language, and with simple grammar. This
language was developed especially for the
purpose of communication between the database
and user.
(iii) The sense of sight conveys 90% of all
information absorbed by a human. Information
contained in a picture is not transformed by a
sequential process. This phenomenon enables
abstract thinking processes, which are the main
part of creative processes needed for planning
etc. Therefore it is important to equip the user-
oriented GIS with a graphical visualization
system (Steiner et al. 1989). This system should
present each GIS answer in adequate graphical
form.
(iv) The information gathered in a GIS is of
quantitative and qualitative character.
Quantitative elements are those in which the
relation of order can be defined, while
qualitative elements are all others. Both sets of
information are described as primary or basic
information. For each element of each set of
quantitative and qualitative data, a relation can
be determined with all other elements of the data
sets. This will generate a huge number of
relations, but only a small number of them have
sensible meanings. The fourth condition can be
fulfilled in 2 ways:
* through the requests formulated in SQL
or
* through questions for which the answer
would come as a result of operations on bitmaps.
The second solution is much more
effective than the traditional one ( i.e.
analytical ) because it is based on the utilisation
of fast operations on binary sets. The binary sets
are created through producing graphic outputs of
the GIS.
(v) The fulfilment of the fifth condition is
possible by utilizing a long data format
available in RDBMS ORACLE records. Long
data format enables the storage of 65535
characters in each record. This means that the
database can store objects such as image data in
raster form.
(vi) The software packages available on the
market so far operate in such a way that they
react directly to each request, either
communicating to the user that an error has been
made or performing a requested task. The
quasi-intelligent system however would include
in its operations not only the information given
directly by the user, but also its own knowledge
gathered about each particular user by observing
that user's actions. That means that a quasi-
intelligent system should be able to perform the
operations of observing and gathering
information about each user, and storing and
making decisions on this information.
The theoretical considerations lead to the
conclusion that there is a distinct possibility of
implementing quasi-intelligence into GIS
along those lines.
The two main fields in which the quasi
intelligence would be useful are the control of
proper use of the system and help given to the
user. For instance, if the operator makes a
syntax error, the system should make an effort to
correct this mistake. If the operator for the first
time decides to use some options available in the
package, the system should inform the operator
about its application and give him all possible
assistance. The amount of assistance supplied
by the system itself should be determined by the
level of experience of each particular operator,
which can be measured for example, by the
number of syntax errors made or the time used
by the operator during working on various
tasks.
The experimental GIS developed at the
UNSW, School of Surveying has been
constructed using of ORACLE RDBMS and other
associated products such as SQL*PLUS,
SQL*LOADER, PRO*C. The graphic
subroutines have been written in C procedural
language and using standard graphic packages
GMR and GPR which are provided with the
APOLLO DN 4000 computer.
Interesting applications of ORACLE
RDBMS have been presented in (Abel 1989 and
Pong-Chai Goh 1989).
3 QUASI-INTELLIGENT PROCEDURES.
There are three main sources of
inefficiency in GIS software:
(i) The Structured Query Language has its
own syntax and semantics. A query which is not
formulated correctly according to the rules will
result in an error message, after which the
operator must, in many cases, re-enter the query
from the beginning; this is time consuming.
(ii) The use of complicated systems needs
extensive training. The best form of the training
is working with the system. Therefore the
system should be equipped with a "help" or self
training unit. This option should be started
automatically, if required, in the context of the
introduced query.
