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PHYSICAL, CHEMICAL AND BIOLOGICAL PROPERTIES OF THE INTEGRATED
SUBSTANCE AND INTERACTION BETWEEN THE NATURAL AND SOCIOECONOMIC
ENVIRONMENT)
- SELECTION OF THE MOST INTEGRATED TEMPORAL R.S. MISSION PLANNING IN ORDER
TO OPTIMALLY CAPTURE AND REPRESENT THE INTEGRATED CHARACTERISTICS OF
THE NATURAL AND SOCIOECONOMIC REALITY
- SELECTION OF THE BEST INTEGRATION OF R.S. SENSORS/SYSTEMS PER PROJECT
- SELECTION OF THE MOST INTEGRATED R.S. BANDS PER PROJECT
- SELECTION OF THE MOST INTEGRATED SPECTRAL ZONES PER PROJECT
- SELECTION OF THE BEST INTEGRATION OF R.S, IMAGERY SCALES PER PROJECT
- SELECTION OF THE MOST INTEGRATED COMBINATION OF CAMERAS OF DIFFERENT
FOCAL LENGTHS PER PROJECT
- SELECTION OF THE BEST INTEGRATED TYPES OF IMAGERY FORMS AND TYPES PER
PROJECT
Integration in the Communication of Multidimensional Remotely Sensed Information.
- SELECTION OF THE BEST INTEGRATED TYPES OF DETECTORS
- SELECTION OF THE BEST INTEGRATED TYPES OF FORMAT
- SELECTION OF THE BEST INTEGRATED DIURNAL, REAL TIME AND NON REAL TIME
CHANNEL COMMUNICATION
- SELECTION OF THE BEST INTEGRATED TYPES OF REGISTERS
- SELECTION OF THE BEST INTEGRATED TYPES OF RECEIVERS
Integration in the Analysis. Processing. Interpretation. Evaluation. Mapping. Monitoring and
Management of Multidimensional Remotely Sensed Information.
- SELECTION OF THE BEST INTEGRATION OF INTERDISCIPLINARY METHODS, TOOLS
PROCEDURES AND TECHNIQUES FOR ANALYSING, PROCESSING, INTERPRETING AND
EVALUATING MULTIDIMENSIONAL REMOTELY SENSED INFORMATION
Some inevitable consequences of the multidimensional, interdisciplinary and integrated
nature of Photointerpretation and Remote Sensing Instruments, Methods, Techniques and
Applications in their space and high technology era (see fig.2.) are:
1. The development of a close, effective and harmonious cooperation between Scientists, En
gineers, University Departments and Laboratories, Research Centers, national and multina
tional Research and Development Agencies, Industry, consulting firms, e.t.c.
(a) at the basic scientific/technical/technological level, (Basic and Advanced Physics and
Mathematics, Surveying Methods and Techniques, Computer Science and Mapping,
Digital Image Processing, Statistical Methods and Techniques, Sensor Technology and
Space Techniques).
(b) at the specific and/or interdisciplinary Photointerpretation and Remote Sensing Natural
Resources and Environment Applications level, (Soil Science, Vegetation Analysis,
Forestry, Agriculture, Ecology, Civil Engineering, Rural Engineering, Geology, Geomor
phology, Engineering Geology, Mineral Exploration, Environmental Monitoring,
Meteorology, Atmospheric and Maritime Sciences e.t.c.)
(c) at the specific and/or interdisciplinary Photointerpretation and Remote Sensing Human
Resources and Environment Applications level, (Social Sciences, Human Resources and
Settlement Analysis, Urban Planning, Physical Planning, Education, Research e.t.c.)
(d) at the interdisciplinary and integrated Photointerpretaiion and Remote Sensing Applica
tions level, (Ddsicion Making on the major complicated Environmental, Development and
Societal Problems at a global, multinational, national, regional and local level).
2. The need for a continuous, systematic and coordinated Education, Research and Research
and Development effort for bridging the growing gaps between: