What is Marine Navigation ?

In this article we are going to talk about Marine Navigation.

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Okay let’s go, paq-usapan na natin Ano ba ang Marine Navigation ?

What Is Marine Navigation

 Marine navigation

The process of directing the movements of watercraft from one point to another; the process, always present in some form when a vessel is under way and not drifting, varies with the type of craft, its mission, and its area of operation.

Other meaning…

Navigation, derived from the Latin words "navis" (meaning  "ship") and "agere" (meaning "to drive") is the process of accurately determining the position and controlling the movement of a craft or vehicle along a desired course. This is accomplished by finding the navigator's position compared to known locations or patterns.

All forms of navigation have four steps:

1.   you locate your position

2.   you determining a course

3.   you monitor the course

4.   and repeat

 

What is a navigation technique? 

A navigation technique is a way to determine the navigator's position and to set the desired course.

There are different methods of locating your position, different plotting methods, and also different ways to determine your course.

The system of locating, plotting, and setting a course is called a navigation method.

The most common navigation methods are satnav, dead reckoning, and radar navigation.

§  Dead reckoning

§  Pilotage

§  Celestial navigation

§  Inertial navigation

§  Radio navigation

§  Radar navigation

§  Satellite navigation

 

Every method has advantages and disadvantages.

For example, dead reckoning and radar can be used to determine your location based on just one point or object.

But you need a lot of equipment.

Celestial navigation is very reliable, but you need clear skies.

Satellite navigation is very accurate, but you need a power source.

Celestial navigation is one of the oldest navigation methods. The navigator uses the celestial bodies to determine his location.

 

With Coastal navigation, the navigator uses the shape of landmarks along the coast, and the direction of the coastline.

 

With Inertial navigation, you use motion sensors to calculate your new position relative to the starting position. (This is a form of dead reckoning.)

 

Pilotage simply means fixing your position with a very high frequency and is used in harbors and restricted waters.

 

Radio navigation uses radio waves to measure the direction to a radio source. For this to work, you need radio towers all over the place. GPS is winning the battle for sure.

 

Radar navigation is mostly used to avoid collisions when you're close to land or other ships.

Satellite navigation is the most used form of navigation nowadays. This uses multiple satellites to pinpoint your location.

You can use analog or electronic equipment to get your position and plot it.

A lot of the electronic instruments are actually just modern replacements for the old tools: they pretty much do the same job (but faster and better).

Locating Your Position

You can determine your position based on your previous position, or you can look out and use pretty much any kind of landmark, celestial body, and so on, to pinpoint where you're at.

Different Techniques to Get Some Lines

So you need lines to know where you are. A navigation technique is simply the way you chose to get your lines.

To get yourself some lines, there are plenty of old skool methods and modern ones as well.

   §  Compass bearings - you can use a compass to get a bearing, which is the most used way for many centuries now

§  Terrestrial range - if you find that two charted points align, this gives you a directional line

§  Radar range - measuring the distance and direction to an object, you only need one object to get your position accurately

§  Observing celestial bodies - using a sextant you can get LOP from celestial bodies

§  GPS uses 24 satellites (that's 24 LOPs) to pinpoint your exact location

§  Echo sounder - not as accurate; can only confirm the boats known position

§  Parallel indexing - uses echo to keep a safe distance from the shoreline, rocks, and so on

§  Dead reckoning - using your previous location and speed and course to fix a new position

§  Light dipping - using the height of a lighthouse to measure the distance from it.

Compass bearings

Getting a compass bearing is easy. You find a point on a chart you can see on the horizon, and you point your compass at it. Read the angle on the compass, and simply draw a line in that angle across the point of reference. The classic way is three compass bearing on three widespread objects.

For this method, you need a compass and a marine chart.

Terrestrial range

If you don't have a compass, you can still find your direction by using two landmarks or objects. When two charted points align with your bowsprit, for example, two buoys, you can draw a line through them. Voila, you know your direction. This line is called a transit.

For this method, you need a marine chart.

Radar

Radar is different and pretty neat because it only needs one object to get a pretty accurate position. It can get the range and bearing from one object and plot it directly on the chart. So it's extremely useful if you navigate let's say a massive container ship in a crowded, tight port.

Celestial navigation

For celestial navigation, you need a couple of tools: a nautical almanac, a marine chronometer, and a sextant.

You first use the almanac and chronometer to pick a subpoint. That's the point where the planet or star is currently located above Earth. Then, you take the sextant to measure the angle between the celestial body and the horizon. This gives you the distance between you and the subpoint. Here's your first line of position. A neat circle around the location of a star.

You need a sextant, chronometer, and almanac for this method.

GPS

The easiest and most accurate way to pinpoint a location is by using satellites. A GPS receiver calculates the distance from multiple satellites. This gives you some lines, that are now in the sky instead of on a map. Again, where the lines intersect is where you are.

GPS is extremely accurate and reliable. It can find you within half an inch, and will only fail if there's no power source, very heavy weather, solar flares, and so on. It will work perfectly most of the time.

It also can't tell you which direction you're pointing towards. So you can't use it to measure bearings.

GPS is an American technology, and China, Russia, and Europe have their own variants, although they are not as widely supported.

You need at least a GPS receiver, plus a marine chart or a chartplotter.

Echo Sounder

An echo sounder is a sonar that's used to determine the water depth. It uses sound waves and measures the delay of the reflections. This tells the distance to the bottom.

Echo sounding can be used to estimate a location but it's not very accurate. You also need some sort of bearing. Then check the chart and your current depth. Check at what point your depth and the bearing intersect.

For this method, you need a sonar device, fishfinder, or MFD (multi functional display).

Parallel indexing

If you're sailing in a port or bay, there are lots of other vessels and objects to avoid. So you want to stay on course accurately. To do this, you need to monitor your position very carefully. If you want to avoid to have to plot your position every minute, you could use parallel indexing to stay on course.

You need a radar for this method.

Dead reckoning

You can also measure the distance from your old position. For this, you need your course and speed. This is called dead reckoning. It's the same principle. Your old position is the 'object'. Your course is the angle (bearing), and your speed is the distance, giving you a line of position.

 

You need an inertial navigator for this method

Light dipping

This method isn't used a lot, but it can be handy. We check when the top of the lighthouse appears on the horizon. If we know the height of the lighthouse, and our eye height, you can calculate how far away we are.

 

You need a sextant and nautical almanac for this method.

List of Marine Navigation Equipment

§  Gyro compass

§  Magnetic compass

§  Fluxgate compass

§  GPS receiver

§  Compass Deviation Card

§  Radar

§  Autopilot

§  ARPA

§  Automatic Tracking Aid

§  Speed & Distance Log Device

§  Echo Sounder

§  Electronic Charts and Chartplotters

§  Weather Satellite Systems

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