A STUDY OF METROPOLITAN AREAS IN BRAZIL: A MODELLING USING GIS 
AND REMOTE SENSING TECHNOLOGIES 
Sandra Maria Fonseca da Costa 
l 
Jorge Pimentel Cintra? 
University of Vale do Paraiba - UNIVAP 
7 University of Sào Paulo - USP 
Address: Rua Sorocaba, no 45/Ap 24 - Jdim Alvorada - SJCampos - SP - CEP 12240-6000 
E-mail: sandra«?univap.br 
KEY WORDS: remote sensing. geoprocessing. urban 
planning. modelling. 
ABSTRACT 
The process of metropolisation. verified in Brazil. was more 
intensive during the period. of 1950 to 1975. It was quite 
difficult to plan and monitor this process in Brazil. as well as 
develop methodologies to study and control this situation. Even 
now we continue without essential information about the 
metropolisation process. Considering this. the principal subject 
of this work was creating a methodology to study metropolitan 
areas. to help Brazilian planners understand the urban 
environment and to solve the problems rapidly and precisely. 
This research was directly mainly to identifving the urban 
expansion process of the Belo Horizonte Metropolitan Area 
(BHMA). located in the state of Minas Gerais. between 1950 
and 1990. evaluating the urban land use. and the suitability of 
the environment to these urban land uses whilst having regard 
to the principal environmental effects caused by this process. 
The methodology used in this research has been very useful to 
monitor the urban process as verified in the BIIMA and the 
results obtained has provided georeferenced thematic 
information and a data base. which can be update 
systematically. through the integration of remote sensing and 
GIS. 
I. INTRODUCTION 
The growth of metropolitan arcas in Brazil was a result of a 
rapid process of industrialisation. as also of the increase of 
urban population. In 1940. 32.4 percent (12.9 millions) of the 
population lived in urban arcas and 68.7 percent (28.3 millions) 
lived in rural areas. This rate had changed by 1991: considering 
the total number of inhabitants. 75 percent (112.8 millions) was 
urban and 25 percent (37.6 millions) was rural. 
These data show that Brazil is now an urban country. but its 
population is concentrated in some spatial points. above all the 
largest cities. 
The concentration of inhabitants in some cities. associated to 
the deficient urban planning. has given origin to many 
problems. one of the most important being the fact that the 
share. of the population which does not have access to 
information come to live in prohlematical areas which. despite 
being attractive in view of the low price of real state. are 
problematical as regards to their physical characteristics. As a 
result of this. the environment has been damaged during these 
years. affecting the quality of life. 
The technology of Geographical Information Systems and that 
of Remote Sensing have been joined to detect and. control this 
process in a way which is easier and faster than the traditional 
methods of surveying. 
In this context, this research has made use of these two 
technologies to develop a methodology to evaluate the 
suitability of the environment of the Metropolitan Area of Belo 
Horizonte. state of Minas Gerais, Brazil. to help the work of 
planning bureau. This methodology considers urban land use. 
paying special attention to its main environmental effects. 
2. REMOTE SENSING AND GIS: AN OVERVIEW 
The geographic space is the result of the integration of man in 
his environment. According to Souza (1988). this space is 
materialised in different aspects (an urban landscape. a business 
centre. the urban fringe etc). being the combination of natural 
and social elements. and a result of the historic process. Souza 
also mentions that, from this standpoint. the landscape is 
dynamic because society is dynamic. Each time society is 
transformed. there is a consequence on the landscape. 
Orbital remote sensing has been used as an important 
technology to help various urban researches. and to support 
research analysis of this spatial dynamics. A difficult point in 
using remote sensing technology for urban studies is the 
diversity of features found in the environment. Forster (1985) 
attests that an urban area is composed by different targets like 
concrete. asphalt (streets and avenues). roofs of different 
materials. exposed soil. grass. trees. water. etc. Some of these 
materials are smaller than a pixel resolution. 
Since the urban environment is very complex. the remote 
sensors that have a better spatial resolution (as TM/LANDSAT 
and HRV and PAN/SPOT) are more qualified to urban studies. 
since they area able to produce a more detailed identification of 
the terrain. 
Another technology that can be very useful to urban planners is 
the Geographical Information System (GIS). Burrough (1986) 
defines GIS as a particular form of information system applied 
to geographical data. According to him. it is "a powerful set of 
tools for collecting. storing. retrieving at will. transforming and 
displaying spatial data from the real world for a particular set of 
purposes.” 
Extending this definition. Aranoff (1989) points out that a GIS 
data base is associated to a real world model. which can be used 
to reproduce some aspects of reality to help the planning 
process. Models are designed to mimic only selected aspects of 
reality. In general. the more factors a model takes into account. 
the more complex it becomes and the more expensive it is to 
use and maintain it. A more complex model may or may not 
provide "better" answers: it depends on the questions to be 
addressed (Aranoff. 1989). 
Aranoff (1989) also reports that a model is used to answer 
questions about what exists now or existed at some point in the