There
is a lot we learn from a first ocean passage that we wish we had
known before we left. We will look at a few of these from the
navigator’s perspective, and focus on those that might not be on
the standard list of forethoughts. Some are personal preferences,
with obvious options, others nuances. We raise the issues so you can
think on your own solutions. The many declarative sentences are for
the sake of brevity, not authority. Experienced sailors will have
valid differences.
Navigation
means knowing where you are on
a chart
and then choosing the best route to where you want to go. It is
always the latter task that is the biggest challenge, meaning it
requires the most knowledge and skill. This is especially true in
the GPS age, but it was just as true when we had only celestial
navigation to go by.
So
we will talk about navigation and not even worry about where we are!
We get that from the GPS, and if all the back-ups fail, we get out
the sextant. We look instead at the broader picture of successful
navigation of a sailboat in the typical environment we have at sea on
an ocean passage. There are some differences racing and cruising, but
the basics are the same if you choose to get there in the most
efficient manner, which includes of course just getting there at all
if many things go wrong at once.
Accurate time
Dealing
with that last thought first, it is important to know the correct
time (UTC) at sea, because we can navigate to any port in the world
with accurate time alone—we don’t even need a sextant—so it
pays to wear an old fashioned watch and navigate by the time on that
watch. Then maintain a chronometer log of the watch error from which
we can confirm the rate of the watch, meaning how many seconds it
gains or loses per day or week, and from that we can figure the right
time by applying the ever increasing watch error on any date in the
future. A typical inexpensive quartz watch has a rate of about
15s/month. Even if it costs $600 and is guaranteed 10s/year we need
to check it. These specs are not always met.
You
can check the watch with GPS as long as that is working, but to get
started on a check without GPS, log on to www.time.gov and at the
same time call (303) 499-7111 to listen to the WWV time ticks to see if
your computer and cell phone are correct. Also add that phone number
to your address book and logbook. You can call it with a sat phone if
that is all that is left. A good way to check your computer and phone is to dial in that number and also login to www.time.gov and watch the UTC tick off on the screen as you listen to the ticks on the phone. They should agree. Modern technology has learned how to account for signal delays over the Internet. The importance of time for contingency
navigation is covered in the book Emergency Navigation. [Added 4/1/15: video on these ways of checking UTC]
And
most important, do not change time zones while underway. Choose the
zone you want for ship’s time before you leave and stick with it
till you arrive. Changing times underway, or changing anything on it,
is just asking for trouble, even if everything is working properly.
Notebooks and logbooks
The
more we rely on echarts and GPS, the higher the temptation to
under-do good old fashioned written records. It is fundamental to
good seamanship to keep a written record of your navigation. Use log
readings if you have them, or speed and time, and course steered.
Also while all is working properly, record COG and SOG and GPS
position, as well as wind info needed for sailing. More entries
discussed later. Believe it or not, it also pays to record what tack
or jibe you are on, though in most cases we should be able to figure
that out—it depends on the wind and how well are records are kept.
There
is a simple rule: make a logbook entry whenever anything changes. If
nothing changes, make an entry every couple hours. The on-watch crew
should generally make the entries, but you may find in the logbook
only the navigator’s handwriting for the first half of the
passage... till the value of this sinks in.
Also
maintain at least one other notebook for navigation notes. In this
you record everything related to navigation that you compute or think
about. Do not use scratch paper for any computation. A book with
numbered cross-hatched pages is ideal, such as National Brand
Computation Notebook, No. 43-648, because you can then plot various
graphs right in the notebook.
You
might even want a separate one for notes on weather and a place to
record forecasts and related routing notes. This one should include a
time table of weather reports and forecasts. We have data from many
sources, and they are valid at different times and then only
available at certain times after that, and we need these times in UTC
and in watch time, and we need a note of where we get each one, which
may include radio or fax channel information. This is a very
important schedule, which takes some time to prepare, and is easier
done before departure. In any event, you will have it made by the
time you arrive, but may have missed a couple reports in the process.
The times of GRIB file updates as well as latest weather map
broadcasts and voice reports can be sorted out at home.
