Fact-checked by Grok 2 weeks ago

International Code of Signals

The International Code of Signals (ICS) is a standardized international system of visual, sound, and radio communications designed primarily for maritime and aeronautical use to ensure the safety of navigation and persons at sea or in the air, particularly in situations involving language barriers between vessels, , and shore stations. Developed and maintained by the (IMO), the ICS provides a vocabulary of signals with complete, predefined meanings to facilitate urgent, general, and medical messages without relying on extensive explanations. Originating from a British committee draft in 1855, the code was first published in 1857 with around 70,000 signals, underwent revisions in 1887 and 1897 following international conferences, and was further updated in 1930–1932 through the Madrid Conference on Radio-Telegraphic Communications. A comprehensive review by the Inter-Governmental Maritime Consultative Organization (IMCO, predecessor to the ) began in 1959, leading to its adoption in 1965 as a two-volume set; it was restructured into a single volume by 1969 and has since incorporated amendments up to the IMO's 73rd Maritime Safety Committee session in 2000, with a 2020 revision reflecting minor editorial updates and alignment with modern practices. The is organized into key chapters covering general signaling instructions, a general signal code for routine and urgent matters, a signal code for health-related queries, and distress and signals, all supported by procedural complements to modify meanings (e.g., for questions or negatives). Signals are categorized as single-letter for urgent or common phrases (e.g., "C" for ""), two-letter for general information, and three-letter starting with "M" for advice, with the entire system translated into nine languages: English, , , , , , , , and . Communication methods include flag hoisting using 26 alphabetic s, 10 numeral s, three substitutes, and an answering ; flashing light signaling via at a standard rate of 40 letters per minute; sound signaling with sirens or whistles (limited in fog for safety); radiotelephony and radiotelegraphy per International Telecommunication Union regulations; and manual using hand flags or arm semaphores. While is preferred via radio when possible, the ICS remains essential for non-verbal or emergency scenarios, and supplementary signals (e.g., U.S.-Russia codes) address specific bilateral needs. Updates and full texts are available through official IMO and national maritime authorities, ensuring ongoing relevance in global operations.

History and Development

Origins and Early Codes

The development of standardized signaling codes began in the early amid the expansion of global commerce and naval operations. A pivotal precursor was Frederick Marryat's A Code of Signals for the Merchant Service, published in 1817, which provided the first comprehensive system for merchant vessels to communicate at sea. This code employed 15 distinct s, including 10 numeral flags in various shapes—such as rectangular for numbers 1, 2, 3, 7, 8, and 9; triangular for 4 and 6; and swallow-tailed for 5 and 0—along with pendants and a telegraph flag, to spell out numerical sequences referencing phrases in an accompanying signal book. Marryat's system, initially designed for British merchant ships, quickly gained international traction, with translations into languages like , , , and , and adoption by navies in , , and ; it underwent eight editions by 1841 and remained in use until 1879. By enabling concise transmission of commercial intelligence, such as cargo details or distress alerts, it laid the groundwork for more universal signaling but highlighted the inefficiencies of national variations as trade routes proliferated across oceans. The proliferation of competing private codes—such as those by Rohde, , and Reynolds—created confusion in , particularly as steam-powered shipping and colonial trade intensified in the mid-19th century, necessitating a shift toward global standardization to ensure safe and efficient vessel interactions. Early systems like Marryat's relied heavily on numerical flags to encode commercial messages, where combinations like "2211" could denote specific phrases from a , allowing brevity but limiting flexibility without a shared vocabulary. This numerical approach, while practical for merchants exchanging trade data, proved inadequate for diverse nationalities, prompting calls for an internationally that could transcend linguistic barriers and reduce collision risks or miscommunications during encounters at sea. In 1855, amid the Crimean War's disruptions to Baltic Sea navigation, the British Board of Trade appointed a nine-member committee to consolidate these efforts into a unified commercial code, addressing the urgent need for neutral and interoperable signaling to avoid incidents involving belligerent and neutral vessels. The resulting Commercial Code of Signals, published in 1857 following deliberations concluded in September 1856, marked the first international attempt at standardization, featuring 18 flags (letters B through W, omitting vowels E, I, O, U to prevent vulgar combinations) capable of generating 70,000 signals through numerical and alphabetical substitutions. Divided into two parts—one for universal and international signals, the other for general vocabulary—this code prioritized commercial messages via numeral pennants while incorporating urgent safety signals, and it was soon adopted by nations like France in 1864, evolving into the foundation for later revisions. The 1887 revision of the code, initiated by a committee of the British Board of Trade, addressed limitations of the 1857 edition by expanding its scope, including the addition of a complete 26-flag alphabet to represent all letters A through Z, replacing the earlier incomplete set, with proposals refined at the 1889 International Conference in Washington, D.C., and the revised code completed in 1897 for broader international adoption. A key enhancement was the addition of dedicated distress signals, such as the single-flag "N" hoist indicating "I am in distress and require immediate assistance," which improved emergency communication across languages and facilitated quicker responses at sea.

