Signal strength and readability report

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A signal strength and readability report is a standardized format for reporting the strength of the radio signal and the readability (quality) of the radiotelephone (voice) or radiotelegraph (Morse code) signal transmitted by another station as received at the reporting station's location and by their radio station equipment. These report formats are usually designed for only one communications mode or the other, although a few are used for both telegraph and voice communications. All but one of these signal report formats involve the transmission of numbers.

Contents

History

As the earliest radio communication used Morse code, all radio signal reporting formats until about the 1920s were for radiotelegraph, and the early voice radio signal report formats were based on the telegraph report formats.[ citation needed ]

Timeline of signal report formats

Radiotelegraph report formats

Q-Code signal report formats

The QSA code and QRK code are interrelated and complementary signal reporting codes for use in wireless telegraphy (Morse code). They replaced the earlier QSJ code.

Currently, the QSA and QRK codes are officially defined in the ITU Radio Regulations 1990, Appendix 13: Miscellaneous Abbreviations and Signals to Be Used in Radiotelegraphy Communications Except in the Maritime Mobile Service. They are also described identically in ACP131(F),: [1]

ITU-R Radiotelegraph Signal Reporting Formats
SignalQuestionAnswer, Advice, or Order
QSAWhat is the strength of my signals (or those of...)?The strength of your signals (or those of...) is...
  1. scarcely perceptible
  2. weak
  3. fairly good
  4. good
  5. very good
QRKWhat is the intelligibility of my signals (or those of...)?The intelligibility of your signals (or those of...) is...
  1. bad
  2. poor
  3. fair
  4. good
  5. excellent

R-S-T system

Amateur radio users in the U.S. and Canada have used the R-S-T system since 1934. This system was developed by amateur radio operator Arthur W. Braaten, W2BSR. [2] [3] [4] [5] It reports the readability on a scale of 1 to 5, the signal strength on a scale of 1 to 9, and the tone of the Morse code continuous wave signal on a scale of 1 to 9. [6] [7] During amateur radio contests, where the rate of new contacts is paramount, contest participants often give a perfect signal report of 599 even when the signal is lower quality, because always providing the same signal format enables them to send Morse code with less thought and thus increased speed.[ citation needed ]

ARRL R-S-T System
No.Meaning
RST
9Extremely strong signalsPerfect tone, no trace of ripple or modulation of any kind
8Strong signalsNear perfect tone, slight trace of modulation
7Moderately strong signalsNear pure tone, trace of ripple modulation
6Good signalsFiltered tone, definite trace of ripple modulation
5Perfectly readableFairly good signalsFiltered rectified a.c. but strongly ripple-modulated
4Readable with practically no difficultyFair signalsRough note, some trace of filtering
3Readable with considerable difficultyWeak signalsRough a.c. tone, rectified but not filtered
2Barely readable, occasional word distinguishableVery weak signalsVery rough a.c., very harsh and broad
1UnreadableFaint—signals barely perceptibleSixty cycle a.c or less, very rough and broad

SINPO code

SINPO is an acronym for Signal, Interference, Noise, Propagation, and Overall, which was developed by the CCIR in 1951 (as C.C.I.R. Recommendation No. 251) for use in radiotelegraphy, and the standard is contained in Recommendation ITU-R Sm.1135, SINPO and SINPFEMO codes. [8] This format is most notably used by the BBC for receiving signal reports on postcards mailed from listeners, even though that same standard specifies that the SINPFEMO code should be used for radiotelephony transmissions. SINPO is the official radiotelegraph signal reporting codes for international civil aviation [9] and ITU-R. [10]

ITU-R SINPO Code
Rating scaleSINPO
Degrading effect of
Signal strengthInterference
(man-made)		Noise
(natural)		Propagation
disturbance		Overall
rating
5ExcellentNilNilNilExcellent
4GoodSlightSlightSlightGood
3FairModerateModerateModerateFair
2PoorSevereSevereSeverePoor
1Barely audibleExtremeExtremeExtremeUnusable

Radiotelephony report formats

R-S-T system

Amateur radio operators use the R-S-T system to describe voice transmissions, dropping the last digit (Tone report) because there is no continuous wave tone to report on.

ARRL R-S-T System, as used for voice communications
No.Meaning
RS
9Extremely strong signals
8Strong signals
7Moderately strong signals
6Good signals
5Perfectly readableFairly good signals
4Readable with practically no difficultyFair signals
3Readable with considerable difficultyWeak signals
2Barely readable, occasional word distinguishableVery weak signals
1UnreadableFaint—signals barely perceptible

SINPEMFO code

An extension of SINPO code, for use in radiotelephony (voice over radio) communications, SINPFEMO is an acronym for Signal, Interference, Noise, Propagation, Frequency of Fading, Depth, Modulation, and Overall.

