Hacker Chronicles 2

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Text File | 1993-06-11 | 29KB | 551 lines

Mods from SkyMap 4.6 to 4.7 --------------------------- o STARNAME.TXT has been modified to contain both Arabic star names (e.g. Betelgeuse, Pollux) and abbreviated Bayer (Greek) designa- tions (e.g. Alp Ori, Bet Gem). Many stars brighter than magnitude 5.0 don't have a Bayer designation, but do have a Flamsteed number (e.g. 50 Cas), and many of these are included in STARNAME.TXT. There are now 758 stars in this file. A toggle has been added to the STAR CATALOGUE MENU under F9 to allow you to switch between Greek and Arabic star name labels. The corresponding keyword in the configuration file is "Greek", as in "Greek=True" for Bayer labels, and "Greek=False" for common name labels. Due to the increased size of the star label database, a "dimmest label" parameter has been added (STAR CATALOGUE MENU, F10) to allow you to control the density of labels. The default is 4.0. The corresponding keyword in the configuration file is "LabelMag", as in "LabelMag=4." o SkyMap will translate the 3-letter english abbreviations of the greek letters (appearing in STARNAME.TXT) into actual greek symbols when plotting them on your screen (as well as to an HPGL output file). With the exception of the ambiguity between omega and omicron, SkyMap will also translate two-letter abbreviations of the greek letters (e.g. al, be, ga, de, ep, ...) Note that 'om' will be parsed as omicron; use 'ome' for omega. o In addition to repointing a map using a star's arabic name (a feature added in version 3.11), you can now also use its greek name. Use a 3-letter abbreviation for the greek letter, followed by a space and a 3-letter constellation abbreviation. For example, "alp ori". If the greek letter has a superscript, include it before the space, as in "xi2 cet" and "tau3 eri". o SkyMap now supports a database of deep-sky objects, DEEPSKY.TXT. I created this file from the Arizona Deep Sky Database (which contains some 9400 objects, some as dim as 17th magnitude). I've created two subsets of this database, one to 12th magnitude which contains 1276 objects, and the other to 15th magnitude which contains 5925 objects. The 12th-magnitude subset is the default for use with SkyMap. Due to its large size, the 15th-magnitude file is available separately as DEEP15.TXT. If you wish to use this file with SkyMap, you must rename it to DEEPSKY.TXT. (Contact me if you want the COMPLETE Arizona Database.) Whichever deep-sky catalogue subset you choose to use, the file format is the same as that for STARNAME.TXT. The first line of the file is the epoch of the database (J2000), and subsequent lines list the objects in order or right ascension. All objects have a primary name, and some have secondary names. The primary name is almost always the NGC number (New General Catalogue of Nebulae & Clusters of Stars), while the secondary name (if it exists) is often a Messier number, PK number (Perek & Kohoutek, planetary nebulae), or IC number (1st and 2nd Index Catalogues to the NGC). A "Deep Sky Menu" has been added to SkyMap (which you call from the Main Menu by hitting D or d), where you can control which name, primary or secondary, is used to label deep sky objects. The default is primary (or "NGC"); the alternative is "2nd". F2 toggles between the two. F1 in the Deep Sky Menu turns deep sky objects on and off. F3 controls the magnitude of the dimmest deep sky object you want to see plotted. To make deep sky objects easy to distinguish from the stars, they are represented by small 8-segment circles and colored blue (along with their labels). o When the satellite lighting constraint is set to "Sunlit Only", the penumbral portions of any tracks now appear blue on the screen (fully sunlit portions remain red). For a satellite going from sunlit to shadowed, this feature allows you to tell when and where it should begin to noticeably dim. SkyMap assumes that the penumbral phase begins when the edge of the [refracted] sun closest to the earth (as seen from the satellite) reaches a tangent height of 20 km in spring-summer, or 15 km in fall-winter. This change affects only the "Sunlit Only" case -- "No Constraint" and "Umbra Only" tracks still appear red. o Maximum allowed satellite duration has been increased from 23:59:59 to 999:59:59 (more than a month). This change was made primarily to allow users to generate report files covering up to a month of passes for a small number of satellites. Mods from SkyMap 4.5 to 4.6 --------------------------- o Developed a better algorithm for determining when a satellite enters the earth's shadow. All prior versions of SkyMap assumed that the sun was visible all the way down to a tangent height of zero -- in other words the hard earth. This was far too optimistic. The fact is that atmospheric transmission in the visible waveband is always less than 5% at even a 15-km tangent height, and often less than 1% (depending on time of year, geographic location, recent volcanic activity, etc.). SkyMap now uses a 20-km tangent height for spring and summer, and a 15-km tangent height for fall and winter. (The season is determined based on the sign of the sun's