UKHillwalking recently published an article on the survey of
Yr Wyddfa / Snowdon conducted by G&J Surveys. The original article and a link to it on the UKHillwalking
website appear below.
The survey of Wales’ highest mountain was covered in an ITV
Wales programme broadcast at 7.30pm on Tuesday 14th October 2014 and
entitled ‘Snowdon: Climbing New Heights’.
The
survey benefited from the help given by a number of people and
organisations. Thanks to Stephen Edwards
(CREAD Cyf, Producer), Aled Llŷr (Slam Media, Director), Mark Greaves
and the Ordnance Survey, Snowdon Mountain Railway and ITV Wales.
Snowdon Surveyed – But Just How high is it?
This evening (Tuesday 14th Oct) at 7.30pm ITV Wales will
broadcast a half hour programme about a recent height survey on the
roof of Wales, ‘Snowdon – Climbing New Heights’. The upshot of the
survey is that the Ordnance Survey will not be changing Snowdon's 1085m
map height. But the work did reveal an interesting conundrum. With
all the man-made bits and bobs littering the summit it is
virtually impossible to establish beyond doubt where the natural
highest point of England and Wales even is. What we can say for sure is
that anyone climbing to the plinth at the base of the trig point will
actually have reached a heady 1086m above sea level. John
Barnard, Graham Jackson & Myrddyn Phillips of G&J surveys, the amateur
team behind recent Munro demotions and the addition of new mountains to
England and Wales, tell us more.
Snowdon's summit poses unique difficulties for anyone surveying it.
Firstly there are the crowds, far from ideal when placing equipment. But more
fundamental is the composition of the summit itself. The top of the
mountain has been re-fashioned in a number of ways over the years. Even
its Welsh name Yr Wyddfa is associated with a built structure; one
translation is ‘the burial mound’, by legend the resting place of a giant
named Rhita Gawr. Legend or no, where exactly should a surveyor take
their measurements from?
The opportunity for us to re-survey the summit of Snowdon came five months ago when we were approached by TV production company Slam Media, who were filming a series of programmes about Snowdon, due for broadcast on ITV Wales early 2015. 'The Mountain’ looks at how the seasonal change on Snowdon affects the lives of local people, from a hill farmer to a member of Llanberis Mountain Rescue Team.
Snowdon's height and the various constructions on its summit have a
convoluted history.
In one of the earliest recorded surveys, undertaken in 1682 as part
of the England and Wales survey by Caswell and Adams, the mountain was
given an ambitious height of 3720ft (1134m).
In 1773 renowned writer, antiquarian and traveller Thomas
Pennant quoted a height ‘above quay at Caernarvon’ of 3568ft
(1087.5m). Twenty eight years later Rev William Bingley commented that ‘it
rises to a mere point, the summit not being more than 3 to 4 yards in
diameter’, the year was 1801 and Bingley’s estimated height for Snowdon was
3570ft (1088m).
.jpg) |
| John with the level during reconnaissance of Snowdon summit |
When the Ordnance Survey (OS) brought out their One-Inch ‘Old Series’
map on 1st May 1840, the height given Snowdon was 3570ft (1088m). Since
1901 the map height has been consistent with the present day value, namely
3560ft (1085m).
Meanwhile, builders were at work. The Snowdon Mountain Railway opened in
1896, depositing Victorian passengers just below the summit, which by now
sported a number of buildings.
At one time Snowdon had two competing ‘hotels’ facing one another,
built under the high point but requiring a substantial levelling of the summit
area for them to sit neatly in place. In more recent times a rectangular
concrete summit café was built in the 1930’s, then replaced in 2009
with the stylish Hafod Eryri.
Before the latest cafe was built the summit of the mountain was
adorned with a standard OS triangulation pillar. In 2009 this was
replaced with a sleek circular equivalent with a brass panoramic viewfinder
on top. Of most importance to our survey is what was constructed under
this newly fashioned trig pillar - a summit plinth which sits atop the
natural rock tor of Wales’ highest mountain.
This summit plinth is substantial, and circular in shape, with two built
walkways leading up it. The top is cobbled and relatively flat, just
wide enough at the base of the trig pillar for three people to edge
past one another abreast.
And here was our dilemma. On a summit that is now effectively man
made, where exactly do you gather data from?
.jpg) |
| Moel Siabod from Snowdon |
Before departing toward Crib y Ddysgl we took a number of
readings with a level and staff around the area of the summit; all were noted
and helped us in pinpointing the position of the highest natural rock that is
still visible on the periphery of the summit plinth. We also took relative
height readings from this rock to the top of the plinth at the base of the trig
pillar. These could be compared against old photographs of the summit
where we hoped to pinpoint comparable rocks and ascertain by how much the
summit plinth had raised the height walkers reach when they stand beside the
trig pillar.
We then collected two hours of data from the high point beside the trig
on Crib y Ddysgl and this gave the film crew a chance to capture us
setting the equipment up and also getting footage of the expanse of high cwm
above Glaslyn, the great eastern face of Wales’ highest mountain and the
nearby 1000ft cliff of Y Lliwedd. Although we’d experienced this view on
many occasions it is always mesmerising.
For the actual survey we decided that we would have to overnight
near to the summit to give us the best opportunity of obtaining the minimum two
hours of data that Ordnance Survey requires to verify the result. We also
decided to discuss the project with our contacts at Ordnance Survey and ask if
they would like to send a representative to join us on the day of the survey to
put their official stamp of approval on proceedings.
