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3.1 Hardware developments 
The digital photogrammetric workstations, too, have 
migrated to the Sun Ultra 1. The Fast Frame Buffer of 
the Creator 3D Model 170E gives a practical, off the 
shelf solution for stereoscopic viewing and smooth 
roaming. Similarly, the Silicon Graphics Indigo? with its 
XL, High Impact and Solid Impact graphics engines 
provides an excitingly powerful platform and SOCET 
SET has ported easily to the dual head versions of the 
lower level SGI Indy. Monoscopic and split screen stereo 
workstations are available on many models of Ultra, 
Indigo? or Indy and at the time of writing the 
SPARCstation 20 and SPARCstation 5 Model 110 were 
being retained owing to their economy. Like the 
DSW200 and DSW300, the workstations are supplied 
with 6 GB hard disk capacity and use 8 mm tape 
cartridge drives for longer term storage. The hardware 
environment has also been enhanced by a new hand 
controller based on mouse technology as opposed to the 
mechanical, rack and pinion approach in the earlier 
model, transplanted from the Leica SD2000/3000 line. 
3.2 SOCET SET software 
The SOCET SET software has been incrementally 
enhanced. Its current structure, including some Leica 
and third party packages for map compilation and DTM 
manipulation, is schematised in Figure 2. 
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Figure 2. Structure of SOCET SET and related modules 
3.2.1 CORE SOCET. The same automated interior 
orientation and JPEG compression as the scanners have 
been added. All operations throughout the SOCET SET 
suite are now available for 8-bit greyscale and 24-bit 
colour imagery. The range of image, vector and DTM 
69 
formats capable of being imported and exported has 
increased over the years. A useful feature for some 
customers is the model manager, whereby pairs of 
orientated images may be defined as stereo models, 
between which the user can switch by means of a single 
menu selection. This operation takes one to two seconds 
and thus outperforms analytical stereoplotters with large 
stage plates. Moreover, more than two models can be 
handled at once. 
3.2.2 Satellite imagery. The use of data from JERS-1 
was added in 1995 and a module for IRS-1C is in 
preparation. 
3.2.3 Automated triangulation. A major new SOCET 
was introduced in 1995, called HATS (Helava 
Automated Triangulation System). Accounts have been 
given by Miller and Walker (1996) and De Venecia et al. 
(1996). The basis of the module is automated 
measurement of control, pass and tie points by area 
based image matching. The ground control points must 
be measured manually in at least one image and set up 
procedures exist to inform the system of the 
configuration of the block and the forward and side 
overlaps. The latter are much abbreviated when GPS 
coordinates of exposure stations are input. Cross strips, 
different photo scales and mixed aerial and satellite 
imagery are all possible. After the matching, interactive 
editing may be invoked to repair failure cases. Numerous 
blunder checks exist, from simple model, strip and block 
formation to data snooping after the built-in bundle 
adjustment. Indeed, at least one user has successfully 
minimised the interactive phase by going for very large 
numbers of tie points and making no attempt to measure 
failure cases manually, though of course gross errors 
must still be eliminated. It is also possible for users to 
output image coordinates from HATS to their existing 
block adjustment packages, for example ALBANY and 
PAT-B. Thus far it appears that the whole process takes 
around 10 minutes per image, which must be compared 
to the preparation, point marking and transfer, 
measurement, adjustment, re-measurement and final 
adjustment phases of analytical triangulation. Some early 
experiences have been reported by De Venecia et al. (op. 
cit.) and Kersten (1996). Current work centres on 
improvements to the user interface and expansion of the 
GPS facilities, such that a wide range of popular formats 
can be read and the bundle adjustment includes drift 
parameters. 
3.2.4 Close range photogrammetry. Special software 
has been added for the orientation of close range images, 
including automated generation of initial values, an 
extended mathematical model, tracking in directions 
other than ground XYZ and rectification for viewing into 
user defined planes. The key is the transfer of image 
coordinates observed with standard SOCET SET 
functions to the PRIORI and CAP modules ported from 
the MAAS-CR software available for the Leica analytical 
plotters (Hinsken ef al., 1992). 
3.25 DTMs, orthophotos and mosaics. There are 
additional strategies for automated DTM generation, 
together with new, interactive editing tools. Batch 
merging with planimetric data provides a powerful 
editing method too. Tests have proved the DTMs to be 
good enough for change detection, for example to 
monitor urban development or to estimate timber 
volumes through measuring tree growth. The latest 
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B2. Vienna 1996