词条 | WSJT (amateur radio software) |
释义 |
| name = WSJT, WSJT-X | logo = | screenshot = | caption = | developer = Joe Taylor, K1JT | released = 2005 | programming language = Python (GUI), C++ (Qt GUI), Fortran, C [1] | operating system = 32-bit Windows NT or later, Unix, Unix-like | language = Software: English Documentation: English, Dutch, Finnish, French, German, Hungarian, Italian, Japanese, Portuguese, Russian, Serbian, Slovak, Spanish | genre = Amateur radio and DSP | license = GPL | status = active | website = physics.princeton.edu/pulsar/K1JT/ | latest release version = 1.9.1 | latest release date = {{date|2018-05-31}} }}WSJT is a computer program used for weak-signal radio communication between amateur radio operators. The program was initially written by Joe Taylor, K1JT, but is now open source and is developed by a small team. The digital signal processing techniques in WSJT make it substantially easier for amateur radio operators to employ esoteric propagation modes, such as high speed meteor scatter and moonbounce.[2] HistoryWSJT was originally released in 2001 and has undergone several major revisions. Communication modes have been both added and removed from the software over the course of its development. Since 2005, the software has been released as open source software under the GNU General Public License. This licensing change required substantial rewrites and took several months to complete. Although Joe Taylor was the original developer (and still acts as maintainer), several programmers are currently involved in writing the software. Currently, the program is written in Python and C, with several utilities written in Fortran.[2] WSJT versions up through 7.06 r1933 (referred to as colloquially as WSJT7) and earlier were aggregations of previous versions, and as such WSJT7 contained 16 different modes (FSK441, JT6M, JT65 variants A - C, JT2, JT4 variants A - G, WSPR, and a preview of JT64A). As of version 8.0 (referred to as colloquially as WSJT8) the available modes changed completely such that WSJT8 now offers 5 different modes (JTMS, ISCAT, JT64A, JT8, and Echo) -- none of which are back-compatible with WSJT7 or earlier releases.[3] This backwards-incompatibility includes JT64A, such that the preview release of JT64A in WSJT7 cannot communicate with the stable release of JT64A in WSJT8. {{As of|2018|05}}, the latest WSJT version is WSJT10. Communication modes providedThe software carries a general emphasis on weak-signal operation and advanced DSP techniques; however, the communication modes rely upon different ionospheric propagation modes and may be used on many different bands.[4] WSJT's communication modes can be divided into fast and slow modes. While fast modes send character-by-character without error correction, the slow modes aim to optimize for minimal QRO (high-power) use. As of WSJT10, supported fast modes are JTMS, FSK441, ISCAT, and JT6M, and the slow modes are JT65 and JT4.[6]{{rp|at=6}} WSJT-X 1.8 additionally implements the "slow" JT9, FT8, and QRA64. Some modes have derived submodes with larger tone spacing.[5]{{rp|at=17}} Two other modes, WSPR and Echo are included for measuring propagation and testing moon bounce echo.[5]{{rp|at=1}} FSK441FSK441, introduced in 2001 as the first communications mode included with WSJT,[2] is designed to support communication using streaks of radio-reflecting ions created in the ionosphere by the trails of meteors entering the Earth's atmosphere.[6] The bursts of signal created by such trails are commonly referred to as “pings”, due to their characteristic sound. Such pings may be as short as a tenth of a second and carry enough information to complete at least one stage of a contact.[11] FSK441 employs multi-frequency shift keying using four tones, at a data rate of 441 baud. Because of the choice of character codes in the protocol, it is self-synchronizing and does not require an explicit synchronization tone.