latitude, and the sign of the earthlimb's latitude where the sun is rising/setting). For the 20-km tangent height, 0.1° of atmospheric refraction is included; for the 15-km tangent height case, 0.2° of refraction is included. These changes should lead to far more accurate estimates of shadow entry times. o Bjorn Gimle found a bug involving shadow entry times for polar and rectangular maps. The shadow entry time was seemingly dependent on the map equinox. Bug found and fixed. Mods from SkyMap 4.4 to 4.5 --------------------------- o Fixed minor bug with the checking of user-input dates. If you changed the month, SKYMAP erroneously used the *old* month to check the acceptable range of dates. For example, if you tried to change the date from 2/28/93 to 3/31/93, the program would wrongly inform you that "That month has only 28 days." Conversely, if you changed the date from say 3/1/93 to 2/31/93, it would let you get away with it. Bjorn Gimle mentioned this bug to me once many months ago, but neither of us seemed to be able to reproduce it. From the above explanation, it is clear why the bug only rarely appeared. o Attempting to plot satellite trajectories with resolutions greater than 120 seconds lead to problems in versions 4.4 and earlier. This is because the internal interpolation interval was hardcoded to two minutes. For long satellite durations, the interpolator would fall further and further behind the satellite. Since most users use resolutions under a minute, this bug would never appear for them. Bjorn Gimle found the problem while using SkyMap with a geosynchronous satellite and a 5-minute resolution. The bug has been fixed. Furthermore, the interpolation interval is no longer hardwired to two minutes, but instead is a function of the satellite's perigee. (This speeds up the code a little). o Stereographic map projections are now ALWAYS plotted for epoch and equinox of date, regardless of user settings in the STAR CATALOGUE MENU. These are the only logical settings since the coordinate system is tied to the equinox-of-date. Epoch and equinox settings will still affect Polar and Rectangular maps as in earlier versions since the RA/Dec coordinate system is not tied to the ground. o Some legitimate satellites would fail to be found by the Auto- locate and All-File search functions depending on the duration setting. This bug was particularly noticeable for short duration values (< 30 minutes). The bug has been found and fixed. Again, thanks to Bjorn for discovering this problem! Mods from SkyMap 4.3 to 4.4 --------------------------- o Command added in All-Satellite Menu to generate a report file without plotting a map. This is a much faster alternative, particularly for long search durations of a file with hundreds of satellites. o XZ zodiacal star catalogue now supported (32210 stars from magnitude 0.8 to 12.3 in roughly a 15-degree band around the ecliptic). Map can be centered on a specific XZ star using its 5-digit catalogue number. o For polar and rectangular maps, the RA/Dec coordinates of the screen center crosshair appear at the top of the screen and are updated real time as the cursor is moved. For stereographic maps, the azimuth and elevation of the crosshair appear instead. o "MinMag" keyword added to configuration file. Unlike "MaxMag" which sets the maximum visual magnitude (dimmest) star to display, any star as bright as MinMag or brighter will have the maximum apparent star size (roughly 5.3mm diameter on hardcopy). For example if MinMag = 1.0, then a star with magnitude 1.0 will appear as a large 5.3mm-diameter dot and will be indistinguish- able from stars of magnitude 0.5, -0.8 or any other value less than 1. The default value for MinMag is -1. The Star Catalogue Menu command F8 has been changed accordingly such that MinMag and MaxMag are changed as a pair. Naturally, MaxMag must be greater than MinMag. o "T" Function added to Map Attributes Menu to toggle displayed RA/Dec or Azim/Elev coordinates between degs/mins/secs (DD:MM:SS) and decimal. (HH:MM:SS for right ascension). "HDMS" logical keyword added to configuration file. Set HDMS=True for HH:MM:SS and DD:MM:SS, False for decimal. o For polar and rectangular maps, map center right ascensions and declinations can now be entered either as decimals (the old way) or in HMS format. For example, the following three inputs for RA,Dec are equivalent and all acceptable: 12.875, -40.376 12:52.5, -40:22.56 12:52:30, -40:22:33.6 o Bug discovered by Bjorn Gimle: when recentering option is used, Moon shifts positions on redraw if using All-File satellite tracking mode. (Bug also affects positions of sun and planets, but is less noticeable due to their slower apparent motions.) If any lighting constraints have been set, this bug could also occur in the regular (i.e. specific) satellite tracking mode and in the rocket mode. Bug has been fixed. Mods from SkyMap 4.2 to 4.3 --------------------------- o Bjorn Gimle noted that SkyMap failed to find all acceptable satellite passes when used with MinElev > 0. The failure rate increased as the minimum peak elevation increased. I thought I could get away with a quadratic interpolation technique with minimum peak elevation (MinElev) as a