Major Revisions Through the 20th Century

The 1930 revision introduced a dedicated medical signal code, developed with input from the , to enable ships to request urgent health advice or assistance when medical personnel were unavailable, such as signals for symptoms like "MAA" (urgent medical advice required). This edition, completed in seven languages and adopted at the 1932 Radiotelegraph Conference in , divided the code into visual and radiotelegraph volumes for better usability. Complementing this, the 1934 amendments added 13 new flags, bringing the total to 40 (26 alphabetic flags, 10 numeral pennants, three substitutes, and one answering pennant), specifically to support phonetic numeral representation and improve clarity in multi-flag hoists for and messages. These changes, effective January 1, 1934, addressed inefficiencies in numeral signaling from earlier codes. By 1965, the code was comprehensively revised by the Intergovernmental Maritime Consultative Organization (IMCO), prioritizing safety of life and over communications, which led to the removal of obsolete signals and the section to streamline the system. Adopted at IMCO's Fourth Assembly and published in nine languages, the single-volume edition emphasized essential signals for emergencies, such as enhanced distress protocols compatible with radiotelephony (e.g., "" equivalents), reflecting post-World War II advancements in maritime safety. This shift reduced the code's size while focusing on high-impact scenarios like collision avoidance and search-and-rescue coordination.

Adoption by the International Maritime Organization

The United Nations Maritime Conference adopted the Convention establishing the Inter-Governmental Maritime Consultative Organization (IMCO) on 6 March 1948, with the organization entering into force on 17 March 1958 and holding its first meeting in 1959; it was renamed the (IMO) in 1982. From its inception, IMCO assumed responsibility for the oversight and development of international maritime standards, including the International Code of Signals, recognizing its critical role in global navigation safety. In 1965, the fourth Assembly of IMCO formally adopted a revised version of the International Code of Signals, which underwent a safety-focused restructuring to prioritize messages related to navigation hazards, distress situations, and personnel welfare, while ensuring compatibility with emerging communication technologies. This edition was designed for transmission via flags, lights, sound signals, radiotelephony, and radiotelegraphy, eliminating the need for separate codes. The consolidated publication appeared in 1969, effective from 1 April, superseding prior national editions and marking the code's full internationalization under IMCO/IMO governance; it was prepared in nine languages—English, French, Italian, German, Japanese, Spanish, Norwegian, Russian, and Greek—to facilitate widespread adoption. Amendments adopted by the Maritime Safety Committee from the 1970s through the 1990s refined the code for greater procedural clarity, especially in radiotelephony transmissions, by standardizing phonetic spellings, distress phrasing, and brevity signals to reduce miscommunication risks. These changes also aligned the code with the International Convention for the Safety of Life at Sea (SOLAS), which mandates its carriage on equipped vessels to support emergency and safety protocols. Updates were disseminated via Notices to Mariners, ensuring progressive integration without overhauling the core structure. The 2005 edition consolidated all amendments up to the Maritime Safety Committee's 73rd session in December 2000, retaining the nine-language format for accessibility across diverse maritime communities and incorporating editorial enhancements for practical use in . A revised edition was published in 2020, reflecting minor editorial updates and alignment with modern practices, while maintaining the core structure. This version solidified the code's status as a cornerstone of IMO-regulated signaling, emphasizing its role in SOLAS-compliant operations.

Standards and Governance

International Agreements and Legal Framework

The development of the International Code of Signals (ICS) was influenced by early international agreements on maritime communications, particularly the 1906 International Radiotelegraph Convention signed in , which established standardized radio distress procedures and referenced distinguishing signals from existing maritime codes, laying the groundwork for unified signaling systems to prevent interference and ensure safety. This convention, attended by 27 nations, promoted the integration of radiotelegraph signals with visual and sound methods, influencing subsequent revisions of signal codes by harmonizing international practices for emergency communications. Under the 1974 International Convention for the Safety of Life at Sea (SOLAS), as amended, the ICS is mandated for carriage on all ships required to maintain a radio installation, as specified in Chapter V, Regulation 21, to facilitate essential safety-of-navigation communications. This requirement applies to vessels engaged in international voyages, ensuring the code's availability for visual, sound, and radio signaling in situations involving language barriers or urgency. The (IMO) holds exclusive governance over the visual and sound components of the ICS, having adopted and revised it since 1965 to align with evolving maritime safety needs, while the (ITU) oversees the radio aspects through its Radio Regulations, which dictate transmission procedures for radiotelegraphy and radiotelephony signals within the code. Operators must comply with ITU standards when using radio for ICS signals, ensuring interoperability without overlapping IMO's authority on non-radio elements. IMO resolutions emphasize multilingual accessibility for the ICS to support global safety communications, with the code prepared in nine official languages: English, , , , , , , , and . English is designated as the primary language for standardized phrases and signals, as outlined in IMO Assembly resolutions like A.80(IV), to minimize misunderstandings in .