[6] FSK441 is generally used on the 2-meter and 70-centimeter amateur bands. Contacts may be made at almost any time (that is, a meteor shower is not required to be in progress) at distances of up to 1400 miles (2250 km).[7]When transmitted messages include at least one space, the FSK441 decoding algorithm uses that space character as a syncword for zero-overhead synchronization.[6]{{rp|30}}[8]{{rp|at=12.2}} JT6MJT6M, introduced in late 2002,[2] is intended for meteor scatter and other ionospheric scattering of signals, and is especially optimized for the 6-meter band. The mode also employs multiple frequency-shift keying, but at 44 tones. One of the tones is a synchronization tone, leaving 43 tones to carry data (one tone per character in the character set, which includes alphanumerics and some punctuation). The symbol rate is 21.53 baud; the actual data rate as encoded for transmit is 14.4 characters per second. The mode is known for sounding "a bit like piccolo music".[6]JT65JT65, developed and released in late 2003,[2] is intended for extremely weak but slowly varying signals, such as those found on troposcatter or Earth-Moon-Earth (EME, or "moonbounce") paths.[6] It can decode signals many decibels below the noise floor in a 2500 Hz band (note that SNR in a 2500 Hz band is approximately 28 dB lower than SNR in a 4 Hz band, which is closer to the channel bandwidth of an individual JT65 tone), and can often allow amateurs to successfully exchange contact information without signals being audible to the human ear. Like the other modes, multiple-frequency shift keying is employed; unlike the other modes, messages are transmitted as atomic units after being compressed and then encoded with a process known as forward error correction (or "FEC"). The FEC adds redundancy to the data, such that all of a message may be successfully recovered even if some bits are not received by the receiver. (The particular code used for JT65 is Reed-Solomon.) Because of this FEC process, messages are either decoded correctly or not decoded at all, with very high probability. After messages are encoded, they are transmitted using MFSK with 65 tones.[9]Operators have also begun using the JT65 mode for contacts on the HF bands, often using QRP (very low transmit power);[10] while the mode was not originally intended for such use, its popularity has resulted in several new features being added to WSJT in order to facilitate HF operation.[11] JT9JT9, intended for MF and HF use, was introduced in an experimental version of WSJT, known as WSJT-X.[12] It uses the same logical encoding as JT65, but modulates to a 9-FSK signal. With 1-minute transmission intervals, JT9 occupies less than 16 Hz bandwidth. JT9 also has versions designed for longer transmission intervals of 2 minutes, 5 minutes, 10 minutes or 30 minutes. These extended versions take increasingly less bandwidth and permit reception of even weaker signals.[13]FT8Joe Taylor, K1JT, announced on June 29, 2017 the availability of a new mode in the WSJT-X software, FT8.[14] FT8 stands for "Franke-Taylor design, 8-FSK modulation" and was created by Joe Taylor, K1JT and Steve Franke, K9AN. It is described as being designed for "multi-hop Es where signals may be weak and fading, openings may be short, and you want fast completion of reliable, confirmable QSO's". According to Taylor, the important characteristics of FT8 are —
Compared to the so-called "slow modes" (JT9, JT65, QRA64), FT8 is a few decibels less sensitive, but allows completion of QSOs four times faster. Bandwidth is greater than JT9, but about one-quarter of JT65A and less than one-half of QRA64. Compared with the "fast modes" (JT9E-H), FT8 is significantly more sensitive, has much narrower bandwidth, uses the vertical waterfall, and offers multi-decoding over the full displayed passband. Features not yet implemented include signal subtraction, two-pass decoding, and use of a priori (already known) information as it accumulates during a QSO."