Wacław Struszyński (; 1904–1980) was a Polish electronics engineer who made a vital contribution to the defeat of

U-boat U-boats are Submarine#Military, naval submarines operated by Germany, including during the World War I, First and Second World Wars. The term is an Anglicization#Loanwords, anglicized form of the German word , a shortening of (), though the G ...

s in the

Battle of the Atlantic The Battle of the Atlantic, the longest continuous military campaign in World War II, ran from 1939 to the defeat of Nazi Germany in 1945, covering a major part of the naval history of World War II. At its core was the Allies of World War II, ...

. He designed an exceptional radio antenna which enabled effective

high frequency High frequency (HF) is the ITU designation for the band of radio waves with frequency between 3 and 30 megahertz (MHz). It is also known as the decameter band or decameter wave as its wavelengths range from one to ten decameters (ten to one ...

(HF)

radio direction finding Direction finding (DF), radio direction finding (RDF), or radiogoniometry is the use of radio waves to determine the direction to a radio source. The source may be a cooperating radio transmitter or may be an inadvertent source, a natural ...

systems to be installed on

Royal Navy The Royal Navy (RN) is the naval warfare force of the United Kingdom. It is a component of His Majesty's Naval Service, and its officers hold their commissions from the King of the United Kingdom, King. Although warships were used by Kingdom ...

convoy A convoy is a group of vehicles, typically motor vehicles or ships, traveling together for mutual support and protection. Often, a convoy is organized with armed defensive support and can help maintain cohesion within a unit. It may also be used ...

escort ships. Such direction finding systems were referred to as HF/DF or

Huff-Duff High-frequency direction finding, usually known by its abbreviation HF/DF or nickname huff-duff, is a type of radio direction finder (RDF) introduced in World War II. High frequency (HF) refers to a radio band that can effectively communicate ove ...

, and enabled the bearings of U-boats to be determined when the U-boats made high frequency radio transmissions.

Early life

Struszynski was born in Wieruszów near Łódź (now in Poland) in 1904. He spent his youth in Moscow, but the family returned to Poland in 1918. He received his master's degree in Engineering (''Dipl. Ing.'') at the

Warsaw University of Technology The Warsaw University of Technology () is one of the leading institutes of technology in Poland and one of the largest in Central Europe. It employs 2,453 teaching faculty, with 357 professors (including 145 titular professors). The student body ...

in 1929, and joined the Polish State Telecommunication Establishment, where he became head of the Direction Finding Division. When Poland was invaded in 1939, he was evacuated from Warsaw, and reached

England England is a Countries of the United Kingdom, country that is part of the United Kingdom. It is located on the island of Great Britain, of which it covers about 62%, and List of islands of England, more than 100 smaller adjacent islands. It ...

in 1940. Struszynski's father was chemist Professor Marceli Struszynski of the Warsaw University of Technology. During the Second World War, he worked with the Polish resistance, and analyzed the fuel used in the

V2 rocket The V2 (), with the technical name ''Aggregat-4'' (A4), was the world's first long-range guided ballistic missile. The missile, powered by a liquid-propellant rocket engine, was developed during the Second World War in Nazi Germany as a " veng ...

Career

World War II

Radio direction finding and U-boat tracking

World War II World War II or the Second World War (1 September 1939 – 2 September 1945) was a World war, global conflict between two coalitions: the Allies of World War II, Allies and the Axis powers. World War II by country, Nearly all of the wo ...

, the U-boat wolf packs were organised by high frequency radio, in which long range communication was achieved by the reflection of radio signals from the

ionosphere The ionosphere () is the ionized part of the upper atmosphere of Earth, from about to above sea level, a region that includes the thermosphere and parts of the mesosphere and exosphere. The ionosphere is ionized by solar radiation. It plays ...

. German radio signals were decoded at

Bletchley Park Bletchley Park is an English country house and Bletchley Park estate, estate in Bletchley, Milton Keynes (Buckinghamshire), that became the principal centre of Allies of World War II, Allied World War II cryptography, code-breaking during the S ...

in England (termed

Ultra Ultra may refer to: Science and technology * Ultra (cryptography), the codename for cryptographic intelligence obtained from signal traffic in World War II * Adobe Ultra, a vector-keying application * Sun Ultra series, a brand of computer work ...

intelligence), and when this revealed the intentions of the U-boats, convoys could be routed to avoid them. However, the convoys always had to be prepared for possible attacks. There was an urgent need for convoy escort ships to know the bearings of U-boats, by determining the direction of the source of their radio transmissions. However, the technical problems of realising a seaborne

high-frequency direction finding High-frequency direction finding, usually known by its abbreviation HF/DF or nickname huff-duff, is a type of radio direction finder (RDF) introduced in World War II. High frequency (HF) refers to a radio band that can effectively communicate ove ...

system were severe in comparison to those of a land based system. This was mainly due to the very detrimental effect of radio signal reflections from the ship's superstructure, which could cause severe errors in the required measurement of U-boat bearings. The key to an operational system was the design of an effective seaborne direction finding antenna, which was an extremely difficult task.