Current Editions and Publications

The International Code of Signals is published by the (IMO) in its current form as the 2005 Edition, Fifth edition from 2021, with a refreshed version released in September 2022 under sales number IB994E. This edition includes only minor editorial improvements and a new layout for enhanced readability, without any substantive amendments to the signal system since the core updates adopted in 2000. As of November 2025, no further amendments have been adopted or entered into force. In the United States, the (NGA) maintains Publication 102, the 1969 Edition revised in 2020, which adapts the code with an emphasis on English-language applications for visual, sound, and radio communications. This version aligns closely with the international standard but provides supplementary guidance tailored to U.S. maritime needs, such as detailed flag illustrations and procedural notes. The IMO edition is available in both print and digital formats through the IMO e-Publications platform, where users can access the full text, including integrated supplements for minor errata like the February 2022 corrections. Print copies are distributed via authorized publishers, while the NGA Publication 102 is freely downloadable in PDF form from the agency's Maritime Safety Information website. Note that some outdated references, such as those citing the 2005 edition as the latest, do not reflect these refreshes, underscoring the importance of consulting official sources for the most current version.

Components of the Signal System

Flag Designs and Visual Elements

The International Code of Signals utilizes a standardized set of visual flags for hoist signaling at sea, consisting of 26 alphabetic flags and 10 numeral pennants, designed for maximum visibility using only five colors: international blue, yellow, red, black, and white. These colors were selected for their high contrast against sea and sky, ensuring signals can be discerned from distances up to several miles in daylight conditions. The flags are hoisted on halyards aboard vessels, with procedures requiring one signal hoist at a time until acknowledged, using a tackline of approximately 2 meters (6 feet) to separate multiple groups if needed. For distress signals, such as "NC" (I am in distress and require assistance), flags are hoisted at the yardarm or the most visible position to indicate urgency. When multiple flags are hoisted on the same halyard, they are read from top to bottom; across multiple halyards, reading proceeds from forward to aft, left to right. The alphabetic flags integrate with the International Civil Aviation Organization (ICAO) phonetic alphabet, adopted in 1956 and standardized for maritime use, where each flag's letter is pronounced using terms like "Alfa" for A or "Bravo" for B to avoid confusion in verbal repetitions of visual signals. This phonetic system enhances accuracy when signals are relayed via radio or voice after visual confirmation. Flags are typically constructed from durable fabric, which resists weathering and maintains vibrant colors for reliable long-range visibility, with common sizes ranging from 76 x 91 cm for smaller vessels to 198 x 244 cm for larger ships, though proportions remain consistent. The designs of the alphabetic flags, all square in shape with a 1:1 proportion except for the swallowtailed A and B (1:1.5 proportion), were finalized in the to provide distinct, easily identifiable patterns. The following table enumerates the 26 alphabetic flags, their ICAO phonetic names, and design specifications:
FlagPhonetic NameDesign Description
AWhite hoist with blue fly (vertical division), swallowtailed
BSolid red, swallowtailed
CBlue-white-red-white-blue horizontal stripes (five equal bands)
DYellow-blue-yellow horizontal (1:2:1)
EBlue over red horizontal
FWhite with red square rotated 45 degrees (edge to edge)
GYellow-blue-yellow-blue-yellow-blue vertical stripes (six equal bands)
HWhite over red vertical
ISolid yellow with black disc centered
JJuliettBlue-white-blue horizontal (equal bands)
KYellow over blue vertical
LLimaYellow-black quarters (yellow upper hoist and lower fly; black upper fly and lower hoist)
MMikeBlue with white (diagonal )
NBlue-white chequers (4x4 grid, blue upper hoist)
OOscarRed over yellow diagonal (red upper fly to yellow lower hoist)
PPapaBlue with white square centered
QQuebecSolid yellow
RRomeoRed with yellow
SSierraWhite with blue square centered
TTangoRed-white-blue vertical (equal bands)
UUniformRed-white quarters (red upper hoist and lower fly; white upper fly and lower hoist)
VVictorWhite with red (diagonal )
WWhiskeyBlue with centered white square containing red square inside
XWhite with blue horizontal (Nordic style)
YRed-yellow diagonal stripes (10 equal bands, rising from lower hoist to upper fly)
ZZuluBlack-yellow-red-blue quarters (black upper hoist, yellow upper fly, red lower hoist, blue lower fly), divided diagonally
These designs evolved from the 1901 International Code, which introduced the initial 26 alphabetic flags based on earlier systems, to the 1934 revision under the International Maritime Organization's predecessor, which refined shapes and added the numeral pennants for numeric complements in multi-flag signals. Additionally, three substitute pennants repeat preceding flags in long hoists: First Substitute (white triangle with red border), Second Substitute (blue-white-blue vertical stripes), Third Substitute (-white- vertical stripes); the answering pennant (blue and white triangular) serves for decimals or acknowledgments. The numeral pennants, tapered at the fly with a 5:9 proportion, feature unique color patterns and symbols for numbers 0-9, such as bicolor divisions and geometric elements to ensure differentiation; they were specifically added in 1934 to streamline numerical signaling previously handled by alphabetic combinations. Single or multi-letter signals using these flags convey standardized messages, as detailed in the code's structure.