variable, but the algorithm was clearly flawed. I've rewritten the FindPass routine (used by All-File searches and Autolocate) to use a more analytical approach. When tested against the old program using a MinElev of 30 degrees, the new algorithm found 35-50% more passes, and the number of satellite passes found per second improved by over 40%. When the minimum peak elevation was increased to 50 deg, the new algorithm found 180% more passes, with an efficiency increase of 135%. Obviously the new algorithm is far superior, but it is very time- consuming to test it exhaustively. Thus it is possible that a small fraction of acceptable passes may still slip by undetected. I have yet to find one, but will continue to search for a failure. If anyone out there DOES find such a case, please leave me a message detailing the settings you used (site location, start date/time/duration, minimum peak elevation, propagation algorithm, maximum range, maximum perigee height, and lighting constraints), the NORAD # of the object that failed to be found by SkyMap, and the element set (NASAxxx, N2L-xxx, etc.) that you used. Even one failure can be quite revealing, indicating an entire class of cases that could fail. Thanks in advance to all of my "beta testers" out there in bulletin board land! Mods from SkyMap 4.1 to 4.2 --------------------------- o Space Command's FORTRAN implementation of the SGP4 algorithm in the high drag regime does not protect the eccentricity from being updated to a negative value. High drag orbits should have a ten- dency toward circularization, which is modeled in the algorithm by decreasing the eccentricity as time passes; however, once the eccen- tricity reaches zero (circular) the code lacks protection against further decreases (which would make the ecc < 0). I have changed the code so that negative eccentricities are avoided. o The FindPass subroutine (used in Autotracking and All-File searches) has been completely rewritten to better support the generation of report files. Previously, report files were generated for All-File searches only when the map type was "Stereographic" and the tracking mode was toggled to "Horizon". Now, for All-File searches a report file with local horizon coordinates is created even if the map type is "Rectangular" or "Polar", and the coordinates reported are insen- sitive to the tracking mode. For example, if the tracking mode is "Equatorial" the satellite tracks plotted will be correct relative to the stars, yet the report file will still contain true azimuth and elevation angles at the start, peak, and end of each pass. o The old report file was riddled with problems, sometimes missing satellite passes entirely, and often reporting peak elevation times outside the window defined by the start and end times of a pass! Also, if all other constraints were met, satellite start and end times were reported for zero-degree elevation angle regardless of the minimum peak elevation set by the user. The report file is now much more accurate: start and end times are calculated to the second based on ANDing of the time window of the search, ground and satellite lighting constraints, AM/PM time filters, and minimum desired elevation angle. The peak of each pass between its start and end times is also calculated to the nearest second for the report file. (Note that the maximum range filter does not affect the report file output. It just prevents plotting any portion of a trajectory beyond the specified range.) Mods from SkyMap 4.0 to 4.1 --------------------------- o Some graphics card/BIOS combinations would not clear graphics screen before replotting when using the recentering option (e.g. Ron Lee). Problem circumvented by changing graphics mode to text mode and back again before replotting. o Bjorn Gimle wanted to be able to process TLE files with long satellite names/comments and names starting with spaces -- 4.1 now allows this. o Added trap for out-of-range eccentricity in SGP4 and HANDE propa- gation models. Previously, large BStar values could cause the eccentricity to become negative, leading to a square root problem. Also, satellites with eccentricities close to 1 could produce a fatal error if propagated too far into the future. Trap prevents this from happening. Mods from SkyMap 3.11 to 4.0 ---------------------------- o Added recentering with arrow keys to Polar map projection (now all map projections support arrow-key recentering). The red crosshair in version 3.11 has been replaced with a brighter green crosshair. (The red crosshair was difficult to see against red satellite tracks.) The crosshair can now also be moved diagonally using the <Home>, <End>, <PgUp> and <PgDn> keys. o User can now zoom in (i.e. higher magnification) on a portion of the field of view using the + key. (The minus key can be used to zoom back out again, but no larger than the original FOV). Green corner fiducial marks have been added to indicate the new field of view. o Fast recentering with <Shift> arrow-keys has been superceded by an improved method. If an arrow key is held down longer than .25 secs, the cursor accelerates in that direction until either a border is reached or the key is released. The same acceleration technique applies