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1990-06-21
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- 1 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
HAM package add-in for Geographic Clock Program
Copyright 1988,1989,1990 (C) Joseph R. Ahlgren
Copyright 1990 (C) Eric L. Scace
GEOCLOCK is a registered Trademark of Joseph R. Ahlgren
Release 1.0, for GEOCLOCK Version 4.2 90/06/20
GEOCLOCK RBBS at 703-241-2661
- 2 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
0. INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
1. INSTALLING GEOCLOCK HAM PACKAGE . . . . . . . . . . . . . . . . . . 3
2. STARTING THE PROGRAM . . . . . . . . . . . . . . . . . . . . . . . 4
3. CALL SIGN ANALYSIS: . . . . . . . . . . . . . . . . . . . . . . . . 4
4. ACCESS TO OTHER GEOCLOCK FEATURES . . . . . . . . . . . . . . . . . 5
5. TWILIGHT ZONE DEFINITION . . . . . . . . . . . . . . . . . . . . . 6
6. HAM DATABASE . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
6.1 HAM42A.DAT . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
6.2 GENHAMDB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
7. OTHER POINTS ABOUT HAM FEATURES . . . . . . . . . . . . . . . . . . 9
8. SUPPORT SERVICES . . . . . . . . . . . . . . . . . . . . . . . . . 9
8.1 GEOCLOCK SUPPORT . . . . . . . . . . . . . . . . . . . . . . . . . 9
8.2 HAM DATABASE SUPPORT . . . . . . . . . . . . . . . . . . . . . . . 10
8.3 ADDITIONAL MAPS . . . . . . . . . . . . . . . . . . . . . . . . . 10
9. DETAILS ABOUT CALL SIGN ANALYSIS ALGORITHM . . . . . . . . . . . . 11
- 3 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
0. INTRODUCTION
The GEOCLOCK HAM package activates several new features of particular
interest to amateur radio operators and short-wave listeners. These
include:
Azimuthal-Equidistant (Great Circle) maps.
Day, night, and twilight zone display:
-- Twilight zone parameters can be set to indicate boundaries of sun
illumination on the F- and D-layers of the ionosphere.
Amateur radio call sign analysis (based on a user-maintainable call sign
data base). When a call sign (or prefix) is entered, the following
information is displayed:
-- Remote station location
-- short and long great circle path
-- short and long path azimuth and range
-- remote station (reciprocal) azimuth
-- UTC, local, and remote station local time
-- DXCC and WAE country identifications
-- CQ and ITU zones
-- Continent, area, and location names
The package has three major components: a custom Azimuthal-Equidistant
map centered on your station; a call sign data base, and a utility program
to process the text call sign data base into the GEOCLOCK form. Your
registered copy of GEOCLOCK will use this data base to overlay HAM data on
the custom map.
The custom Azi-Equi map centered on your location is named
MAP9009.EGA. A custom GEO9009.DAT file is also provided to control the
display of HAM data.
These features are provided in addition to the other features of
GEOCLOCK.
1. INSTALLING GEOCLOCK HAM PACKAGE
Follow the installation instructions for Geoclock, as found in the
other Geoclock documentation. No special steps are need to install the
Geoclock ham package.
For the clock functions to operate properly, you must inform
Geoclock what time zone is used on your PC, and what time zone is used for
local time at your location. This information is placed into two data
files.
1. Edit the GECONFIG.DAT data file with an ASCII text file editor.
(If you do not have one, a simple editor named TED is included with
Geoclock.) Type "TED" at the DOS prompt to start this editor, and follow
the instructions on the screen.) Near the end of the file you will find a
command line beginning with the word "PCZONE". Change the time zone
indicator on this line to correspond with the time zone for the computer.
For example, if your computer's clock is set to GMT, this line should read
"PCZONE GMT".
- 4 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
2. Edit the GEO9009.DAT data file with an ASCII text file editor. On
the first line of this file you will find the default local time zone "ET"
(Eastern Time zone for USA). Change this line to the correct local time
zone for your location.
2. STARTING THE PROGRAM AND IMMEDIATELY DISPLAYING YOUR CUSTOM MAP:
To start the HAM package, simply enter "GEOCLK MAP9009" at the DOS
prompt. The program will start with your custom map and an indication of
the sun and terminator locations. In the present release, ham features are
activated only on the custom map.