Semaphore and Alternative Visual Methods

Semaphore signaling, a key visual method within the International Code of Signals (ICS), employs the positions of two arms—typically holding or using bare hands—to represent the letters A through Z for close-range communication between vessels or personnel. This system relies on eight possible positions per arm, resembling indicators (e.g., 12 o'clock for vertical upward, 3 o'clock for horizontal right), with each letter formed by a unique combination of left and right arm placements; for instance, "A" is signaled with both arms extended horizontally to the sides, while "B" positions the right arm vertically upward and the left arm horizontally to the left. Developed for situations where flag hoisting is impractical, such as on small craft or during maneuvers, allows rapid transmission of ICS single- or multi-letter signals and can incorporate numeric representations by sequencing arm positions to spell out figures (0-9) using the or direct numeral signals. Complementing semaphore, the signal lamp provides a versatile alternative for visual communication, particularly at night or over longer distances, by flashing to convey ICS messages. The lamp produces short flashes for dots (one unit duration) and long flashes for dashes (three units), with intervals between elements (three units) and letters (seven units) maintaining a standard speed of about 40 characters per minute; for example, the letter "A" is signaled as dot-dash. Transmission begins with an attention signal like "AA AA AA" and concludes with "" to indicate message end. ICS precedence is preserved through procedure signals, such as "T" for acknowledgment or "RPT" for repetition requests, allowing prioritization of urgent safety messages like distress calls. This method supports both day and night operations and can transmit full ICS code groups prefixed by "YU" for clarity. For small boats or scenarios where flags or lamps are unsuitable, simplified arm signals serve as backup visual techniques, often integrated with for distress or maneuvering instructions. These include repeatedly raising and lowering outstretched arms to indicate distress, or vertical arm motions to designate safe landing spots versus horizontal motions for danger; numeric information can be conveyed by holding fingers aloft to represent digits 1 through 10. Such signals align with single-letter meanings, like "K" for a request to land a , facilitating coordination without equipment. and arm signals may briefly combine with flag hoists for enhanced precision in hybrid scenarios. Training in these visual methods is mandated under the Standards of Training, Certification, and Watchkeeping (STCW) Convention for deck officers and ratings, ensuring proficiency in ICS semaphore, signal lamp, and arm signaling as part of competence standards for safe navigation and emergency response. Seafarers must demonstrate the ability to transmit and receive signals accurately, with assessments covering positions, Morse timing, and procedural protocols to maintain operational readiness.

