Piloting Explained

Piloting or pilotage[1] [2] [3] [4] is the process of navigating on water or in the air using fixed points of reference on the sea or on land, usually with reference to a nautical chart or aeronautical chart to obtain a fix of the position of the vessel or aircraft with respect to a desired course or location. Horizontal fixes of position from known reference points may be obtained by sight or by radar. Vertical position may be obtained by depth sounder to determine depth of the water body below a vessel or by altimeter to determine an aircraft's altitude, from which its distance above the ground can be deduced. Piloting a vessel is usually practiced close to shore or on inland waterways. Pilotage of an aircraft is practiced under visual meteorological conditions for flight.

Land navigation is a related discipline, using a topographic map, especially when applied over trackless terrain.[5] Divers use related techniques for underwater navigation.[6]

Piloting references

Charts

Depending on whether one is navigating on a water course, in the air or on land, a different chart applies for the navigator:

Maritime piloting

See also: Maritime pilot. Coastal mariners often use reference manuals, called "pilots" for navigating coastal waters. In addition to providing descriptions of shipping channels and coastal profiles, they discuss weather, currents and other topics of interest to mariners. Notable guides include a worldwide series of "Sailing Directions" by the United Kingdom Hydrographic Office (formerly by the British Admiralty) that includes, most notably, the English Channel, the Mediterranean Sea, the Red Sea and the Persian Gulf.[8] Another series worldwide series of Sailing Directions is by the US National Geospatial-Intelligence Agency,[9] which has planning guide and enroute portions. The "United States Coast Pilot", by the National Oceanic and Atmospheric Administration (NOAA) Office of Coast Survey, covers the coastal and intracoastal waters and the Great Lakes of the United States.[10]

Points of reference

Common types of visual reference point used for piloting and pilotage include:

Day

Night

Vertical

Depth, measured with a depth sounder or lead line, can be used to identify a bathymetric contour or crossing point. Similarly, elevation can be used to confirm a geographic contour or crossing point. Measurement of depth and altitude allow vessels and aircraft navigators to confirm clear passage over obstructions.

Fix of position

Instruments used

On shipboard, navigators may use a pelorus to obtain bearings, relative to the vessel, from charted objects. A hand bearing compass provides magnetic bearings. On land a hand compass provides bearings to landmarks.[11]

Afloat

Mariners use position-fixing navigation, to obtain a "position fix" or "fix" by measuring the bearing of the navigator's current position from known points of reference. A visual fix of position can be made by using any sighting device with a bearing indicator to obtain position lines from the navigator's current position to each point of reference. Two or more objects of known position are sighted as points of reference, and the bearings recorded. Bearing lines or transits are then plotted on a chart through the locations of the sighted items. The intersection of these lines is then the current position of the navigator.

Usually, a fix is where two or more position lines intersect at any given time. If three position lines can be obtained, the resulting "cocked hat", where the 3 lines do not intersect at the same point, but create a triangle where the vessel is inside, gives the navigator an indication of the accuracy in the three separate position lines.

If two geographic features are visually aligned (the edge of an island aligned with the edge of an island behind, a flag pole and a building, etc.), the extension of the line joining the features is called a "transit". A transit is not affected by compass accuracy, and is often used to check a compass for errors.

The most accurate fixes occur when the position lines are at right angles to each other.

Aloft

Flying at low altitudes and with sufficient visibility, aircraft pilots use nearby rivers, roads, railroad tracks and other visual references to establish their position.

Course versus ground track

See main article: Course (navigation). The line connecting fixes is the track over the ground or sea bottom. The navigator compares the ground track with the navigational course for that leg of the intended route, in order to make a correction in "heading", the direction in which the craft is pointed to maintain its course in compensation for cross-currents of wind or water that may carry the craft off course.

In channels and rivers

Where a channel is narrow, as in some harbor entrances and on some rivers, a system of beacons allows mariners to align pairs of daymarks, called "range markers", to form a "leading line" (British English) or "range axis" (American English), along which to navigate safely. When lighted, these markers are called "leading lights" (British English) or "range lights" (American English). The relative positions of the marks and the vessel affect the accuracy of perceiving the leading line.

External links

Notes and References

  1. https://www.collinsdictionary.com/dictionary/english/pilotage Collins English Dictionary
  2. https://www.ahdictionary.com/word/search.html?q=pilotage American Heritage Dictionary
  3. Book: Maloney , Elbert S. . Chapman Piloting and Seamanship . 64th . Chapter 16: Basic piloting procedures . December 2003 . Hearst Communications Inc. . New York, NY . 1-58816-089-0 .
  4. Web site: Aviation Navigation – Basic Navigation . NASA . NASA . Virtual Skies . . 2016-05-13 . Pilotage: A method of navigation in which the pilot, flying at low altitudes, uses visual references and compares symbols on aeronautical charts with surface features on the ground in order to navigate. . dead . https://web.archive.org/web/20160508134535/http://virtualskies.arc.nasa.gov/navigation/2.html . 2016-05-08.
  5. Book: United States Army. Army Training Circular TC 3-25.26: U.S. Army Map Reading and Land Navigation Handbook. 2007. 978-1-4209-2823-5.
  6. Web site: Underwater Navigation . UK Divers . October 16, 2007 . UKDivers.net . 2016-05-16 . Pilotage – Navigation by reference to terrain features, both natural and artificial, usually with the aid of an appropriate chart. . dead . https://web.archive.org/web/20160313082610/http://www.ukdivers.net/diving/uwnav.htm . March 13, 2016.
  7. Web site: National Topographic System Maps . Government of Canada . 2016-04-08 . Earth Sciences – Geography . Natural Resources Canada . 2016-05-16 .
  8. Web site: Admiralty Nautical Products and Services – Paper publications . Hydrographic Office . 2015 . United Kingdom . 2016-05-19 . Often referred to as Pilots, Sailing Directions are designed for use by the merchant mariner on all classes of ocean-going vessels with essential information on all aspects of navigation. Sailing Directions are complementary to ADMIRALTY Standard Nautical Charts and provide worldwide coverage in 75 volumes..
  9. Web site: Sailing Directions Enroute . National Geospatial-Intelligence Agency . National Geospatial-Intelligence Agency . Maritime Safety Information . National Geospatial-Intelligence Agency . 2016-05-19 . Sailing Directions (Enroute) include detailed coastal and port approach information, supplementing the largest scale chart of the area. Each publication is subdivided into geographic regions, called sectors, which contain information about the coastal weather, currents, ice, dangers, features and ports, as well as a graphic key to the charts available for the area..
  10. Web site: United States Coast Pilot® . Office of Coast Survey . Nautical Charts & Pubs . . 2016-05-19 . The United States Coast Pilot® consists of a series of nautical books that cover a variety of information important to navigators of coastal and intracoastal waters and the Great Lakes. Issued in nine volumes, they contain supplemental information that is difficult to portray on a nautical chart..
  11. Frazer, Persifor, A Convenient Device to be Applied to the Hand Compass, Proceedings of the American Philosophical Society, Vol. 22, No. 118 (Mar., 1885), p. 216