TIP: Edit your GECONFIG.DAT file with an ASCII text file editor and
add the command "MAP 9009" as the last line of this file. You will now be
able to start the Geoclock program by simply entering GEOCLK at the DOS
prompt. Geoclock will then start up automatically with your custom map
displayed.
You should see a color Equi-Azi map displayed on your screen against a
black background. Your location at the center of the map is shown with a
cross symbol. Around the edge of the map are tick marks for every 10
degrees of azimuth. In the bottom right corner, your name, call sign, and
location will be displayed. In the bottom left corner two clock lines will
be displayed: GMT clock and local time at your location. (The format of
clock information can be tailored to suit your taste in clock style by
using commands described in the standard Geoclock documentation. These
commands can be executed while Geoclock is running, or added to the
GECONFIG.DAT or GEO9009.DAT files.)
In a few seconds (depending on the speed of your computer), the
current sunlight, night, and twilight zones will be displayed. A yellow
"sun" will appear at the current sun subpoint (i.e., the spot on Earth
where the sun is currently directly overhead). Geoclock will continue to
adjust the display to keep up with real time, at a rate dictated by the
processing power of your computer. The date/time of the present display is
shown on the clocks in the lower left corner.
Note: The rate of updates can be slower (approximately half as fast
for the worst case) whenever the boundaries of the twilight zone approach
the edges of the Equi-Azi map. This is because a larger number of
calculations are required in order to accurately display the twilight zone
boundary around the map edge. Geoclock automatically adjusts to this
condition in order to insure that the map display remains accurate.
3. CALL SIGN ANALYSIS:
To activate call sign analysis, simply begin to type in the letters
and numbers of the amateur radio call sign of interest. When the first key
is depressed, a window pops open and the call sign you are typing is
displayed in the window. Backspace and cursor keys may be used to correct
any typing errors. When the call sign has been completely entered, press
the RETURN key.
To abort call sign entry, press the ESCape key. To clear the call
sign display, press SPACE and then RETURN
- 5 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
You do not need to enter an entire call sign. Geoclock will operate
on call sign prefixes. However, Geoclock contains over 1,700 entries in
its call sign analysis database. By entering a complete call sign, you
will frequently benefit from more precise location information.
Call signs containing "/" may be entered directly from the keyboard;
e.g., FR5ZD/E, KN3T/KH6, HB0/DL7FT and SP9PBE/6.
Once a call sign has been entered, Geoclock displays the following
information:
a. a cross "mark" at the location of the station is added to the
map. The location chosen is the most accurate location known to the
database.
b. the local time at that distance location is added to the bottom
left corner of the screen. This is the third clock time, labelled "mark:".
This time is continually updated, along with all the other clocks on the
screen. Rules for local daylight savings (summer) time are applied.
c. short and long great circle paths from your location to the
distance "mark" are displayed on the map. If you look carefully, you will
see the long path has a yellow color. (On an Equi-Az map, the long path is
obvious: it is the path which crosses the edge of the map.) In addition,
the left side of the screen shows the following for both short and long
paths:
-- azimuth (direction) from your location to the mark.
-- azimuth from the mark to your location.
-- distance in miles and kilometers.
d. on the left side of the screen, additional information about the
call sign is shown:
-- DXCC country: standard prefix and country name.
-- WAE country: standard prefix and country name.
-- area: state, region, or ooblast within the country for this
particular call sign. For USSR ooblasts, the ooblast number is also shown.
-- mark: the city or geographical spot which is displayed on the map
and used for distance and bearing calculations.
-- CQ zone(s) for the area named above.
-- ITU zone(s) for the area named above.
This information remains on the screen until a new call sign is
entered. To erase the information, simply type the SPACE key and then the
ENTER key.
4. ACCESS TO OTHER GEOCLOCK FEATURES
A rich set of other Geoclock commands and features are described in
the accompanying Geoclock documentation. In addition to real time
operation, Geoclock can be instructed to operate at other dates and times,
and to operate at accelerated rates. Distances and great circle directions
can be determined between any locations on the globe. There are many
commands which allow you to customize the type and style of information
displayed on Geoclock. You should take time to read the remaining Geoclock
documentation in order to learn about these additional capabilities. These
will help you get the most out of your Geoclock system.