Structure of Signals

Single-Letter Signals

Single-letter signals in the International Code of Signals () consist of 25 designated flags, each representing an alphabetic letter with a specific, urgent meaning related to , status, or immediate operational needs; these are hoisted singly to convey high-priority messages visible from a distance, particularly when is required or language barriers exist. Unlike multi-letter combinations used for more detailed communications, single-letter signals prioritize brevity and are intended for situations demanding rapid recognition and response, such as emergencies or maneuvering warnings. They may be supplemented by sound signals where permitted, though certain flags (marked with an asterisk in official listings) have restrictions under the International Regulations for Preventing Collisions at Sea (COLREGS) to avoid confusion with navigation sounds. The meanings of these signals were established through iterative international revisions, with significant updates in the 1931 edition (effective ) that redesigned flags for enhanced distinction in poor conditions, replacing some triangular s with square flags and improving color contrasts to ensure reliability in or low light. Usage rules specify that a single-letter signal is hoisted alone at the for maximum and emphasis; if the corresponding letter flag is unavailable due to repetition in spelling another message, one of the three substitute pennants is used: the first substitute repeats the first flag or pennant immediately above it in the hoist, repeats , and repeats the third or any above if there are fewer than three. These signals apply universally to ships and, where relevant, fishing vessels or , with contextual variations noted in official publications. The following table enumerates the single-letter signals, their phonetic names, primary meanings, and key usage notes as defined in the 1969 ICS edition (revised 2020); note that the letter R (Romeo) has no standalone meaning and is reserved for multi-letter signals.
LetterPhonetic NameMeaningUsage Notes
AAlfaI have a diver down; keep well clear at slow speed.Signals underwater operations; vessels must reduce speed and avoid wake.
*BBravoI am taking in, or discharging, or carrying dangerous goods.*Sound restricted; warns of hazardous materials requiring isolation.
*CCharlieYes (affirmative; the significance of the previous group should be read in the affirmative).*Sound restricted; used for procedural confirmation.
*DDeltaKeep clear of me; I am maneuvering with difficulty.*Sound restricted; indicates impaired control, often due to engine issues.
*EEchoI am altering my course to starboard.*Sound restricted; COLREGS turn signal.
FFoxtrotI am disabled; communicate with me.Requests contact for assistance without implying full distress.
*GGolfI require a pilot. (Fishing vessels: I am hauling nets.)*Sound restricted; standard pilot request.
*HHotelI have a pilot on board.*Sound restricted; confirms pilot embarkation.
*IIndiaI am altering my course to port.*Sound restricted; COLREGS turn signal.
JJuliettI am on fire and have dangerous cargo on board: keep well clear of me, or I am leaking dangerous cargo.Fire or leak warning; prioritizes evacuation zone.
KKiloI wish to communicate with you.Often followed by a numeral indicating method (e.g., 1 for hand flags); special landing signal for boats.
LLimaYou should stop your vessel instantly.Immediate halt order, typically for collision avoidance.
MMikeMy vessel is stopped and making no way through the water.Indicates stationary status; used in anchoring or waiting.
NNovemberNo (negative; the significance of the previous group should be read in the negative).Visual or sound only; "NO" preferred for voice/radiotelephony.
OOscarMan overboard.Emergency recovery signal.
PPapaIn harbor: All persons should report on board as the vessel is about to proceed to sea. At sea or for fishing vessels: My nets have come fast upon an obstruction.Dual context; sound often means pilot request.
QQuebecMy vessel is "healthy" and I request free pratique.Health declaration for port entry clearance.
*SSierraI am operating astern propulsion.*Sound restricted; reverse movement warning; also a landing signal.
*TTangoKeep clear of me; I am engaged in pair trawling.*Sound restricted; fishing operation alert.
UUniformYou are running into danger.Advisory warning to another vessel of hazards ahead.
VVictorI require assistance.General aid request, distinct from full distress.
WWhiskeyI require medical assistance.Signals onboard medical emergency.
XX-rayStop carrying out your intentions and watch for my signals.Halts actions pending further instructions.
YYankeeI am dragging my anchor.Drifting alert due to anchor failure.
*ZZuluI require a tug. (Fishing vessels: I am shooting nets.)*Sound restricted; towing assistance request.
In practice, the K (Kilo) signal exemplifies contextual usage: hoisted alone to initiate contact, it is typically followed by a numeral pennant specifying the communication method, such as 3 for lamp, ensuring efficient exchange in visual range. Similarly, signals like and support collision avoidance by clearly indicating course changes, complementing but not replacing multi-letter signals for complex maneuvers.

Multi-Letter Signals and Numeric Complements

Multi-letter signals in the International Code of Signals () consist primarily of two-letter combinations designed for conveying detailed, non-urgent messages related to , weather conditions, and personnel matters. These signals enable precise communication between vessels or between a vessel and shore when language barriers exist, supplementing the more immediate single-letter signals. There are over 100 such two-letter codes, each assigned a specific meaning to promote brevity and clarity in maritime operations. For instance, the signal AC indicates "I am abandoning my vessel," signaling the need for immediate but non-distress evacuation procedures. Similarly, AN means "I need a doctor," requesting medical assistance without implying a life-threatening emergency. These codes are hoisted using the corresponding letter flags and are particularly useful for routine exchanges, such as reporting position, speed, or cargo status. Three-letter general signals provide further specificity for complex queries or reports, often incorporating placeholders for additional details like locations or times. These are employed when two-letter codes are insufficient, allowing for expandable messages in non-urgent contexts. An example is RUP, which signifies "I expect (or the indicated expects) to refloat when the rises," useful in scenarios involving grounding or tidal movements. Such signals follow a structured format where the first two letters denote the category (e.g., or operations), and the third provides nuance, ensuring efficient transmission without excessive flags. Numeric complements enhance the precision of both single- and multi-letter signals by appending quantitative data, using ten distinct pennants representing digits 0 through 9. These are hoisted sequentially to form numbers, such as indicating a course or bearing. For example, the signal C followed by pennants for 2, 3, and 5 denotes "my course is 235 degrees," providing directional information critical for coordination. This system avoids ambiguity in numerical reporting, with conventions like leading zeros for courses under 100 degrees (e.g., 035 for 35°). When no predefined code exists for a required , the prioritizes brevity by spelling out words or names using the alphabetic flags, often combined with the flags (second substitute or third ) to minimize the number of flags hoisted. For instance, a vessel's name like "" would be spelled sequentially with flags T-I-T-A-N-I-C, potentially repeating the first T flag to reduce hoists. This method ensures complete communication while adhering to the code's emphasis on speed and visibility, typically limiting messages to essential elements.