Soon after our recce we gained permission to stay overnight in the
café and be transported up the mountain late in the afternoon and come down on
the goods train early in the morning. This was vital to the success of the
project and we thank the Snowdon Mountain Railway for helping us. We had
also arranged with Ordnance Survey for Mark Greaves, their Geodetic Analyst, to
attend the survey and represent the organisation. Mark is one of the
country’s leading authorities on GNSS technology and had joined us on past
surveys of Tryfan and Tal y Fan.
.jpg) |
| Graham watching the sunrise over Moel Siabod from the summit of Snowdon |
We met in Llanberis and squeezed onto the 4.30pm train. Between us
we had all necessary film, surveying and sleeping gear: seemingly enough for a
grand tour of Europe. Once the last train down had departed the
number of people around the summit dramatically decreased. We expected
some to visit the summit during our time on its top as the evening was so
clear, but remarkably only one person came anywhere near during the whole
evening.
We had discussed the options for surveying the summit with Mark and had
been instructed by Ordnance Survey to take the data set from the summit plinth,
as this measurement could then be compared against the height obtained from the
last accurate survey of the summit which took place in 1961.
We used a level and staff to take a series of readings on the summit
plinth and assembled the equipment over the highest point we found, all under
the enthusiastic scrutiny of Mark. Once the Leica GS15 was in position we
put rocks on the tripod legs to weigh it down and keep it in place for the data
collection. The more data collected, the better the accuracy. We are
only talking a centimetre or so here, but nevertheless we decided on three hour
data sets in both the evening and the following morning - six hours of data
collection in all.
.jpg) |
| The eastern face of Snowdon |
As no one had visited the summit during the evening we left the tripod
and the two metre pole in place for the early morning data collection. It
was nearing midnight when we bedded down in the café, some sleeping in the shop
which proved quite a surreal experience.
By 5.20am next day we were back out gathering data again.
The next two hours were sublime as darkness slowly evolved into
dawn. Pushing westward from the heartland of inner Wales was a bank of
grey cloud, creeping slowly towards Moel Siabod. Sunrise heralded a
delicate show of colour as the land around Moel Siabod was transformed into
gentle reds and oranges. This early morning awakening was rather
stunning, framed by mist on Llynnau Mymbyr. Mist delicately wisped its way
up adjacent hillsides and it seemed as if Eryri had been transformed into a
Japanese silk painting.
At 8.20am the equipment had gathered its three hours of data. We
bade our farewells to the summit and headed down on the early goods train.
Mark later processed the two data sets once precise ephemeris data for
the satellite positions had been published. The result confirmed by Mark
is that the height of the summit plinth at the base of the trig pillar atop
Wales’ highest mountain is 1085.67m. We had calculated from old
photographs and the measurements that were taken on the recce in early June
that the plinth stood an approximate 0.8m above the highest natural rock of the
summit tor. This compares favourably with the 1084.74m height obtained by
the Ordnance Survey in 1961 (rounded up to 1085m).
The upshot?
Wales’s highest mountain, Yr Wyddfa / Snowdon, that mountain of
myth and legend, will retain its existing map height, since Ordnance
Survey protocols dictate that the height in this instance should be taken to
the high point of the bedrock. However, for the many thousands who
walk up Snowdon each year to reach the trig pillar, the ascent turns out
to be a little bit further than it looked. In effect they are climbing that
extra 1m of man-made summit plinth at the top, to stand at 1086m.
So how do you measure a mountain?
.jpg) |
| Setting up the Leica GS15 on the summit of Crib y Ddysgl |
The measurement of the height of a mountain can be done in a number of
ways. Historically optical equipment was used to do this but nowadays
photogrammetry (aerial photography) or GNSS (Global Navigation Satellite
System) are employed. All of these measurement methods employ the mathematical
principle of triangulation. Triangulation means that if you know the position
and height of two different points, you can calculate the position and height
of a third point if you can measure the distances and angles of this third
point from the other two.
In order to measure absolute height for mountains we use a Leica Viva
GS15 GNSS unit; the same units as used by Ordnance Survey. This operates on the
same general principle as hand-held GPS units and SATNAV systems. Since the
positions of satellites with respect to the earth are known at all times, the
GNSS unit can measure the time taken for a signal to be received from the
satellite and hence the distance calculated. As with the principle of
triangulation mentioned above, the position and height of a survey point can be
calculated if signals from a range of satellites are processed at the same
time.
There are a few important differences between a survey grade GNSS unit
and a typical SATNAV or handheld GPS unit. The GS15 receive signals from
both the USA GPS and the Russian GLONASS satellite systems. It can also receive
the signals transmitted at different frequencies from each satellite and that
allows inaccuracies which result from distortion as the satellite signals pass
through the earth’s atmosphere to be reduced. As a stand-alone instrument, the
GS15 is still only capable of giving precision in position and height to about
two and five metres respectively. However, to achieve the ultimate
accuracy, height and position is measured relative to other GNSS units set up
and operated by Ordnance Survey as a national network of Base Stations whose
positions and heights are known accurately. This network continuously monitors
the satellite signals and therefore can compare measured with known coordinates
for each Base Station. These data can be used to create “corrections” to the
survey point position and height, leading to precision of a few centimeters in
height.
John Barnard, Graham Jackson and Myrddyn
Phillips
Please click {here} to see the original article
published on the UKHillwalking website
No comments:
Post a Comment