[15] Alternative software for JT65There are alternative software packages available for JT65 including MultiPSK (a commercial package developed by F6CTE),[16] and JT65-HF HB9HQX Edition (a free software package forked from the JT65-HF project developed by W6CQZ).[17] The JT65-HF HB9HQX Edition software, along with the source code, may be obtained from Sourceforge.[18] An article series on using the original JT65-HF software appeared in CQ Amateur Radio's October[19] & November 2010[20] issues. And MSHV [21] from LZ2HV recompiled from source code of WSJT-X with different GUI implementation both for Linux and Windows OS. References1. ^{{cite web|title=WSJT Program Development|url=http://physics.princeton.edu/pulsar/K1JT/devel.html}} 2. ^1 2 3 {{cite conference|author=Joe Taylor, K1JT|title=Open Source WSJT: Status, Capabilities, and Future Evolution|conference=12th International EME Conference|place=Würzburg, Germany|date=August 25–27, 2006|url=http://physics.princeton.edu/pulsar/K1JT/K1JT_eme2006.pdf}} 3. ^{{cite web|title=WSJT Overview|url=http://www.physics.princeton.edu/pulsar/K1JT/wsjt.html}} 4. ^{{cite journal|title= Work the World with WSJT-X. Part 2: Codes, modes and cooperative software development|author1 = Joe Taylor, K1JT|author2 = Steve Franke, K9AN|author3 = Bill Sommerville, G4WJS|journal = RadCom|publisher = Radio Society of Great Britain|issn = 1367-1499|date= August 2017 |volume=93 |issue=08|pages=58–59}} 5. ^1 {{cite web|url=http://physics.princeton.edu/pulsar/K1JT/wsjtx-doc/wsjtx-main-1.8.0.html|title=WSJT-X User Guide|author=K1JT}} 6. ^1 2 3 4 5 {{cite web|url=http://physics.princeton.edu/pulsar/K1JT/WSJT_User_600.pdf|title=WSJT6 User Guide & Reference Manual|author=Joe Taylor, K1JT|date=2006-08-10}} 7. ^1 {{cite journal|author=Joe Taylor, K1JT|title=WSJT: New Software for VHF Meteor-Scatter Communication|journal=QST|date=December 2001|pages=36–41|url=http://physics.princeton.edu/pulsar/K1JT/WSJT_QST_Dec2001.pdf}} 8. ^1 Joseph H Taylor, Jr, K1JT."WSJT User Guide". 9. ^{{cite journal|author=Joe Taylor, K1JT|title=The JT65 Communications Protocol|journal=QEX: A Forum for Communications Experimenters|date=September–October 2005|pages=3–12|url=http://physics.princeton.edu/pulsar/K1JT/JT65.pdf}} 10. ^{{cite journal|author=Steve Ford, WB8IMY|title=JT65A on the HF Bands|journal=QST|date=July 2007|page=85}} 11. ^{{cite web|title=WSJT revision history and release notes|url=http://www.physics.princeton.edu/pulsar/K1JT/UpdateHistory.txt}} 12. ^{{cite journal|title= Work the World with WSJT-X. Part 1: Operating capabilities|author1 = Joe Taylor, K1JT|author2 = Steve Franke, K9AN|author3 = Bill Sommerville, G4WJS|journal = RadCom|publisher = Radio Society of Great Britain|issn = 1367-1499|date= July 2017 |volume=93 |issue=07|pages=40–45}} 13. ^{{cite web|url=http://ac4m.us/jt9.html|title=JT9|author=AC4M}} 14. ^{{cite web| title=FT8 Mode is Latest Bright Shiny Object in Amateur Radio Digital World| url=http://www.arrl.org/news/ft8-mode-is-latest-bright-shiny-object-in-amateur-radio-digital-world| publisher=American Radio Relay League (ARRL)| date=2017-08-01}} 15. ^{{cite web|url=http://physics.princeton.edu/pulsar/K1JT/Release_Notes_1.8.0.txt|title=FT8|author=Joe Taylor, K1JT}} 16. ^{{cite web|title=MultiPSK - Ham Radio Software from F6CTE|url=http://f6cte.free.fr/index_anglais.htm}} 17. ^{{cite web|title=Google Group for JT65-HF HB9HQX Edition|url=https://groups.google.com/group/jt65-hf-hb9hqx-edition}} 18. ^{{cite web|title=Download site for JT65-HF HB9HQX Edition|url=http://sourceforge.net/projects/jt65hfhb9hqxedi/?source=directory}} 19. ^{{cite journal|author=David Witkowski, W6DTW & Tomas Hood, NW7US|title=Communicating Under The Noise|journal=CQ Amateur Radio|date=October 2010}} 20. ^{{cite journal|author=David Witkowski, W6DTW & Tomas Hood, NW7US|title=Communicating Under The Noise|journal=CQ Amateur Radio|date=November 2010}} 21. ^{{Cite web|url=http://lz2hv.org/mshv|title=MSHV Amateur Radio Software {{!}} LZ2HV Amateur Radio Website|website=lz2hv.org|language=en|access-date=2018-09-10}} External links
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