is substantial information present for ARISS to at least start
an investigation. ARISS still refused to investigate the problem.
>
> Fortunately the Russian engineering team frequently ignores ARISS and
decided that there was sufficient information and decided to send a
replacement TM-D700 and Vox-Box to ISS in 2008.
>
>
>
> Summary:
>
> ARISS / AMSAT Corporation knew there was a possibility the critical cooling
fan on the TM-D700 may have failed and took no action.
> ARISS / AMSAT Corporation went out of their way to deny there was any
problem with the suspected cooling fan and continued to allow the transceiver
to operate in unattended modes.
> ARISS / AMSAT Corporation refused to investigate the problem which had been
reported by 2 ISS crewmembers in-flight.
> University Charter proposal changes:
>
> Under the new ARISS Reorganization Charter, I propose that the university
assign an independent team to perform a complete safety and functionality
check on every project approved by ARISS for ISS.
>
> The safety check will included the following:
>
> Complete review of all technical documentation.
> Hardware compatibility testing. Including full End-to-End testing at least a
year before flight.
> RFI emissions testing
> Human Interface testing (Is the project too complex for the ISS crew to
operate?)
> Project delivery schedule (If the project can not be completed in 2-years or
less, it should be canceled)
> Hardware Donation to ARISS:
>
> The Kenwood Company donated (15) Kenwood TM-D700 transceiver to ARISS
(around the year 2000) for the ISS projects. Very early on in the project TM-
D700, MAREX asked Frank Bauer if we could to borrow one of the TM-D700 to
evaluate the performance of the TM-D700 Software, Packet Mail system and over
all functionality. Frank agreed and promised to let MAREX borrow one of the
(15) TM-D700?s. MAREX made the request several time and was always give the
same response, "Yes we will send you one when they are available".
>
> ARISS never came through with their promise and as a result the TM-D700
never received the planned crosscheck evaluation of the project as had been
planned. This critical missing Quality Assurance check allowed many
correctable problems to slip through and resulted in an over all very poor
performing and embarrassing project for ARISS and ISS.
>
>
>
>
>
>
>
> Failure to test projects:
>
> AMSAT Corporations refusal to perform basic compatibly and usability testing
on projects has led to some embarrassing failures. The lack of testing has
been a reoccurring team throughout the ARISS projects.
>
> There are many example of the "Failure to test", however I will only
highlight one of the best document cases.
>
> Slow Scan TV project (SpaceCam1 SSTV):
>
> The SSTV project consisted for 5 parts:
>
> SSTV Software, provided by MAREX and Silicon-Pixels
> MAREX Delivered the Beta software in 1999.
>
> Laptop Computer
> ARISS took the responsibility of acquiring an approved Laptop to be used for
Amateur Radio project including Packet and Slow Scan TV. ARISS began the
acquisition in 1999 and was finally able to secure a Laptop in 2008. The
Laptop portion of the project only required 9 years to complete. Occasionally
the ISS crew would borrow the "Tourist" Laptops from other projects that would
be used intermittently with Amateur Radio projects.
>
> Erickson Transceiver
> The original SAREX team had some leftover hardware from previous Shuttle
Missions. This hardware was flight qualified for ISS and delivered to ISS in
2000.
>
> Vox-Box adapter
> An interface needed to be built to allow a Laptop computer to connect to the
Erickson transceiver. AMSAT Corporation directory Lou McFadin (ARISS Hardware
Manager) volunteered to build the interface cable. This cable would be used
for SSTV and other Amateur radio projects. The Vox-Box cable design began in
1999.
>
> Antenna System (Team effort from multiple agencies)
> A total of 5 cable feed-throughs, with antennas were made available to
Amateur Radio project in the Russian modules.
>
>
>
> Lack of End-to-End Testing:
>
> In the summer of 2000, AMSAT had sufficient hardware and software to start
performing End-to-end testing of the SpaceCam1 project. The ARISS/AMSAT
hardware team had the Antennas, Flight-Laptop (IBM-760XD), SpaceCam1 software,
VOX-Box hardware and the Erickson Transceivers.
>
> The AMSAT hardware team never performed any End-to-end testing until August
2003. At a meeting with ARISS in 2003, I was finally given access to the
Erickson hardware for the first time. To my utter amazement, no one on the
AMSAT hardware team had ever connected all of this equipment together prior to
this meeting. The ARISS hardware team had only tested individual parts
separately.
