Mines!
Survivability
1 - susceptibility x vulnerability
P(y)
A lateral range curve depicting the performance of an MCM system against a particular mine threat, that is, the probability of success against a particular mine at abeam (athwartship) distance (y).
Three principal signatures
Acoustic (and/or seismic) Magnetic Pressure
Acoustic backscatter
Acoustic energy reflected back to the sonar receiver by the seas surface, bottom, and particulates in the water column
Clutter
All echos above the set threshold of the detection sonar
How sonar works
An electric impulse from a transmitter is converted into a sound wave by the transducer and propagated into the water. When this wave strikes an object, it is reflected, creating an echo. The returning echo is received by the transducer and converted back into an electric signal. The signal is then amplified, processed in the receiver l, and sent to the display.
Reverberation
Background noise on the sonar display created by bottom roughness and sediment
Bn
Composite probability of prosecution Bn = Pri x Pi x Prn x Pn Reacquisition for identification Identification Reacquisition for neutralization Neutralization Bn = Pn for influence minesweeping
Four phases of mine hunting
Detection Classification Identification Neutralization
Father of MCM tactical theory
Dr. Rufus king reber
mu
Fraction of undetectable mines
MCM tactical philosophy
Hunt when you can, sweep when you must Minehunting performance is not predicated on the internal firing mechanisms of the mine
Exploratory Objective
Intended to confirm the presence or absence of mines within a mine threat area
MDA
Mine danger area Established around a mine location and searched to a relatively high percentage clearance
MTA
Mine threat area
MILCO
Mine-like contact
MILEC
Mine-like echo: a sonar echo determined to be mine-like
NSMWDC
Naval Surface and Mine Warfare Development Center
NOMBO
Non-mine bottom object
P
Percentage clearance achieved by applying an MCM system to the area of interest - for a particular mine threat
PSRR
Progressive sequence reduced risk
J
Runs per track
B value
The characteristic (detection, search, actuation, or cutting) probability within the characteristic width
A value
The characteristic (detection, search, actuation, or cutting) width
Susceptibility
The inability to avoid a man-made hostile environment, such as a mine. Probability of being hit
Vulnerability
The inability to withstand a man-made hostile environment, such as a mine explosion. Probability of being damaged if hit
Mine exploitation
The process of either recovering and reserving safe a mine or acquiring a mine by another means, and exploiting the mine and it's sensors to determine the countermeasures necessary to safely sweep or hunt the mine
SDNE
The standard deviation of navigational error As a platform transits along a track, it wanders about its intended track due to GPS errors, steering inaccuracies, and the continually changing forces of wind, current, and sea. The SDNE is a measure of the ability of an MCM system and it's operating platform to adhere to the intended track through a minefield.
Attrition objective
To continue removing mines as they are added to the mine field so that the danger to transiting ships and MCM platforms is minimal
Reconnaissance objective
To estimate the boundaries of a mines area and to estimate types, settings, and quantities of mines
Breakthrough objective
To minimize the threat to critical ship traffic which must pass through a mine field, in the limited time for MCM operations
D
Track spacing
Basic components of sonar
Transmitter Transducer Receiver Display
Clearing objective
Used to remove or neutralize all mines (or a high percentage of mines) from the assigned area
Environmental factors that affect influence sweeping
Water depth Bottom topography and roughness Bottom composition Underwater and surface obstacles Magnetic minesweeping environment (e.g. electrical conductivity) Acoustic minesweeping environment (e.g. attenuation) Sea state Climate and weather Wind
Environmental factors that effect minehunting
Water depth Water density SVP (sound speed profile; dependent on water temperature, depth, and salinity) Sea state Bottom composition Bottom topography Tidal streams and currents Wind and weather conditions Biologics (such as marine life and sea grass) Bottom clutter Water clarity Optical attenuation
Sonar acronym
sound navigation and ranging