Specialized Signal Series

Medical Signal Code

The Medical Signal Code, a specialized subset of the International Code of Signals, facilitates communication of medical emergencies at , particularly when onboard personnel lack medical expertise and require from shore-based authorities. Introduced in the 1930 edition of the code with assistance from the Office International d’Hygiène Publique, it enables ships to report symptoms, request guidance, and coordinate assistance without relying on . This system prioritizes urgency in maritime health crises, allowing for rapid transmission via visual flags or other signaling methods. Signals in the Medical Signal Code follow a consistent structure: the "M" flag, a blue square with a white , is hoisted first to indicate a , followed by two additional flags representing letters to form a three-letter code (e.g., MAA or MAD). This format ensures clarity and brevity, aligning with the code's overall multi-letter framework for specialized communications. For instance, MAA signals "I request urgent advice," prompting immediate response from receiving stations, while MAD signals "I am ... (indicate number) hours from the nearest port," providing logistical context for assistance. Symptom-specific reporting often uses complement tables to detail conditions, such as Table M-7 for fractures (simple or compound with location) or Table M-2 for diseases including fever and respiratory issues. These tables allow non-medical crew to convey essential details efficiently alongside three-letter signals. Response protocols incorporate supplementary questions to gather further , such as MQA, which requests details like age, sex, and to refine medical advice. signals, like MAB, facilitate coordination for by specifying meeting points or transfer arrangements. These procedures ensure a structured between the vessel and shore authorities, minimizing miscommunication in high-stakes scenarios. The code underwent significant expansion in 1965 by the Inter-Governmental Maritime Consultative Organization (IMCO, now the ), incorporating updated terminology to better align with evolving international medical standards and practices. This revision enhanced the code's precision, adding more nuanced symptom descriptors and procedural signals while maintaining the core M-series structure.

Distress and Urgency Signals

The International Code of Signals (ICS) designates specific visual signals to indicate distress and urgency at sea, ensuring clear communication in situations requiring immediate assistance or heightened caution, particularly when radio communications fail. These signals are mandatory under the and serve as a universal means to alert nearby vessels, aircraft, or rescue units, triggering international obligations for aid. The primary distress signal in the ICS is NC, meaning "I am in distress and require immediate assistance." This signal is hoisted using the N flag (blue and white checkerboard) positioned above the C flag (blue-white-red-white-blue horizontal stripes), creating a prominent vertical visible from a distance. Upon sighting NC, any observing must proceed to the distressed at full speed to render aid, in accordance with SOLAS Chapter V, Regulation 33. The NC hoist functions as the visual equivalent of the radiotelephony distress call "," providing a non-verbal alert in visual-only scenarios. For urgency situations that do not yet constitute full distress but demand urgent action, the ICS employs signals like X, which means "Stop carrying out your intentions and watch for my signals." This is particularly used for collision avoidance, where a vessel signals imminent danger and requires the other party to halt maneuvers immediately. The visual equivalent of the radiotelephony urgency call "" relies on such single-letter hoists or spelled sequences, ensuring timely intervention without escalating to full rescue protocols. Additional visual distress indicators include a square flag with a positioned either above or below it, or an orange-colored , both universally recognized to denote need of assistance. The SOS sequence can also be spelled out using flags (S-O-S) or signaled via , serving as a supplementary distress call. These visual methods integrate with the Global Maritime Distress and Safety System (GMDSS) as a critical when radio equipment fails, as required by SOLAS Chapter IV and V, ensuring redundancy in operations. While some urgency signals may overlap briefly with medical needs, such as AN indicating "I need a doctor," these are addressed in detail within the medical signal code rather than general distress procedures.

Contemporary Applications

Integration with Modern Communication Technologies

The International Code of Signals (ICS) has been adapted for use within the Global Maritime Distress and Safety System (GMDSS), where its signals are transmitted via radiotelephony on VHF channels, including Channel 16 for distress and safety communications. In GMDSS operations, ICS code groups are announced verbally with the prefix "INTERCO" to indicate their use, ensuring clarity during voice transmissions when language barriers exist. The ICS , aligned with the standard (e.g., Alfa for A, for B), is employed to spell out letters and figures precisely over VHF, reducing miscommunication in noisy maritime environments. Visual ICS flags serve as a redundant in GMDSS scenarios, particularly when electronic systems fail or during close-quarters maneuvers where digital alerts like () on VHF Channel 70 may not suffice for detailed messaging. For satellite communications, such as those via systems integrated into GMDSS, ICS signals can be conveyed through voice channels, allowing ships to relay coded messages globally without direct digital encoding of flag hoists. Although () primarily handles position and identification data, ICS complements it by providing supplementary visual or voice signals for urgent navigational instructions not covered by AIS protocols. Digital tools, including mobile applications and software simulations, facilitate ICS training by replicating flag hoists and signal decoding on tablets and computers, enhancing crew preparedness without physical flags. The IMO's e-reader format of the ICS publication supports electronic access for reference during operations. Despite advancements in GPS, radar, and automated systems reducing the frequency of traditional ICS use, its retention remains mandatory under SOLAS Chapter V, Regulation 21, for ships required to carry a radio installation, primarily to address persistent language barriers in international waters.