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Example of a navigator's notebook and the reminder that you have to look after your stuff. In this case all the tape is there because I forgot to say "Do not use for cutting board." |
Chart table and plotting tools
The
value of pencil and tools holders outside of the chart table cannot
be over emphasized. If you can’t find a pencil you can’t draw a
line that could be crucial. The chart table itself is essentially
useless space as it is too convenient a place for everyone to stash
things. Unless it is built in, we also need to devise a way to
protect the laptop used for navigation. It has to be fixed so it
cannot slide around or bounce off the table and include some quick
way to cover it to protect it from water when you are not there. The
most vulnerable parts might be the connectors to it: power cable, USB
and serial connectors. I have seen a person fall across the cabin in
rough conditions and reach out to brace the fall and hit just the
right place to break off the only serial connector of an otherwise
bulletproof laptop.
A
laptop stand that is raised a couple inches from the chart table is
handy, so you can lay out plotting sheets or charts underneath it.
Practice
with your night lights. A hand-held (teeth-held) light or head lamp
is often a good solution. We need to see, but we cannot let any light
out of the nav station. There is no virtue to red light; it is the
brightness that matters; a dim white light is better than red, and it
does not distort chart colors. I would always keep one AA flashlight
in the pencil holder as well, because just like the pencil, there are
times you must have one. Depending on your eye sight, you might want
a magnifying glass in there as well to read small print on instrument
specs, dials of a barometer, or checking the shoreline route on a
chart—it would be a rare ocean voyage that does not have shoreline
issues either leaving or arriving.
And
you will need a way to lock yourself in place. A well designed foot
stool that lets you brace your knees under the table is one, or a
seat belt could do it. Another useful trick is a tight bungee cord
stretched across the chart table near where you lift the lid. This
holds the lid down in a broach (a safety requirement) and it holds
charts and books in place in a seaway. It is not at all hard to work
around during chart plotting. You can just pull the cord down over
the lip to get into the table—ie to hand someone their sunglasses.
Several
highlight markers and colored sharpies are useful, as are a pack of
large rubber bands for organizing things. Blue painter’s tape is an
excellent way to label things and use as Post-its for reminders.
Headphones for the radios let you communicate at night and listen to
weather reports without waking folks up whose sleep could be crucial.
If you are sailing in the tropics, try to rig a fan for the nav
station. A pad of universal plotting sheets is helpful for weather
routing, the old fashioned way.
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Ocean-going nav station, showing: A custom seat; B foot rest; C night shade; D,E tools holders; F bungee cord. Adapted from Celestial Navigation (Starpath Publications). |
Share the navigation and radio information
Teach
the SSB radio and sat phone usage to all of the crew. SSB
transceivers can be complex, so posting a cheat sheet on how to use
it is valuable. Even modern VHF radios might call for a note or two.
In
the ideal world, you would have at least one person on each watch who
is in tune with the navigation. That would mean knowing how to use
the echart program and be aware of latest goals, weather tactics, and
possible hazards. They can also encourage logbook participation. On
larger racing boats the crew can get departmentalized and important
navigation information is not shared enough to be as safe and
effective as it might be.
One
way to help with this is to post a small scale chart showing the full
ocean route that is readily in view to all crew—sections of tracking charts no. 5270 or 5274 would do the job. Then plot and date
your position once a day. The crew will get more interested in the
navigation and indeed know where you are along the course. Discussing
at any common meal times the latest weather forecasts and tactics can
help as well. On a tight watch system this is might not happen very
often, so the navigator’s helpers can fill in.
Also
in this same vein, use some modern version of a route box in sight of
the helm and deck crew. This could be just several strips of blue
tape on which you write in big letters with a Sharpie the present
course to steer. Or you could make something more elegant. The main
idea, though, is to have a list of these courses, not just a white
board where you post only the active course. We want to see the old
course crossed out, and the new course written below it. This keeps
all in tune with what is going on with the course over time.
Having
the active course in view gives the helmsman a quick reference on
what to come back to when thrown off course for any reason. Memory
could hurt us if we had been on 220 for two days but now the course
is 200. Also we could get confused if the course was 200 then 210 but
now it is back to 200.
Sail waypoints
If
we are not sailing to specific waypoints we are not navigating; we
are just out sailing. Even on an ocean passage we need waypoints.
There is essentially no efficient ocean crossing that has just one
waypoint at the destination. Needless to say we want one there, and
we should always keep an eye on the VMG to that one, but there will
be intermediate ones we set and change as we proceed, and the
immediate navigation is to maximize VMG to that active waypoint.