ITU-R SINPEMFO Code
Rating scaleSINPFEMO
Degrading effect ofFrequency of fadingModulation
Signal
strength		Interference
(man-made)		Noise
(natural)		Propagation
disturbance		QualityDepthOverall
rating
5ExcellentNilNilNilNilExcellentMaximumExcellent
4GoodSlightSlightSlightSlowGoodGoodGood
3FairModerateModerateModerateModerateFairFairFair
2PoorSevereSevereSevereFastPoorPoor or NilPoor
1Barely audibleExtremeExtremeExtremeVery fastVery PoorContinuously over-modulatedUnusable

Plain-language radio checks

The move to plain-language radio communications means that number-based formats are now considered obsolete, and are replaced by plain language radio checks. These avoid the ambiguity of which number stands for which type of report and whether a 1 is considered good or bad. This format originated with the U.S. military in World War II, and is currently defined by ACP 125 (G)., [11] published by the Combined Communications Electronics Board.[ citation needed ]

The prowords listed below are for use when initiating and answering queries concerning signal strength and readability.[ citation needed ]

ACP 125 (G) procedures for initiating and responding to a Radio Check
ProwordMeaning
RADIO CHECKWhat is my signal strength and readability; how do you hear me?
ROGERI have received your last transmission satisfactorily.
NOTHING HEARDTo be used when no reply is received from a called station.
ACP 125 (G) Plain-Language Radio Check Procedure Words
ProwordMeaningConjunctionProwordMeaning
LOUDYour signal is very strong.AND or BUT, depending on which prowords are combinedCLEARThe quality of your transmission is excellent.
GOODYour signal strength is good.READABLEThe quality of your transmission is satisfactory.
WEAKYour signal strength is weak.UNREADABLEThe quality of your transmission is so bad that I cannot read you.
VERY WEAKYour signal strength is very weak.DISTORTEDHaving trouble reading you due to interference.
FADINGAt times your signal strength fades to such an extent that continuous reception cannot be relied upon.WITH INTERFERENCEHaving trouble reading you due to interference.
INTERMITTENTHaving trouble reading you because your signal is intermittent.

Use in analog vs. digital radio transmission modes

In analog radio systems, as receiving stations move away from a radio transmitting site, the signal strength decreases gradually, causing the relative noise level to increase. The signal becomes increasingly difficult to understand until it can no longer be heard as anything other than static. [12] :38

These reporting systems are usable for, but perhaps not completely appropriate for, rating digital signal quality.[ citation needed ] This is because digital signals have fairly consistent quality as the receiver moves away from the transmitter until reaching a threshold distance. At this threshold point, sometimes called the "digital cliff,"the signal quality takes a severe drop and is lost". [12] :38 This difference in reception reduces attempts to ascertain subjective signal quality to simply asking, "Can you hear me now?" or similar. The only possible response is "yes"; otherwise, there is just dead air. This sudden signal drop was also one of the primary arguments of analog proponents against moving to digital systems. However, the "five bars" displayed on many cell phones does directly correlate to the signal strength rating.[ citation needed ]

Informal terminology and slang

The phrase "five by five" can be used informally to mean "good signal strength" or "loud and clear". [13] An early example of this phrase was in 1946, recounting a wartime conversation. [14] The phrase was used in 1954 in the novel The Blackboard Jungle . [15] Another example usage of this phrase is from June 1965 by the crew of the Gemini IV spacecraft. [16] This phrase apparently refers to the fact that the format consists of two digits, each ranging from one to five, with five/five being the best signal possible.

Some radio users have inappropriately started using the Circuit Merit telephone line quality measurement.[ citation needed ] This format is unsuitable for radiotelegraph or radio-telephony use because it focuses on voice-to-noise ratios, for judging whether a particular telephone line is suitable for commercial (paying customer) use, and does not include separate reports for signal strength and voice quality.[ citation needed ]

See also

Related Research Articles

<span class="mw-page-title-main">Morse code</span> Transmission of language with brief pulses

Morse code is a method used in telecommunication to encode text characters as standardized sequences of two different signal durations, called dots and dashes, or dits and dahs. Morse code is named after Samuel Morse, one of the early developers of the system adopted for electrical telegraphy.

<span class="mw-page-title-main">Wireless telegraphy</span> Method of communication

Wireless telegraphy or radiotelegraphy is transmission of text messages by radio waves, analogous to electrical telegraphy using cables. Before about 1910, the term wireless telegraphy was also used for other experimental technologies for transmitting telegraph signals without wires. In radiotelegraphy, information is transmitted by pulses of radio waves of two different lengths called "dots" and "dashes", which spell out text messages, usually in Morse code. In a manual system, the sending operator taps on a switch called a telegraph key which turns the transmitter on and off, producing the pulses of radio waves. At the receiver the pulses are audible in the receiver's speaker as beeps, which are translated back to text by an operator who knows Morse code.

