but every one can understand this share in problems. In other 
words, the present SIG will not handle matter related to any 
pure geometrical use of the data, e.g. image matching for geo- 
referencing, or  geo-referencing, accurate positioning, 
assessment of digital terrain models, unless it appears 
necessary for the wealth of our studies and if information 
cannot be obtained from elsewhere. 
All applications are foreseen, none is excluded. The already 
foreseen work tasks are: 
e list and better understand the fundamentals in data fusion 
e list and better understand tools and methods in data fusion, 
develop new ones 
e develop and provide jnstruments for the assessment of the 
quality of the fusion 
e prepare application cases exhibiting several processes and 
levels of fusion. These cases will help in illustrating data 
fusion and in students training. Several domains (urban 
domain, meteorology, ...) should be handled. 
e prepare sets of data for well-documented sites which may 
be useful for testing algorithms. This should be performed 
with the help of the space agencies and other data providers. 
3. THE NEED FOR TERMS OF REFERENCE 
The concept of data fusion is easy to understand. However its 
exact meaning varies from one scientist to another. Several 
words have appeared, such as merging, combination, synergy, 
integration, ... All of them appeal more or less to the same 
concept but are however felt differently. There is also a fashion. 
Several times, the word «fusion» is used while 
« classification » would be more appropriate, given the contents 
of the publication. 
There is a need for terms of reference in the remote sensing 
community. It has been strongly expressed in several meetings, 
including those organised by EARSeL or SEE (see e.g., Van 
Genderen, Pohl 1994; Wald 1997). The establishment of a 
lexicon or terms of reference permits to the scientific 
community to express the same ideas using the same words, and 
also to disseminate their knowledge towards the industry and 
'customers' communities. Moreover it is a sine qua non 
condition to set up clearly the concept of data fusion and the 
associated formal framework. Such a framework is mandatory 
for a better understanding of data fusion fundamentals and of its 
properties. It allows a better description and formalisation of 
the potentials of synergy between the remote sensing data, and 
accordingly, a better exploitation of these data. 
The present communication aims at providing the basis for this 
framework. It should be noted that this is not the only attempt 
to set up definitions in data fusion. The remote sensing 
community should not establish terms which are also used 
elsewhere with different meanings. Therefore, whenever 
possible, definitions were adopted which are already widely 
used in the broad scientific community, especially that dealing 
with information. Examples of such terms are image, features, 
symbols, etc. 
Several lexicons have been already set up. They have all been 
established in the framework of the Defence domain (e.g., U.S. 
Department of Defence 1991; DSTO 1994). Most of the terms 
are part of the military jargon. They express needs of the 
Defence which may be partly similar to those in other domains 
where crisis occur, such as the management of a power plant. 
However it is not easy to translate military terms in meaningful 
words for the scientific community dealing with Earth 
observation. Using these military lexicons would imply a 
refinement of the military terms to expand their meaning, with a 
reference to the time-space scales. It was concluded that using 
an existing lexicon is not straightforward, and that a new one is 
required to tackle the specific needs of our community. 
However we should benefit from these previous works as much 
as possible, and, whenever possible, we should use either the 
terms already adopted or global architectures, etc. 
The present communication summarises the discussions held 
within the SIG since the first conference 'Fusion of Earth data' 
held in Cannes, France, in February 1996. It proposes some 
terms of reference which have met a consensus during the 
second conference, held in January 1998. 
4. THE EARSeL - SEE PROPOSAL 
Data fusion means a very wide domain. It gathers a large 
number of methods and mathematical tools, ranging from 
spectral analysis to plausibility theory. Fusion is not specific to 
a theme or an application. On the contrary the tools used in a 
fusion process for a specific application may be tailored to that 
case. It is very difficult to provide a precise definition of data 
fusion. This large domain cannot be simply defined by 
restricting it, for example, to specific wavelengths, or specific 
acquisition means, or specific applications. Fusion process may 
call upon so many different mathematical tools that it is 
impossible to define fusion by these tools. For example, both 
the simple sum of two images acquired by two different sensors, 
and the more sophisticated encrustation of one image into the 
other using the multiresolution analysis (Wald, Ranchin 1995), 
are considered as fusion processes. Both implies at least a 
preliminary geocoding of the data. A classification technique 
based upon a sophisticated neural network is also a fusion 
process. 
Several definitions have already been proposed. They have been 
discussed by e.g., Buchroithner (1998) or Wald (1997, 1998). 
During the meetings of the SIG as well as in the conferences 
'Fusion of Earth Data’, it was felt that most of these definitions 
were focusing too much on methods though paying some 
attention to quality. Some of them are restricted to sensors and 
their output signals. As a whole, there is no reference to concept 
in these definitions while the need for a conceptual framework 
was clearly expressed in these meetings. 
In data fusion, information may be of various nature: it ranges 
from measurements to verbal reports. Some data cannot be 
quantified; their accuracy and reliability may be difficult to 
assess. In Earth observation domain, one may use some features 
held in a geographical information system to help in classifying 
multispectral images provided by several sensors. In this 
particular case, some data are measurements of energy, and 
others may be symbols. 
Accordingly the definition for data fusion should not be 
restricted to data output from sensors (signal). Opposite to most 
of the published definitions, it should not be restricted to 
methods and techniques or architectures of systems, since we 
aim at setting up a conceptual framework for data fusion. Based 
upon the work of Wald (1997, 1998), the following definition 
was adopted: « data fusion is a formal framework in which are 
expressed means and tools for the alliance of data originating 
from different sources. It aims at obtaining information of 
greater quality; the exact definition of ‘greater quality’ will 
depend upon the application ». 
This definition is clearly putting an emphasis on the framework 
and on the fundamentals in remote sensing underlying data 
fusion instead of on the tools and means themselves, as is done 
usually. The latter have obviously strong importance but they 
are only means not principles. Secondly it is putting also an 
emphasis on the quality. This is certainly the aspect missing in 
most of the literature about data fusion, but one of the most 
delicate. Here quality has not a very specific meaning. It is a 
generic word denoting that the resulting information is more 
652 Intemational Archives of Photogrammetry and Remote Sensing. Vol. XXXII, Part 7, Budapest, 1998 
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