In: Wagner W., Szekely, B. (eds.): ISPRS TC VII Symposium - 100 Years ISPRS, Vienna, Austria, July 5-7, 2010, IAPRS, Vol. XXXVIII, Part 7B
4. ISSUES
The experience of using lidar data through these projects has
also revealed a number of issues relating to the data that need to
be understood by anyone intending to use lidar for
archaeological survey. These include the question of resolution
and data formats, as well as issues related to using the data in
day-to-day survey, ranging from producing viable hard copy
printouts for use in the field, to mapping with fully interactive
raster surfaces in CAD and GIS.
4.1 Data capture
One of the key elements that needs to be understood when using
lidar data is the question of resolution. This is a twofold issue; it
relates not only to the actual final resolution at which the data is
displayed, something that limits the size of the features that can
be seen and recorded, much in the same way as for other image-
based data, such as satellite or standard aerial photography. It
also relates to the original resolution of the data defined by the
number of hits within a square metre and the footprint of the
laser beam when it strikes a surface. A combination of these
two elements can mean that although an average of one point
per metre is nominally collected, it is possible for small features
to be entirely missed by the survey and not recorded. A good
example of this, illustrated in the guidance note, is shown by
the bluestones at Stonehenge in that the lidar data captured at
one hit per square metre does not appear to show several of the
bluestones (Crutchley & Crow 2009, pi6).
Whilst it is unnecessary for the user to understand everything
about the techniques used during data capture and initial
processing, it is important to be aware of the stages of
processing the data have been put through, as these can result in
data artefacts that can be misleading. These issues are discussed
in further detail in the guidance note.
4.2 Interpretation
Lidar data is primarily a record of x,y,z coordinates that provide
a view of the land surface. In order to differentiate between
archaeological features created by human interaction with the
landscape centuries or millennia ago and the remains of modem
agricultural or other practices this data requires interpretation.
There are various aids to viewing the data to aid the
interpretation process.
The main product of lidar data tends to be imagery viewed as
hill-shaded images. These appear similar to vertical
photographs of earthworks lit by low sunlight, so the analysis of
lidar for the identification and characterisation of
archaeological sites requires similar skills as those applied to air
photo interpretation, for example the ability to recognise slight
earthwork banks or ditches based on their appearance with
reference to shadows and highlights, while filtering out features
due to modem agricultural practices, geology and data
processing artefacts.
Figure 3 - Feature misinterpretation - lidar derived
image (lidar © Mendip Hills AONB; source,
Cambridge University ULM (April 2006)).
This can be demonstrated by an example from the guidance
note that shows the potential confusion between features of
archaeological interest and those of modem origin. The feature
seen in the bottom centre-left of figure 3 gives every
appearance of being a burial mound, being of a similar size and
shape to other known barrows in the vicinity here on the
Mendip Hills. Using not only all available mapping data, but
also analysing all readily available aerial photographs, both
traditional and digital, simultaneously with the lidar data, will
help to ensure correct interpretation, as in this case where the
evidence from aerial photographs and mapping (Fig 4) reveals
that the feature is in fact the site of a covered reservoir.
Figure 4 - Feature misinterpretation - aerial
photograph showing the true nature of the feature
(photo PGA_ST5050_2006-04-30_part. Licensed to
English Heritage for PGA, through Next
Perspectives™; OS background map © Crown
Copyright. All rights reserved. English Heritage
100019088. 2009).
4.3 Usage
Whilst lidar data is remarkably useful and has generated great
interest in archaeological circles, it is not necessarily inherently
user friendly and many organisations who might wish to make