to zooming with + and - keys. o Recentering on an object by typing its name did not work if the user changed the time/date prior to re-centering -- bug fixed. o SKYMAP switched back to plotting sun, moon, planets and stars PRIOR to plotting satellite tracks. The major argument for plotting satellite tracks last is so that the sun and moon don't obscure portions of the tracks (particularly at high zoom). o Graphic title page added to SkyMap introduction. Configuration loading messages no longer appear unless the configuration file was missing or contained erroneous entries. o The number of stars in the currently opened star file now appears in brackets in the Main Menu and Star File Menu. o There were a number of bugs in the report file generation, especially when satellites made multiple passes during the search. Report file is now generated only for stereographic maps with "horizon" track- type. (Report file was erroneously being generated for polar and rectangular maps in 3.11) o All-file searches have been sped up considerably with improved logic. Mods from SkyMap 3.10 to 3.11 ----------------------------- o User now has option of entering an object name to center the map on. Acceptable inputs include the sun, moon, and planets, any object names in STARNAME.TXT, or a star's SAO number. MAG6.IDX contains the SAO numbers for stars in MAG6.DAT, and MAG65.IDX contains the SAO numbers for stars in MAG65.DAT. o Once a map has been drawn, user can re-center the field of view using the arrow keys. A small red crosshair indicates the FOV center. The arrow keys move the crosshair one pixel left, right, up or down. Use <Shift> with the arrow keys to move faster (5 pixels at a time). At present time, this feature only works with Rectangular and Stereo- graphic map projections. o Bug discovered by author: rocket track interpolation problem if user sets time interval larger than the time intervals in the trajectory file -- fixed. o Keyword 'NORAD(n)=xxxxx' added to configuration file. When loading satellite elements for the first time from the configuration file, if a NORAD number exists for a particular satellite index (1-10), then the ephemeris file is searched using that number; otherwise, the satellite name is used. (Prior to 3.11, SkyMap always searched using the satellite name. This occasionally caused problems since some satellite names are similar. For example "Miranda" could be confused with "Mir" since "Mir" is a substring of both. Using the NORAD # is unambiguous.) Upward compatibility is maintained with .CFG files created by SkyMap 3.10 since the satellite name will be used if the NORAD number has not been defined. o A report file is now generated each time an All-File search is performed. Each line of this file contains the starting date/time of the satellite track and its location (azimuth, elevation), the time and location of the peak elevation of the track, and the ending time and location. If the user has set lighting constraints such that the satellite must be sunlit, then the end of the track is defined by the time of shadow entry or horizon contact, whichever comes first. The report file keyword REPORT[FILE] = <filename> has been added to the configuration file. The default is ALLSAT.REP. This filename can be changed using F8 in the All-File Search Menu. Mods from SkyMap 3.9 to 3.10 ---------------------------- o User now controls the spacing of tick marks using F3 in the Satellite Information Menu. Previously, a tick mark was plotted at all calculated trajectory points (i.e. the trajectory resolution). Tick marks can be turned off by entering 0 for the tick mark resolution. o Time-tags that previously appeared only in the hardcopy have now been added to the video, along with the NORAD # label for the first labeled point. Track labels are green, and tick marks have been changed from red to green to make them more visible. o An additional decimal point of accuracy has been added to right ascension, declination, altitude and azimuth labels so that maps at high zoom can better be interpreted. o Bug discovered by Dave Rasmussen -- tracks beginning out of the field of view and crossing the map such that a track point fell precisely on the border would cause a fatal division by zero. (The probability of the bug appearing was quite low unless a wide FOV was combined with a low track resolution, say < 5 seconds.) Bug has been removed. o Bug discovered by Bjorn Gimle: for Stereographic maps with very small FOVs, if the flag is set to occult objects below the horizon, azimuth grid lines could be missing. Bug has been removed. o Bugs discovered by Bjorn Gimle: if field-of-view set to less than about .06 degrees, an NDP overflow error occurs when attempting to plot stars. Stars also occasionally missing on maps with small FOV. Both problems found and fixed. o Polar plot bug discovered by Bjorn Gimle: declination lines could be missing for small FOVs. This problem occurred primarily due to a lack of program "brains" when determining the range of right ascension and declination within the FOV. (The same deficiency led to VERY slow polar grid plotting for small FOVs). Appropriate logic has now been added, solving both of these problems. Mods from