Training, Usage, and Global Implementation

The International Code of Signals (ICS) forms a core component of mandatory training for deck officers under the Standards of Training, Certification, and Watchkeeping for Seafarers (STCW) Convention, as amended. Specifically, Table A-II/1 of the STCW Code mandates that officers in charge of a navigational watch on ships of 500 gross tonnage or more demonstrate competence in transmitting and receiving information by visual signalling, including the ability to use the ICS for flag recognition, message encoding, and decoding in visual, sound, and radio communications. This training ensures seafarers can handle essential safety-related exchanges, with practical exercises focusing on hoist preparation, flag hoisting procedures, and interpretation under varying conditions. In practice, the ICS is deployed in critical usage scenarios where verbal communication may be unreliable or impossible, such as bridge-to-bridge exchanges during or reduced to coordinate maneuvers and avoid collisions, during port entry to signal intentions to authorities, and in multilingual encounters at sea to transmit urgent navigational or personnel information without relying on shared spoken languages. Its design prioritizes brevity and universality, allowing messages to be conveyed via flags, lights, or voice using standardized , thereby bridging language barriers in diverse . Global implementation varies by nation, with merchant fleets adhering closely to the standard ICS published by the (), while navies often incorporate supplements for operational needs. For instance, the U.S. Navy employs the ICS as the baseline for international interactions but augments it with tactical signal books for fleet-specific maneuvers and secure communications. Similarly, naval and merchant editions adapt the code and include special warning signals, such as those alerting fishing vessels to presence, to align with local practices while maintaining compatibility with the international framework. The 2020 revision of the further enhanced its relevance by updating procedures for contemporary scenarios, ensuring ongoing utility alongside brief integrations with digital aids for signal verification.

