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The Decca Navigator System was a hyperbolic radio navigation system which allowed ships and aircraft to determine their position by receiving radio signals from fixed navigational beacons.
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DECCA NAVIGATION SYSTEM
DECCA NAVIGATION SYSTEM
Is a hyperbolic navigation system which allowed ships and aircrafts to determine their position by receiving radio signals from fixed navigational beacons.
First developed by the Royal Navy during WW II.
It was established in the United Kingdom after World War 2 and is later used in many areas around the world.
DECCA NAVIGATION SYSTEM (DNS)
It is operated by measuring phase differences between continuous signals from a master and slave stations.
These differences were then related to hyperbolic lines printed on a chart.
By plotting the readings from two pairs of hyperbolas at any particular instant, user could plot their position instantly.
DECCA NAVIGATION SYSTEM
The system used groups of at least three shore based transmitter stations called chains operating under low frequencies from 70 to 130 kHz radio band.
Each Chain comprised of one Master and two or three Slave stations, usually 80 to 110 km from the Master Station.
DECCA NAVIGATION SYSTEM
The accuracy of DNS ranged from 50 meters during daytime to 200 meters at night time.
It could decrease up to 800 meters as the distance from the baseline increased.
Accuracy was also affected by seasonal effects which generally reduced the accuracy by a factor of 6 to 8.
DECCA NAVIGATION SYSTEM
The maximum daytime range for DNS was 300 to 400 miles with a reproducibility of 200 meters.
At nighttime, accuracy was guaranteed out to be 240 nm by the British Admiralty.
DECCA NAVIGATOR
PRINCIPLE OF OPERATION
Chains - consists of a number of land-based radio beacons organized into chains.
Master station and three Slave stations, termed Red, Green and Purple. Ideally, the Slaves would be positioned at the vertices of an equilateral triangle with the Master at the center.
PRINCIPLE OF OPERATION
Master station – provides the 'master' signal which was used by its associated Slave stations to derive signal frequency and timing sequences.
Loss of a Master would disable a station whilst loss of a Slave would reduce accuracy.
PRINCIPLE OF OPERATION
Master-Slave Distance = 60~120 Nmiles
It operates by comparing the phase difference of radio signals emitted by several radio stations.
Pattern – refers to the set of hyperbolic lines of position
PRINCIPLE OF OPERATION
Receivers identified which hyperbola they were on and a position could be plotted at the intersection of the hyperbola from different patterns, usually by using the pair with the angle of cut closest to orthogonal as possible.
DECCA NAVIGATION PRINCIPLE
FREQUENCY
Station Harmonic Frequency (kHz)
Master 6f 85.000
Purple Slave 5f 70.833
Red Slave 8f 113.333
Green Slave 9f 127.5000
COMMON FREQUENCY (LCM) FOR EACH MASTER/SLAVE PAIR
Pattern Slave Harmonic
Slave Multiplier
Master Harmonic
Master Multiplier
Common Frequency
Purple 5f *6 6f *5 30f
Red 8f *3 6f *4 24f
Green 9f *2 6f *3 18f
LANES AND ZONES
Decometer - An adding-type phasemeter which adds up the total number of degrees of phase shift between two signals.
Lane – interval between two adjacent hyperbolas on w/c the signals are in phase.
Zones – group of lanes usually with 18 green, 24 red, or 30 purple lanes per zone
TYPICAL LANE AND ZONE WIDTHS ON THE BASELINE ARE SHOWN IN THE TABLE:
Land or Zone Width on Baseline
Purple Lane 352.1 m
Red Lane 440.1 m
Green Lane 586.8 m
Zone (all Patterns) 10563 m
DECOMETERS
MULTIPULSE
20-second cycle simultaneous wave transmission for each of the four Decca frequencies with a brief period of 0.45 seconds.
Provides automatic method of lane and zone identification by using the same phase comparison techniques described above on lower frequency signals.