>
> I discovered numerous problems that should have been discovered years
earlier. The SpaceCam1 project was scheduled to fly to ISS in 2004 and we had
to perform qualifications testing in Moscow in November 2003.
>
> #1 Erickson Transceiver could not receive SSTV images.
>
> The first big problem was that the Erickson transceiver was not able to
receive SSTV images.
>
> The Erickson Transceivers had an audio port connection, which would be
connected to the Laptop through the Vox-Box adapter. The Audio voltage level
coming out of the Erickson connection was approximately 10 volts p-p. The
Laptop microphone input port requires a voltage level of 1-2 volt p-p.
>
> Since the Erickson was running a voltage much higher than the requirements
of the Laptop, the images displayed on the laptop were completely distorted
and unusable.
>
> The fix for this problem was never implemented by ARISS and thus the
Erickson Transceiver could not be used for SSTV or any other type of Laptop
project.
>
>
>
> #2 Vox-Box oscillations
>
> The Vox-Box is an adapter cable that takes the audio from the Laptop and
sends it to the Radio. The Vox-Box is also responsible to telling the Radio,
when to "Transmit". When the Vox-Box detects audio from the Laptop, it will
then tell the radio to "Transmit". When the audio stops, the Vox-Box will tell
the radio to switch back into receiving mode.
>
> During the Houston testing in August 2003, we noticed the Vox-Box adapter
would intermittently go into an uncontrolled Oscillation. The Oscillation
would then scramble any images being sent to the radio.
>
> Eventually a specific hardware configuration was found that seem to reduce
the Oscillations. The Kenwood TM-D700 and the IBM-760XD seemed to be
compatible. The AMSAT team that built the Vox-Box did not perform any
additional circuit modifications to understand or eliminate the Oscillation
problem.
>
> The two Vox-Box cables used on board ISS are both having problems
controlling the transmitter. When the Laptop signals the Vox-Box to start
transmit, the transmitter is activated correctly. When the Laptop signals the
Vox-Box to Stop transmitter, the Transmitter gets stuck ON.
>
> #3 Wiener Laptop
>
> The Wiener Laptop (166 MHz CPU, Windows 2000) was a backup Laptop provided
by the Russian team. This was the first time anyone at ARISS had seen this
Laptop. The Russians said, there was a spare Wiener Laptop on ISS and we were
welcome to use this computer for our Amateur Radio projects.
>
> The main problem with this computer was also associated with the Audio
output voltage levels. This Laptop was designed to run either low voltage
headsets (1-2 volts p-p) or higher voltage external speakers (15-20 volts p-
p). The Windows 2000 operating Systems was all in Russian and we had very
limited access to a Russian translator to assist with the settings. As a
result we were not able to fully document the changes required to keep the
Laptop running in the low voltage-operating mode. All images transmitted from
the Wiener Laptop while in the default Speaker setting came out scrambled.
>
>
>
> Moscow KIS testing November 2003
>
> During the months before the trip to Russia, the ARISS and MAREX team linked
up frequently by conference call. One of the goals requested by MAREX was that
we have a pre-test staging day set aside so that we could retest all of the
hardware, before going to the KIS testing facility. The pre-test staging was
very important because of the poor results we had during the August 2003
Houston testing session. Frank Bauer and the ARISS team agreed and plans were
made to set aside a day to stage all of the hardware before taking the
hardware to the KIS facility.
>
> Shortly after we arrived in Moscow, Frank Bauer told me that we would not
have a Staging test day and that we wold not have access to the hardware until
the morning of the KIS flight certification testing. A disaster was looming.
>
> On the testing day, a good portion of the morning was taken up by going
through the required security processes. When we finally arrived in our
testing office with all of our hardware, we only had 1 hour to unpack and get
ready for the testing, inside the mockup module of the ISS service module.
>
> All of the problems we had in Houston came back and then some. The first
stumbling block was that we did not have our translator with us. During the
previous 2 days of meetings, we had full access to a qualified translator.
However, in the KIS facility we did not have a translator, which would have
really been useful.
>
> The Wiener Laptop was installed in the Service module first. Unfortunately
the settings I made to the Wiener Laptop in August 2003 had been changed and
the Laptop was now sending speaker audio out at 20 volts p-p. The high
voltages caused all SSTV images sent from the service module to become
completely scrambled.
>
> The IBM 760XD and TM-D700 combination in the Office overlooking the Service
module was also having problems sending images to the Service Module.