References

  1. [1]
    [PDF] INTERNATIONAL CODE OF SIGNALS 1969 Edition (Revised 2020)
    The revised Code is intended to cater primarily for situations related essentially to safety of navigation and persons, especially when language difficulties ...
  2. [2]
    International Code of Signals | IMO e-Publications
    Each signal within the International Code of Signals has a complete meaning, which ensures that specific situations related to safety can be clearly ...
  3. [3]
    International Code of Signals (Pub. 102) - Maritime Safety Information
    The Code is intended to cater primarily to situations related to safety of navigation and personnel, especially when language difficulties arise.
  4. [4]
    Frederick Marryat - Naval Marine Archive
    May 16, 2015 · Before taking to the writing of fiction, Marryat had in 1817 published the first edition of his Code of Signals for the Merchant Service.Missing: origins | Show results with:origins
  5. [5]
    The History of the International Code - August 1934 Vol. 60/8/378
    The gradual increase in importance of this signal book is reflected in the corresponding augmentation of its flags, from 15 pieces in 1817—if Marryat's Code is ...Missing: Frederick | Show results with:Frederick
  6. [6]
    Brief history of the International Code of Signals
    The first International Code was drafted in 1855 by a Committee set up by the British Board of Trade. It contained 70,000 signals, it used eighteen flags ...
  7. [7]
    International Code of Signals (Overview) - CRW Flags
    Apr 19, 2020 · The International Code of Signals was first drafted in 1855 by the British Board of Trade and subsequently published in 1857 as a means of maritime ...
  8. [8]
    [PDF] A Brief History of Signal Flags - mvSigFlags
    Nov 17, 2024 · The numeric flags referenced lists in the book A Code of Signal for the Merchant Service. Figure 6: Marryat's Flags. International Code of ...
  9. [9]
    NEW SIGNAL CODE HAS FORTY FLAGS; Revised Regulations for ...
    Yachtsmen who own the old sets of twenty-seven signal flags may, by a little scissoring and hem-sewing, and by the purchase of thirteen new flags, acquire the ...
  10. [10]
    Brief History of IMO - International Maritime Organization
    On 1 July 1998 the International Safety Management Code entered into force and became applicable to passenger ships, oil and chemical tankers, bulk carriers, ...
  11. [11]
    [PDF] PUB. 10 - dco.uscg.mil
    PUB. 10 is the International Code of Signals for visual, sound, and radio communications, adopted in 1965, and is the 1969 US edition.
  12. [12]
    [PDF] International Code of Signals - beMPC
    The revised Code is intended to cater primarily for situations related essentially to safety of navigation and persons, especially when language difficulties ...
  13. [13]
    Regulation 21 - International Code of Signals and IAMSAR Manual
    1 All ships which, in accordance with the present Convention, are required to carry a radio installation shall carry the International Code of Signals as may ...<|control11|><|separator|>
  14. [14]
    [PDF] International radio telegraph convention of Berlin: 1906
    Call letters shall be omitted and replaced by the distinguishing signal of the International Code of Signals. It is, in fact, unneces- sary to have two signals ...Missing: influence | Show results with:influence
  15. [15]
    International Radiotelegraph Conference (Berlin, 1906) - ITU
    A list of radiotelegraph stations was established, as well as an agreement on the charges for radiotelegrams.Missing: Code | Show results with:Code
  16. [16]
    [PDF] SOLAS CHAPTER V SAFETY OF NAVIGATION - GOV.UK
    Nov 23, 1995 · All ships which, in accordance with the present Convention, are required to carry a radio installation shall carry the International Code of ...
  17. [17]
    [PDF] Recommendation ITU-R M.493-16 (12/2023) - Digital selective ...
    This recommendation describes the digital selective-calling (DSC) system for use in the maritime mobile service, covering general and simplified versions of ...
  18. [18]
    IMO Standard Marine Communication Phrases
    The official languages of IMO are Arabic, Chinese, English, French, Russian and Spanish. The working languages are English, French and Spanish. Some content ...Missing: primary | Show results with:primary
  19. [19]
    [PDF] A.80(IV) adopted on 27 September 1965
    Sep 27, 2025 · (c) to authorize the Maritime Safety Committee to incorporate any amendments to the Code which may become necessary as a result of the next or.Missing: radiotelephony | Show results with:radiotelephony
  20. [20]
    [PDF] International Code of Signals
    “The Code, particularly Volume II, was primarily intended for use by ships and aircraft and, via coast radio stations, between ships or aircraft and authorities ...
  21. [21]
    Amendments to IMO instruments: upcoming and recent entry into ...
    They include amendments to SOLAS chapters II-1, III, IV and V, and the appendix (Certificates); the 1988 SOLAS Protocol; the 1994 and 2000 HSC Codes; the 1983 ...
  22. [22]
    IMO IB994E International Code of Signals (5th Edition, 2021)
    In stock $17.30 deliveryThe International Code of Signals provides mariners with a common system for communication at sea, ensuring safety is communicated clearly, even with language ...
  23. [23]
    Phonetic Alphabet and Signal Flags
    Both the meanings of the flags (the letter which they represent) and their names (which make up the phonetic alphabet) were selected by international agreement.
  24. [24]
    https://www.navcen.uscg.gov/annexiv-international-distress-signals
  25. [25]
    ANNEX IV: International Distress Signals | Navigation Center - navcen
    The following signals, used or exhibited either together or separately, indicate distress and need of assistance.
  26. [26]
    https://life.itu.int/radioclub/rr/chapt-7.pdf
  27. [27]
    [PDF] CHAPTER VII Distress and safety communications1 - ITU
    § 1. Distress communications rely on the use of terrestrial MF, HF and VHF radiocommunications and communications using satellite techniques. Distress ...
  28. [28]
    Global Maritime Distress and Safety System (GMDSS)
    Nov 20, 2023 · The GMDSS is an internationally recognized distress and radio communication safety system that has been in place for several decades.
  29. [29]
    [PDF] IALA GUIDELINE 1082 AN OVERVIEW OF AIS Edition 2.0 - navcen
    AIS enables the automatic exchange of shipboard information from vessel sensors (dynamic data), as well as manually entered static and voyage related data3, ...
  30. [30]
    Maritime Academy: ICS Flags - Apps on Google Play
    Rating 4.9 (1,067) · Free · Android104 levels and 35 challenges teaching and training maritime flag signalling and the International Code of Signals (ICS).Missing: IMO | Show results with:IMO
  31. [31]
    [PDF] STCW Code - Table A-II-1 - EduMaritime
    Column 1. Column 2. Column 3. Column 4. Competence. Knowledge, understanding. Methods for. Criteria for and proficiency demonstrating evaluating competence.
  32. [32]
    International Convention on Standards of Training, Certification and ...
    The 1978 STCW Convention was the first to establish basic requirements on training, certification and watchkeeping for seafarers on an international level.Missing: semaphore signaling Signals
  33. [33]
    INTERCO or International Code of Signals - Marine Insight
    Dec 10, 2024 · INTERCO or International Code of Signals is an international system of communication used by seafarers on onboard vessels to convey important information.