Sailing
around the corner of the Pacific High, for example, you might use
some guideline to mark the corner such as two full isobars off the
central high pressure. This choice depends on how far you are from
that point. If you have a 3 or 4 day forecast of the winds that might
let you cut it a bit closer, then you can try that. But the main job
is to set one and optimize speed to it until you have good reason to
move it. The forecast might change and call for heading more south
toward the trades for a while, or let you sail a bit closer to the
rhumb line.
Once
around the corner, you might set another waypoint based on the
forecast of the trade winds closer to your destination. In other
words, with the present forecast of the trades out to 800 nmi you
might choose the point that sets you up for your best wind angles if
you were at that point and the trades did indeed stay as forecasted
in speed and direction. Then you again watch that and adjust as
needed. Both the speed and the direction of the trades could cause
the waypoint to shift.
When
sailing waypoints in this manner, sometimes the course is
crucial—that is, if we do not make that waypoint we could lose a
lot of efficiency, so we have to fight to make it. In this case the
navigators job is to stress this point and also keep a more careful
watch on what is actually being steered and recorded in the logbook.
With all the electronics working, we have an exact trail on the
echart of what we are making good, so if we are not making it, we
need to study the situation to find out why and try to correct it.
Not to sound too crass, but you may have one watch that just wants to
go fast, so they are reaching a little extra all the time... not
looking ahead to the consequences. Again, we are back to getting the
crew involved with the navigation.
On
the other hand, there can be circumstances when you have a lot more
freedom and you can simply say go as fast as you can (with present
sails set), always looking ahead to see if a crucial waypoint might
be developing.
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Selecting waypoints and approach cone from forecasted winds. Adapted from Modern Marine Weather (Starpath Publications)
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Stay on the right jibe
This
may sound obvious, but in a long ocean race it might slip by us,
especially in wonderful sailing conditions. Thus the task of a
continual monitoring of the VMG to the next waypoint is crucial. It
is also crucial to monitor this progress on both jibes. It could be
the time to jibe is affected by the sea state, because in the same
wind, one jibe is much better than the other because of the direction
of the waves. This could take some testing; the interaction of wind
and waves can be unique.
Depending
on the boat and crew and sailing conditions, the decision could also
be affected by how you want to spend the night. It could also be a
time to decide, depending on where you are relative to the waypoint
you want, if it might be valuable to set a head sail over night. If
your route calls for fairly close reaching at the moment, it could be
that the extra progress to weather could balance out a slower speed
and reduced risk of sail trouble for the overnight run.
One
way to make a quick estimate of the consequences of steering the
wrong course is what we call the Small Angle Rule. Namely a 6º right
triangle has sides in proportion of 1:10. Thus if I sail the wrong
course by 6º for 100 nmi, I will be 10 nmi off my intended track.
The rule can be scaled up to 18º and down to 1º. It can also be
used to estimate current set and other applications.
Every mile counts
Sometimes it is hard to keep this in mind when we are in the middle of the ocean with 1,000 miles to go, but it is a constantly crucial matter. Just imagine what that one mile looks like if your competitor is one mile ahead at the finish line. This gives us the burden to compute once a day who is ahead and by how much in a precise manner, which is not a trivial process. Sometimes it is difficult because it depends on what we think is going to happen ahead with the wind, but it must always start from the best geometric computation, which means you must use accurate great circle computations—in fact, we should probably not even use great circle, which assumes a round earth, but rather use ellipsoidal distance, which takes into account the best datum for the ocean we are in. You can test these things, ie great circle vs ellipsoidal, by computing long distances with your GPS, since most of these do in fact read the datum you have selected and use it, compared to standard round earth great circle, which you compute at www.starpath.com/calc. On the other hand, most echart programs use only great circle, unless they specifically ask you for the datum. Spread sheets can be set up to do this, or there are good old-fashioned great circle plotting tricks using universal plotting sheets if the computers fail.
Evaluating the forecasts
We
set the waypoints based on the forecasts, so it is important to
remember that there will always be a forecast, and they are not
marked good or bad. (Eventually we will get more probability
forecasting into marine weather, but for now this evaluation is up to
us.)