<span class="mw-page-title-main">NATO phonetic alphabet</span> Letter names for unambiguous communication

The (International) Radiotelephony Spelling Alphabet, commonly known as the NATO phonetic alphabet, is the most widely used set of clear code words for communicating the letters of the Roman alphabet. Technically a radiotelephonic spelling alphabet, it goes by various names, including NATO spelling alphabet, ICAO phonetic alphabet and ICAO spelling alphabet. The ITU phonetic alphabet and figure code is a rarely used variant that differs in the code words for digits.

<span class="mw-page-title-main">Q code</span> Type of Morse code operating signal

The Q-code is a standardised collection of three-letter codes that each start with the letter "Q". It is an operating signal initially developed for commercial radiotelegraph communication and later adopted by other radio services, especially amateur radio. To distinguish the use of a Q-code transmitted as a question from the same Q-code transmitted as a statement, operators either prefixed it with the military network question marker "INT" or suffixed it with the standard Morse question mark UD.

Mayday is an emergency procedure word used internationally as a distress signal in voice-procedure radio communications.

<span class="mw-page-title-main">SOS</span> International Morse code distress signal

SOS is a Morse code distress signal, used internationally, originally established for maritime use. In formal notation SOS is written with an overscore line, to indicate that the Morse code equivalents for the individual letters of "SOS" are transmitted as an unbroken sequence of three dots / three dashes / three dots, with no spaces between the letters. In International Morse Code three dots form the letter "S" and three dashes make the letter "O", so "S O S" became a common way to remember the order of the dots and dashes. IWB, VZE, 3B, and V7 form equivalent sequences, but traditionally SOS is the easiest to remember.

<span class="mw-page-title-main">R-S-T system</span> Brevity code for Ham radio signal reports

The R-S-T system is used by amateur radio operators, shortwave listeners, and other radio hobbyists to exchange information about the quality of a radio signal being received. The code is a three digit number, with one digit each for conveying an assessment of the signal's readability, strength, and tone. The code was developed in 1934 by Amateur radio operator Arthur W. Braaten, W2BSR, and was similar to that codified in the ITU Radio Regulations, Cairo, 1938.

Radiotelephony procedure includes various techniques used to clarify, simplify and standardize spoken communications over two-way radios, in use by the armed forces, in civil aviation, police and fire dispatching systems, citizens' band radio (CB), and amateur radio.

From early in the 20th century, the radio frequency of 500 kilohertz (500 kHz) was an international calling and distress frequency for Morse code maritime communication. For much of its early history, this frequency was referred to by its equivalent wavelength, 600 meters, or, using the earlier frequency unit name, 500 kilocycles or 500 kc.

SINPO, an acronym for Signal, Interference, Noise, Propagation, and Overall, is a Signal Reporting Code used to describe the quality of broadcast and radiotelegraph transmissions. SINPFEMO, an acronym for Signal, Interference, Noise, Propagation, frequency of Fading, dEpth, Modulation, and Overall is used to describe the quality of radiotelephony transmissions. SINPFEMO code consists of the SINPO code plus the addition of three letters to describe additional features of radiotelephony transmissions. These codes are defined by Recommendation ITU-R Sm.1135, SINPO and SINPFEMO codes.

<span class="mw-page-title-main">Prosigns for Morse code</span> Predefined shorthand signals

Procedural signs or prosigns are shorthand signals used in Morse code telegraphy, for the purpose of simplifying and standardizing procedural protocols for landline and radio communication. The procedural signs are distinct from conventional Morse code abbreviations, which consist mainly of brevity codes that convey messages to other parties with greater speed and accuracy. However, some codes are used both as prosigns and as single letters or punctuation marks, and for those, the distinction between a prosign and abbreviation is ambiguous, even in context.

<span class="mw-page-title-main">Morse code abbreviations</span> Abbreviations commonly used in Morse code

Morse code abbreviations are used to speed up Morse communications by foreshortening textual words and phrases. Morse abbreviations are short forms, representing normal textual words and phrases formed from some (fewer) characters taken from the word or phrase being abbreviated. Many are typical English abbreviations, or short acronyms for often-used phrases.

A radiogram is a formal written message transmitted by radio. Also known as a radio telegram or radio telegraphic message, radiograms use a standardized message format, form and radiotelephone and/or radiotelegraph transmission procedures. These procedures typically provide a means of transmitting the content of the messages without including the names of the various headers and message sections, so as to minimize the time needed to transmit messages over limited and/or congested radio channels. Various formats have been used historically by maritime radio services, military organizations, and Amateur Radio organizations.