Struszynski's solution

On his arrival in England, Struszynski joined the staff of HM Signal School (later called the

Admiralty Signal Establishment Admiralty most often refers to: *Admiralty, Hong Kong *Admiralty (United Kingdom), military department in command of the Royal Navy from 1707 to 1964 *The rank of admiral *Admiralty law Admiralty can also refer to: Buildings * Admiralty, Traf ...

), and in a very short time, he not only proposed a solution to the problem of

signal reflection In telecommunications, signal reflection happens when a signal is transmitted along a transmission medium (such as a copper cable or an optical fiber) and part of it is reflected back toward the source instead of reaching the end. This reflection ...

, but also introduced 'sense' into the antenna, to distinguish between radio signals arriving from the correct direction to those offset by 180 degrees. He also led a team at HM Signal School that developed a practical antenna, which enabled effective high frequency direction finding systems to be installed on Royal Navy convoy escort ships. A comprehensive account of the work on HF/DF at HM Signal School is given by Redgment, who worked with Struszynski during and after the war, and details of the antenna are described by Struszynski et al., and by Bauer.

Importance of seaborne HF/DF

The

Germans Germans (, ) are the natives or inhabitants of Germany, or sometimes more broadly any people who are of German descent or native speakers of the German language. The Basic Law for the Federal Republic of Germany, constitution of Germany, imple ...

considered that the technical problems of seaborne radio direction finding could not be adequately solved, and U-boats continued to use their high frequency radios, revealing their bearings to convoy escorts. An escort ship could then steer in the direction of a U-boat, forcing it to be defensive, and possibly destroying it. Alternatively, Allied aircraft could be advised of the bearings. In his authoritative book '''Hitler's U-Boat War: The Hunted, 1942–1945''', the American naval historian Clay Blair Jr. refers to Struszynski's achievement of antenna design as "a breakthrough of transcendent importance." He also states that "The popular rush to credit

radar Radar is a system that uses radio waves to determine the distance ('' ranging''), direction ( azimuth and elevation angles), and radial velocity of objects relative to the site. It is a radiodetermination method used to detect and track ...

, and later

codebreaking Cryptanalysis (from the Greek ''kryptós'', "hidden", and ''analýein'', "to analyze") refers to the process of analyzing information systems in order to understand hidden aspects of the systems. Cryptanalysis is used to breach cryptographic secu ...

, for the defeat of the U-boat left the equally effective but less glamorous and more difficult to understand Huff-Duff in the shadows". Enigma historian Ralph Erskine (Military Communications: from ancient times to the 21st Century''') states, "An operational research report based on Ultra estimated that without shipborne high frequency direction finding, Allied convoy losses in early 1943 would have been 25 to 50 percent higher, with U-boat kills being reduced by one-third." This was the time of the essential defeat of the U-boat in the North Atlantic. Also, the German naval historian Jürgen Rohwer (The Critical Convoy Battles of March 1943''') concludes, after examination of official British and German records, and many lengthy discussions with the wartime Commander of U-boats,

Karl Dönitz Karl Dönitz (; 16 September 1891 – 24 December 1980) was a German grand admiral and convicted war criminal who, following Adolf Hitler's Death of Adolf Hitler, suicide, succeeded him as head of state of Nazi Germany during the Second World ...

, "If we analyse the great convoy battles between June 1942 and May 1943—including both those operations which the Germans regarded as successful and those which ended as either minor successes or failures—the remarkable fact is that the outcome always depended decisively on the efficient use of high frequency direction finding". Rohwer also notes that, during the war, the Germans, being unaware of seaborne high frequency direction finding, concluded that their U-boat failures were due to Allied radar developments. Thus German records stress the relevance of radar, and not of seaborne HF/DF. Both radar and HF/DF (and

ASDIC Sonar (sound navigation and ranging or sonic navigation and ranging) is a technique that uses sound propagation (usually underwater, as in submarine navigation) to navigate, measure distances ( ranging), communicate with or detect objects o ...

) were vital electronic techniques in the defeat of the U-boats, but HF/DF had the advantage of being able to determine the bearing of a U-boat at a range far greater than seaborne radar could achieve.

Later career

Struszynski subsequently worked at the Marconi Research Laboratories, later renamed the

Marconi Research Centre Marconi Research Centre is the former name of the current BAE Systems Applied Intelligence Laboratories facility at Great Baddow in Essex, United Kingdom. Under its earlier name, research at this site spanned military and civilian technology co ...

, Great Baddow, England, where he was a consultant in communications research until his retirement.

References

External links

"HF/DF An Allied Weapon against German U-Boats 1939-1945"

{{DEFAULTSORT:Struszynski, Waclaw 1904 births 1980 deaths 20th-century Polish engineers British people of World War II History of air traffic control 20th-century Polish inventors 20th-century British inventors Polish emigrants to the United Kingdom