>
> Our Back up Kenwood HT with a SSTV microphone (VCH1-Communicator) was out of
service because the battery had not been charged. Fortunately we had the 220
Volt power cube for the HT, unfortunately the plug pins were too short to
reach inside the Russian AC power outlet or Power strips.
>
> I went to a group of Russian engineers wearing white jackets and handed them
the Power Cube and a Power Strip and said in English, "Fix". The engineers
took the power cube and power strip and walked a way. A few minutes later they
came back. They had removed the protective cover to the power strip and taped
the Power Cube on to the exposed 220-Volt brass contact bars. The engineer
said in English "No Touch". Wow that was fast and simple Russian engineering.
I now had 1 working SSTV system. Unfortunately I needed two working SSTV
systems.
>
> I began working on the IBM-760XD in the lab and discovered the Audio levels
were set incorrectly, which was easy to correct. After a few minutes I was
able to send and receive SSTV images to the Backup VCH1-Commander system in
the same lab. I was also able to send Frank Bauer SSTVimages in the Service
module. Frank was still not able to Send images because of the audio level
problems with the Wiener Laptop.
>
> Frank ordered me into the Service Module to fix the Wiener computer.
Unfortunately, without a Russian translator, I could not easily navigate the
Russian version of Windows 2000 to find the correct audio settings. At one
point, a group of Cosmonauts squeezed into the Service model to see the new
SSTV project. Everyone posed for pictures. One of the cosmonauts looked at the
scrambled SSTV images on the screen and said in English, "Not working?" I
responded in poor Russian "Little Problem", I was very embarrassed.
>
> Then we got lucky, the battery on the Wiener computer died. We were not
allowed to run the laptops on AC power, they had to run on batteries for their
emission portion of the tests. The dead batter allowed us the blame the
battery for the problems and gave us the opportunity to swap over to the IBM-
760XD and Kenwood TM-D700 configuration. Within a few minutes the working IBM-
760XD was moved from the lab, into the Service Module. Once setup Frank and I
were able to Send and receive good quality SSTV images to and from the Service
Module and we were able to pass the emissions testing.
>
> Changes to the Vox-Box power source:
>
> A few weeks after the Moscow certification test, the power source for the
Vox-Box was changed from a 9-Volt battery to be able to receive power directly
from inside the Kenwood TM-D700 transceiver. This modification was only
performed on the TM-D700 in Russia, one of which was flown to ISS in the fall
of 2003. None of the other TM-700 in the USA based ARISS Hardware team made
the same changes or confirmed their functionality.
>
> When the Vox-Box was used in-flight for SSTV in August 2006, the Vox-Box
would turn ON the transmitter, however the Vox-Box circuit would get stuck and
would not turn the transmitter OFF.
>
> A new Vox-Box and TM-D700 were flown to ISS in the summer of 2008. When the
SSTV was activated again, the same problem occurred, the transmitter would get
stuck in the ON position. Flight participant Richard Garriott, tried two
different SSTV applications and both had the same problem. ARISS wants to
blame the SpaceCam1 SSTV software, however, since the problem was seen with
two completely different SSTV applications, we can assume that is its not a
software issue.
>
> The cause of the stuck transmitter is most likely and RF interference on the
DC power source feeding from the TM-D700 transmitter into the Vox-Box. I have
shown a few engineers the schematic for the ARISS Vox-Box and they all ask the
same questions, "Where is the RF bypass filtering, there is none". Without
proper RF bypass circuits, it would be easy for the Vox-Box switch to get
stuck on the ON condition.
>
>
>
> Summary:
>
> Lack of End-to-end testing left us poorly prepared with limited hardware
options.
> Canceling of the pre-test Staging resulted in an embarrassing and stressful
testing session.
> The Vox-Box Oscillation problem was observed by oscilloscope in Moscow.
> Changes to Vox-Box power source were not fully tested and may be the cause
of the two In-flight failures.
>
>
> University Charter proposal changes:
>
> Under the new ARISS Reorganization Charter, I propose that the university
assign an independent team to perform a complete safety and functionality
check on every project approved by ARISS for ISS.
>
> The safety check will included the following:
>
> Complete review of all technical documentation.
> Hardware compatibility testing. Including full End-to-End testing at least a
year before flight.
> RFI emissions testing
> Human Interface testing (Is the project too complex for the ISS crew to
operate?)
> Project delivery schedule (If the project can not be completed in 2-years or
less, it should be canceled)
> Last minute changes will need to be verified before ARISS will signoff on a
problem.
>
>
>
>
>
>
>
> _______________________________________________
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