Procedure words are words or phrases limited to radio telephone procedure used to facilitate communication by conveying information in a condensed standard verbal format. Prowords are voice versions of the much older procedural signs for Morse code which were first developed in the 1860s for Morse telegraphy, and their meaning is identical.

Brevity codes are used in amateur radio, maritime, aviation and military communications. The codes are designed to convey complex information with a few words or codes. Some terms are classified to the public.

The Circuit Merit system is a measurement process designed to assess the voice-to-noise ratio in wired and wireless telephone circuits, especially the AMPS system, and although its reporting scale is sometimes used as input for calculating mean opinion score, the rating system is officially defined relative to given ranges of voice-to-noise ratios.

A plain-language radio check is the means of requesting and giving a signal strength and readability report for radiotelephony (voice) communications, and is the direct equivalent to the QSA and QRK code used to give the same report in radiotelegraph communications. SINPEMFO code is the voice signal reporting format developed by the ITU in 1959, but sees little use outside of shortwave listeners.

16-line message format, or Basic Message Format, is the standard military radiogram format for the manner in which a paper message form is transcribed through voice, Morse code, or TTY transmission formats. The overall structure of the message has three parts: HEADING, TEXT, and ENDING. This heading is further divided into procedure, preamble, address, and prefix. Each format line contains pre-defined content. An actual message may have fewer than 16 actual lines, or far more than 16, because some lines are skipped in some delivery methods, and a long message may have a TEXT portion that is longer than 16 lines by itself.

The QSA code and QRK code are interrelated and complementary signal reporting codes for use in wireless telegraphy. An enhanced format, SINPO code, was published in the ITU Radio Regulations, Geneva, 1959, but is longer and unwieldy for use in the fast pace of Morse code communications.

Operating signals are a type of brevity code used in operational communication among radio and telegraph operators. For example:

References

  1. "ACP 131(F) - Communications Instructions Operating Signals, April 2009" (PDF). Archived from the original (PDF) on September 6, 2012.
  2. "The Radio Amateur's Handbook" (PDF). p. 363. Archived (PDF) from the original on 4 March 2016. Retrieved 4 July 2015.
  3. "The RST Standard of Reporting". Archived from the original on 24 September 2015. Retrieved 4 July 2015.
  4. Andrea, Steve. "Can You Read Me Now?" (PDF). ARRL. Archived (PDF) from the original on 15 March 2016. Retrieved 4 July 2015.
  5. Arthur M. Braaten, W2BSR. "A New Standard System of Reporting Signals" (PDF). ARRL. p. 18. Archived (PDF) from the original on 5 July 2015. Retrieved 4 July 2015.{{cite web}}: CS1 maint: numeric names: authors list (link)
  6. "Quick Reference Operating Aids (The RST System)". Archived from the original on 2018-04-16. Retrieved 2018-04-10.
  7. "Ham Radio "RST" Signal Reporting System for CW/Phone Operation". University of Buffalo. Archived from the original on 14 October 2017. Retrieved 24 September 2017.
  8. "ITU-R Sm.1135, SINPO and SINPFEMO codes" (PDF). Archived (PDF) from the original on 2016-03-04. Retrieved 2018-04-10.
  9. "Procedures for Air Navigation Services: ICAO Abbreviations and Codes" (PDF). Archived (PDF) from the original on 19 April 2017. Retrieved 27 April 2015.
  10. "ITU-R Sm.1135, SINPO and SINPFEMO codes" (PDF). Archived (PDF) from the original on 2016-03-04. Retrieved 2018-04-10.
  11. "ACP 125 (G): Communications Instructions: Radiotelephone Procedures" (PDF). 28 November 2016. Archived (PDF) from the original on 19 February 2018. Retrieved 10 April 2018.
  12. 1 2 Imel, Kathy J.; Hart, James W. (January 2003). "Understanding Wireless Communications in Public Safety" (PDF). FCC.gov. The National Law Enforcement and Corrections Technology Center–Rocky Mountain. Archived (PDF) from the original on May 21, 2015. Retrieved September 19, 2015.
  13. The New Partridge Dictionary of Slang and Unconventional English (2015), p 857. United Kingdom: Taylor & Francis.
  14. Burns, Milton. "Horse of another Color", Leatherneck, January 1946, p. 31.
  15. Evan Hunter, The Blackboard Jungle, Simon and Schuster 1954, ISBN   9780837604046. "The man thrust his long jaw closer to the head of the mike and then said, 'All right, testing, one-two-three-four, one-two-three-four.' A boy at the back of the auditorium shouted, 'Five by five, Mr. Halloran'... "
  16. Gemini IV PAO Mission Commentary Transcript,, tape 183, page 1. On page 434 of PDF transcript: https://historycollection.jsc.nasa.gov/JSCHistoryPortal/history/mission_trans/GT04_PAO.PDF
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