Geoclock also includes many additional maps of the world, polar regions,
continents, oceans, and individual countries. These additional maps allow
- 6 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
you to zoom in on specific areas on interest in the globe; e.g., twilight
zone crossings of Africa, etc.
While using your custom map and ham features, you can enter these
other Geoclock commands by holding down the SHIFT key while pressing the
appropriate letter. For example, pressing SHIFT and T (for Time) allows
you to change the date/time used to calculate the displayed day, night, and
twilight zones.
Note: The SHIFT key must be used. The CAPS LOCK key and caps-lock
status is ignored. Any keys pressed without the SHIFT will be interpreted
as characters for a call sign.
5. TWILIGHT ZONE DEFINITION
One of the strengths of Geoclock is the ability for you to use the
TWILIGHT and SUNLIGHT commands to determine the boundaries of the day zone,
twilight zone, and night zone. You can set these boundaries to any value
desired.
The value is the offset, in degrees, of the zone boundary from the
edge of the (geometric) sunlight part of the earth. Typical values of
interest for shortwave operating include:
SUNLIGHT -6.596 Boundary where sun starts/stops illuminating the
D-layer. This controls absorption on the lower
frequency shortwave radio bands.
TWILIGHT -14.165 Boundary where sun starts/stops illuminating the
F-layer. These values are based on average D- and
F-layer heights. They define the Ionospheric Gray
Line: a twilight zone where shortwave radio
signals can pass through the D-layer without
absorption. Within this zone signals will
encounter an illuminated F- layer whose ionization
level will be normally enhanced over that found in
the night zone.
Other common values for these commands include:
SUNLIGHT -0.833 Sunset/sunrise at sea level, taking into account
the bending of light through the Earth's
atmosphere and the apparent width of the sun.
TWILIGHT -6 Boundary of civil (legal) twilight, where it is
bright enough to work outdoors.
TWILIGHT -12 Boundary of nautical twilight, where it is bright
enough to see the horizon. One can take
navigational sightings with a sextant in this
zone.
TWILIGHT -18 Boundary of astronomical twilight, where sunlight
on the upper atmosphere interferes with the use of
telescopes by astronomers.
To use the same values for twilight definition on all maps, enter
these commands in the GECONFIG.DAT file. To specify values for each
particular map, the commands should appear in the GEO*.DAT file (where "*"
represents the map number; e.g., GEO9009.DAT for your custom Equi-Az map).
- 7 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
6. HAM DATABASE
Analysis of amateur radio call signs is driven by information
contained in the ham database. The database consists of three files:
-- HAM42A.DAT: An ASCII text file containing information described
below. The "42A" in the name indicates the version number of the database:
"42" indicates that this database was prepared to support Geoclock version
4.2, and "A" indicates this is the first release of the database for this
Geoclock version. You may have received a more recent version number.
-- GENHAMDB.EXE: An executable utility which converts the ASCII text
file into a binary format used by Geoclock for call sign analysis. Database
validation is also performed by this utility.
-- HAM.HDB: The binary format produced by the GENHAMDB.EXE utility
program.
6.1 HAM42A.DAT
The text form of the call sign data base consists of lines specifying
key data about a group of call signs. Each line consists of 11 data items:
1. CallPattern - the leading characters of the call sign group. For
example, PY signifies all call signs beginning with the characters PY.
Wildcard characters are used in describing call sign patterns as
follows:
# -- represents any single digit; i.e., 0, 1, 2, ... 9.
@ -- represents any single alphabetic character; i.e., A, B, ... Z.
? -- represents any single character, either alphabetic or numeric.
* -- represents any string of characters.
For example, PY#Z* represents any call sign beginning with PY,
followed by any single digit, then the letter Z, and then anything else.
PY0ZZ would match this pattern.
All characters are interpreted as upper case. This file has been
created in lower case. If you add entries of your own, you may wish to
make them upper case so that you can easily recognize your own additions
for future maintenance and debugging purposes.
2. HamLat - the latitude of the location corresponding to this call sign.
This may be in decimal degrees (-15.146 for 15.146 degrees South), or in
degrees/minutes/seconds ("15 8 45.6S"). If the latter format is used, the
latitude must be enclosed in quote marks.
