iv. Improvements in data
compatibility.
Although no radical new theories or
methodology emerged it was
particularly evident that the process
generally could be greatly simplified
and speeded up given a properly
facilitated approach.
THE WAY FORWARD
The continuing expansion of
geographic information systems (GIS)
has ensured that these general
principles remain very relevant and
while things have moved on somewhat
since this report was compiled they
still. form ‘the -basis' for further,
properly resourced research and
development.
Within Ordnance Survey of Northern
Ireland (OSNI) action to improve the
updating operation by partly building
on these recommendations, has
continued and it is presumed that
others have made similar efforts.
Thinking here has also increasingly
focused on how the full potential of
aerial photography could be exploited
to enhance the process.
PROGRESS WITHIN ORDNANCE SURVEY OF
NORTHERN IRELAND
Within OSNI considerable advances
have since been made with respect to
each of the recommendations, progress
here being largely dictated by the
demands for up to date information in
support of the Northern Ireland
Geographic Information System
(NIGIS). With the OSNI large-scales
digital topographic database the key
locational element of this
continually developing multi-partner
network it is imperative that this
database can meet the requirements of
a very diverse range of application
areas, with equally diverse demands
for content and currency. While
there is still much to be done to
produce an ideal updating flowline,
enhancements which have recently been
implemented have resulted in a
34
significant increase in throughput, a
very satisfactory development given
the complexity of the data and
consequently of the actions necessary
to update them.
The main developments in respect of
each of the recommendations in the
earlier report have been as follows.
Recording the Time/Historical
Dimension
OSNI has developed and implemented a
new methodology which provides for
both current and historic archiving
of graphic and textual data, and in
addition allows for the provision of
change only data from the large scale
database. The historic archive is
created by marking each linestring,
point and object feature within the
graphic file with a date of survey
and a date of deletion where
appropriate. A date of revision is
also given to features which have
been altered but which are related to
unchanged geometry. The date
attributes are held within the
graphic file and enable OSNI to
extract deleted geometry and store
this as a discrete layer within the
database structure. The date of
survey 1s taken as the date the plan
was first digitised while the dates
of deletion and revision are taken as
the date at which the graphic file is
updated by the digital updating
section. There 1s currently a
turnaround time of five working days
between the date of survey of the
deletion/revision and the date of
digital update and additional
resources will be applied to the
updating process to further reduce
this time delay.
Production of User Friendly/Cost
Effective Updating Procedures
The move to the new updating
procedures together with advances in
software have allowed OSNI to develop
a much more intuitive user interface
for the updating process. The
software now utilises drop down menus
with 'mouse' selection to facilitate
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B6. Vienna 1996
=r OH PD CEO