One
obvious way to evaluate the forecasts is to see if the present
surface analysis agrees with our own observations. To do this, we
need calibrated wind instruments (to compute true wind speed and
direction) and a good barometer. Then we plot our position on the
weather map, read off wind speed and direction and pressure and
compare to what we have recorded for these at the valid map time. If
they agree, we have more confidence in the forecast. To the extent
they do not, we have less confidence.
There
are also well known properties of the winds aloft at 500 mb that tell
us if the surface forecast might be strong or weak. These depend on
the flow pattern and speed of the winds, as well as the shape and
location of the surface patterns below them. Guidelines for these
procedures are in Modern Marine Weather
(Starpath Publications).
If
we have surface forecast conditions that are very enticing for making
a bold move, but our evaluation of the forecast is weak, then we
should be cautious. You might then do just half of what you want to
do, or do it for just half as long, then wait till you get another
map (6 hours) to see how things are panning out.
Another
simple and important guideline is to not rely on just the ubiquitous
GRIB formated GFS model output. The minimum to do is download the
actual weather maps produced by the Ocean Prediction Center and use
them as an important criteria in evaluating the GRIB data. Once the
GRIB maps are confirmed, then you can have more confidence in using
their extremely convenient format. The first map in a GRIB forecast
sequence will usually coincide with the latest synoptic time of the
OPC surface analysis. As noted earlier, making a weather services
time table is crucial to putting this together.r do it for just half as long, then wait till you get another
map (6 hours) to see how things are panning out.
A quick and easy way to see the NWS forecasts is to download the GRIB version of the
NDFD data from SailDocs. For many parts of the world this will be the main check you need.
Glue and Screws to go with the Nuts and Bolts
Keep Magnetc Variation on Automatic
When you are setting off on an ocean voyage, be sure that your GPS and echart program options has magnetic variation set to automatic. This may be something you never looked at, so it could be on manual, which means it will not change till you change it. I know of two real cases where this caused serious issues to the navigation, and one other that was caught just before that. Put another way, we need to be comparing the COG and heading all day every day. It is how we spot current.
Review Celestial Nav Methods
You may not be
called upon to find a fix by cel nav, but it is in fsct highly likely
that on a long voyage you will be called up to use cel nav to check a
compass off shore. This is easy going for anyone familiar with cel nav. We have many books on cel nav, both learning it from the basics and then advanced techniques on mastering the skills when that is all there is to go by. Here is a link to a quick overview.
Watch that GPS does not switch to DR mode
If your GPS signal is lost for any reason, some ECS units with a knotmeter and heading sensor input will switch to a DR mode, and the position output will look the same, ie 3 decimal places on Lat and Lon, which is clearly no longer true. With any leeway or current, or input instruments not calibrated, you can wander off course and maybe miss it. Sometimes the warning is clear, other times way more subtle than it should be.
A classic case of this error causing problems is the grounding of the cruise ship Royal Majesty. This error was the primary cause, but it is also an example of doing a whole series of things wrong:
— did not recognize that the GPS signal was lost and the navigation control was under DR only which was being off set by current
— essentially relied on GPS alone… i.e. only one nav aid (only backed up by unsubstantiated observations)
— failed to make positive, visual ID of a crucial buoy because it seemed to be in the right place at the right time (from radar observation based on what turned out to be a wrong track).
— let observations pass that did not make sense. If we ever see things, lights, water, landmarks that do not make sense, we should stop to figure out why we see what we see. Recall on the Exon Valdez a third mate (who happened to be a woman) told the fellow in charge of the watch on two occasions that a light was on the wrong side of the bow. At least three similar incongruous observations or lack of observations were made prior to Royal Majesty grounding that were ignored. For more guidelines of safe navigation see Inland and Coastal Navigation.
Summary
Although the subject at hand is "ocean navigation," it will always be true that the biggest navigation challenge will be getting into the ocean from coastal waters and back out of it again into coastal and inland waters. Again, we have several real examples of boats that got themselves into trouble by relaxing the navigation once the perceived hard part is over. Indeed once we see land, we should be even more diligent until the boat is tied up at the dock or anchored.
References
A
unique new Kindle ebook by Will Oxley called Modern Racing Navigation
discusses the latest technology available to the navigator. We have looked above at a few of the old-fashioned ideas; Oxley's book is the place to learn about the powerful new resources, including specific recommendations for software, hardware, and apps. He focuses on the popular Expedition software as the base for navigation, performance, and weather analysis.