3. HamLong - the longitude of the location corresponding to this call sign.
This may be in decimal degrees (-15.146 for 15.146 degrees West), or in
degrees/minutes/seconds ("15 8 45.6W"). If the latter format is used, the
latitude must be enclosed in quote marks.
4. HamTimeZone - the time zone code for local time for this call sign
group. For example, ET stands for US Eastern time. The time zone
acronyms are defined in the GECONFIG.DAT file.
5. HamCQzone - the CQ zone for this call sign group. If the zone has
imbedded spaces, it must be enclosed in quotes; e.g., "3 4 5".
- 8 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
6. HamITUzone - the ITU zone for this call sign group. If the zone has
imbedded spaces, it must be enclosed in quotes.
7. HamContinent - the continent for this call sign group. NA, SA, AF, EU,
AS, AN, and OC may be used as abbreviations.
8. DXCCprefix - the standard DXCC call sign prefix designation for this
CallPattern. The DXCC country identification for this CallPattern is
determined by this prefix.
9. AreaName - the name of the area within a country which is covered by
this CallPattern; e.g., state, ooblast, region, or other political
subdivision. This must be enclosed by quotes.
10. MarkName - the name of the specific place used to represent this call
sign group. Ordinarily this should correspond to the latitude,
longitude,and time zone specified above. If the MarkName is missing,the
Areaname is used. This must be enclosed by quotes.
11. WAEprefix - the standard WAE call sign prefix designation for this
CallPattern. The WAE country identification for this CallPattern is
determined by this prefix. If omitted, it is assumed that the WAE country
is the same as the DXCC country.
NOTE -- Items enclosed in quotes must be separated from one another by at
least one space. All items must be contained on a single line.
Another type of line in the text call sign data base specifies
equivalences in call signs. For example, ZY* =PY* specifies that any call
sign starting with ZY should be treated as if it started with PY; i.e.,
ZY5EG can be processed as if the call was PY5EG.
Through appropriate combinations of "equates" and wildcards, the
database and analysis algorithm is capable of accurately determining the
location of any call sign heard on the air, including special prefixes.
Mobile call signs (K3NA/MM, for instance) will be processed but not
result in a location display on the map, since the exact location of the
station is not predictable in advance.
You may add additional entries to the HAM42A.DAT (or later versions)
file with a simple ASCII file editor, following the conventions outlined
above.
Any line beginning with a space in column 1 is interpreted as a
comment. You can see a typical comment line in the first line of the
HAM42A.DAT file, where columns are named for your convenience.
6.2 GENHAMDB
After the HAM42A.DAT file has been modified, it must be converted into
a format which can be processed by the Geoclock program. The program
GENHAMDB.EXE does this conversion. To start the program, enter at the DOS
prompt: GENHAMDB (filename). Example: GENHAMDB HAM42A.DAT
- 9 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
Conversion processing can take several minutes, depending on the speed
of your computer. The GENHAMDB utility provides you with a cryptic status
of the current state of the conversion process.
When conversion is completed, GENHAMDB prompts you for a name for the
converted file. The normal convention is to use the name HAM.HDB. If you
do not specify a name, GENHAMDB will assume HAM.HDB.
NOTE -- Geoclock is initially configured to look for the database under the
name HAM.HDB. To change this, you must modify the GEO9009.DAT file with an
ASCII file editor. The command line HAMDB specifies the name of the .HDB
file to use when your custom map is displayed. For simplicity, you may
wish to always tell GENHAMDB to name its output as HAM.HDB.
After writing the .HDB file to disk, GENHAMDB allows you to test the
database without running Geoclock. You will be prompted for a call sign.
GENHAMDB takes the call sign given and looks it up in the data base, and
displays the data base entry, including a summary of the equivalences used
in the analysis. You can test as many call signs as you wish before
exiting the program.
Note -- You will also see other numbers displayed along with the data
base entry. These other numbers are used by the Geoclock software
developers in order to debug errors.
To exit GENHAMDB, enter an empty call sign (i.e., just press the
RETURN key).
If you wish to conduct further tests on the HAM.HDB file, simple
re-enter GENHAMDB by typing the following command at the DOS prompt:
GENHAMDB HAM.HDB /D
where "HAM.HDB" is the name of the .HDB binary file to be tested. GENHAMDB
takes note of the "/D" debug switch on the command line, skips the database
construction phase, and prompts you to enter test call signs.