SkyMap 3.8 to 3.9 --------------------------- o Under some rare circumstances involving field of view, map center, and the sun or moon positioned well out of the field of view, some or all of the stars would not be plotted. Surprisingly, this bug has been present at least as far back as version 2.7, which gives you an idea of how rarely it comes up. The bug was caused by an integer multiplication that could exceed 2^31, and has been corrected. o Can now leave out year on date entries (year remains unchanged). o Site latitude and longitude can be changed independently. o Failed city file searches no longer ask for manual input of lat, long, altitude and timezone. o Default now accepted on return for start date, start time, and duration in Edit Satellite Menu and All Satellite Menu. o Many menus are no longer cleared and redrawn following minor parameter changes. Instead, the user-input portion of the screen is erased, and the applicable parameters are updated. Mods from SkyMap 3.7 to 3.8 --------------------------- o Fixed rare fatal bug which occurred when track durations were slightly shorter than an even multiple of the track resolution. o Star labels were being truncated at 15 characters -- fixed. This only affected Asellus Borealis and Asellus Australis. o Colon character was missing from graphic screen labels -- added. o Bomb-proof date entry. Two-digit years are now treated as the last two digits of 19xx (e.g. 5/29/92 works the same as 5/29/1992). o Key strokes minimized in Edit Satellite Menu by adding index/range as a menu item. This allows autolocation of all active satellites with a single keystroke. o The autolocation search duration and minimum peak elevation are now stored in the configuration file. Keywords are SEARCHDUR(ation) = X (in days), and MINELEV(ation) = X (in degrees). o When autolocate finds a pass meeting the user's constraints, the user can now accept it, or continue searching for other passes. o All-file searches now make use of the autolocate routine logic. Searches are sped up by a factor of 4 or more. Mods from SkyMap 3.6 to 3.7 --------------------------- o Repaired bug in land file plotting section which was causing improperly connected coastline segments near the earthlimb when passing through zero azimuth (north). o F9 tabular sun/moon/planet data was not being updated when the user changed the date/time (tabular data would not update until a map was plotted). Simple bug: was missing a subroutine call. Fixed. o Added satellite load status to Satellite Information Menu: unknown, not found, loaded, autotracked, autopointed. o The Special Command Menu has been deleted. Autopointing and track coordinate type (which were set in this submenu) have been moved up to the Satellite Information Menu. An All Satellite Search Menu has been added for setting parameters for complete searches of an ephemeris file. Track all satellites is now a toggle (F1) rather than a command in the old Special Command Menu. When track all satellites is selected, the Main Menu indicates this by displaying "[All satellites in NASAxxx.TXT]" following the F7 menu line. o A maximum satellite perigee height and maximum satellite range filter has been added to the all-satellite search. Satellites in the ephemeris file with perigee heights (at ephemeris epoch) greater than the user-set maximum will be skipped. Only those portions of satellite tracks that are lower than the maximum range will be plotted. These filters only apply during full-file searches. o Variables related to complete searches of an ephemeris file are now stored in the configuration file. The start date and time are combined in SatJD(0). The all-file search duration is stored in Duration(0). The status of the all-file search (F1 on/off) is stored in the logical variable AllSats. Maximum satellite perigee is saved in MaxAlt, and maximum satellite range is saved in MaxRange, both in km. o If only one satellite appears in the satellite list, you no longer have to supply the index # when changing the start date, time or duration. o Tick marks are now plotted at the trajectory resolution. An autotagging feature has been added which plots timetags at roughly two-inch intervals on the hardcopy. To select autotagging, enter a tag resolution of zero or less in the Satellite Information Menu. This feature is particularly handy when using the All Satellite tracking mode since a single time tag interval is unsuitable when plotting sats of widely varying altitude. Mods from SkyMap 3.5 to 3.6 --------------------------- o HPGL output file menu still exited using <ESCAPE> in version 3.5 -- now changed to <ENTER> in version 3.6. o Change start date, start time and duration moved from Satellite Menu to Edit Satellite Menu. Add satellite, delete satellite and change satellite moved to Edit Satellite Menu. o Can now change or delete a range of satellites from the index list by using a dash between the starting index and ending index. For example, Enter satellite number(s) to change (1-10): 4-8 changes satellites 4 through 8. (Can still change or delete single satellites by entering a single index number). o Same dash format as above can be used when changing satellite start dates, times or durations.