7. OTHER POINTS ABOUT HAM FEATURES
Geoclock supports two commands which are specific to ham features.
The HAMDB command specifies the name of the call sign database to be used.
This command should be in the GECONFIG.DAT file. For example,HAMDB HAM.HDB
specifies that HAM.HDB contains the call sign data base. This database
MUST be in the format produced by GENHAMDB, not in text format. Only the
first use of HAMDB in a given run has effect - the data base cannot be
changed while GEOCLOCK is executing.
The second command, HAM, specifies that the HAM features are to be
activated. The best place to this command is in the GEO9009.DAT file
corresponding to your Azimuthal-Equidistant (Azi-Equi) map. In the 4.2
release of GEOCLOCK, the HAM features may only be used when the Azi-Equi
map is displayed. NOHAM deactivates the HAM features.
8. SUPPORT SERVICES
8.1 GEOCLOCK SUPPORT
- 10 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
Geoclock is a copyrighted software product developed by Joseph
Ahlgren. His address is listed in the other Geoclock documentation.
In addition, Joe operates an electronic bulletin board (RBBS system)
for Geoclock users. The Geoclock RBBS provides a convenient way to get
your questions answered, to receive new information about Geoclock, and to
obtain additional maps. You can also communicate with other Geoclock users
(amateur radio operators and others) via the RBBS. See the other Geoclock
documentation for RBBS telephone numbers and related technical information.
The RBBS contains PKZIP utilities, a shareware suite of programs which
compress files for transmission over telephone lines. Compressed files
save time and therefore reduce your telephone charges.
Daylight savings (summer) time changeover dates change from year to
year, according to various national laws. The latest GECONFIG.DAT commands
for proper definition of local summer time around the world is also
available on the Geoclock RBBS. Summer time and time zone definitions are
maintained by Roger Wollstadt.
8.2 HAM DATABASE SUPPORT
The call sign data base included with the HAM version of GEOCLOCK was
developed by Eric Scace, K3NA. This is also a copyrighted software
product. You may use the database for any other software which you have
developed for your personal use (e.g., contesting software, QSL card
processing programs, etc). However, the database can not be incorporated
into any software product which is sold or distributed as shareware without
prior permission.
Questions, comments, additional data and corrections to the ham
database are welcomed! These can be sent to Eric via the Geoclock RBBS, or
by other means to:
Eric L. Scace K3NA
10701 Five Forks Road
Frederick MD 21701
home: +1-301-293-2448
work: +1-703-689-6556
fax: +1-703-689-5036
telex: +23-740-0368 ERIC UC
X400 e-mail: C:USA A:Telemail O:Sprintmail
FN: Eric SN: Scace MI: L.
amateur radio BBS: K3NA @K3NA
8.3 ADDITIONAL MAPS
The Geoclock RBBS has additional maps for various smaller parts of the
globe available for downloading.
You may purchase customized maps tailored to your interests from Joe
Ahlgren. These maps can be of any part of the world, at any scale. Equi-Az
maps, polar, or rectilinear projections may be requested. Topographical
(height) data can be included as an option. Each custom map costs $30.
9. DETAILS ABOUT CALL SIGN ANALYSIS ALGORITHM
- 11 -
Ahlgren/Scace HAM package for GEOCLOCK version 4.2 90/06/21
Matching Algorithm (ALG-2):
1. Use ALG-1 on the input string.
2. If input string does not contain a "/", done
3. If there was no match, go to step 7
4. If the match after the / is exact, done
5. If the end string is /A, /M, or /P, done
6. If the end string is a single numeric, replace the first non-leading
numeric in the string before the /. If ALG-1 produces a match, done.
7. If the string exactly matches one of the */ entries, use that entry
8. Use the shorter of the strings before and after the / (after if equal)
and apply ALG-1
ALG-1:
1. Find the most stringent straight match on the input string
2. Find the most stringent equate match. If none, go to 4
3. Make the substitutions, and find the most stringent straight match
(Can be done recursively up to a maximum limit.)
4. If only one match was found, done
5. If both a straight and substitution match were found, use the more
stringent.
