The term satellite refers to any object orbiting a larger one, thus Earth’s moon and all the oter moons of the solar system are satellites. Satellites may be natural or artificial. Artificial satellites are often launched by entities including national government, international Association and independent firms. They are planted in the orbit for the purpose of information gathering and dissemination.
Remote Sensing
This refers to the small or large scale acquisition of information of an object or phenomena by the use of either recording or real time sensing devices that are wireless or not in physical or intimate contact with the object (such as by way of aircraft, spacecraft, satellite, buoy or ship). Currently, remote sensing refers to the use of imagery sensor technologies including instruments found in aircrafts and spacecrafts as well as those used in electrophysiology.
It involves the viewing of objects from the air or from space by utilizing electromagnetic radiations across a wide spectrum. It is restricted to the use of techniques involving radiation on the electromagnetic spectrum. This includes visible infra-red and ultra-violet light as well as low frequency signals in the microwave of range of the spectrum.
Applications of Satellite Remote Sensing
Remote sensing is used for a variety of purposes. The application of remote sensing goes beyond cartography (map making) and measurement.
Relationship between GIS Remote Sensing
Geographic information System (GIS) and remote sensing are integrated. Remote sensing processes obtain data from remote places including space which cannot be easily accessed or seen by man. It is the GIS that extracts and separates the array of information from the satellite imagery into the different geographic features that can be analysed for decision making. The GIS also gives the geographic features extracted from remote sensing geographical attributes, that is, locational and geometric characteristics.
The relationship between remote sensing and GIS can be state as follows:
Application of GIS
GIS provides locational information which is useful to a number of professionals, including planners, policy makers and public administrators. The data generated from the operations of GIS is useful in the promotion of sustainable development of resources and solving of real life problems.
The usefulness and application of GIS can be outlined as follows:
The major spatial data handling applications of GIS include:
Maps produced from GIS often have appropriate scales and are useful in a number of ways including, description, registration and sales of lands, generation of revenue, planning and administration as well as engineering work. Generally, GIS application to land and property management include:
GIS application to transportation management include naming of streets, house numbering, street network analysis, managing mailing lists, vehicle routing and scheduling, traffic congestion analysis and control, development of evacuation plans, address matching, highway and other routes planning and design, monitoring and maintenance of road condition, road mapping, accident analysis, transport facilities inventory and management, assessment of environment impact of transportation, air traffic control, sitting of terminals egg bus stops, motor parks, railway station and inland water ports, etc. Others includes planning and management of inland water ways, production of navigational biometric charts, airport facilities mapping, monitoring and maintenance.
GIS technology is essential in modern military operations.
No operation would be successful without a sound knowledge of the geography and terrain of the area of operation. Some areas of GIS application in military and security operations are:
Problems with GIS Interpretation in Nigeria
Geographic information system as a discipline is quite recent in Nigeria and as such is confronted with many problems. The main problem facing GIS interpretations in Nigeria are:
The power supplied by the Power-Holding Company (PHCN) is unreliable. It is characterized with incessant blackouts which last for long periods. This situation hinders the effective development of GIS in Nigeria. A few organizations that operate GIS rely on private generators which are expensive to maintain.
The absence or shortage of persons with sufficient technological knowledge in GIS has affected the successful implementation of GIS. A great number of the Nigerian population are not computer literate. Nigeria still has very few computer engineers, GIS technicians, GIS data provides, GIS scientists, etc. Nigeria still relies on foreign exports for the successful implementation of GIS.
The absence of National policy on computer education has a negative effect on the development and promotion of GIS implementation.
The Prospects of GIS in Nigeria
Geographic information systems development has bright prospects in Nigeria. The revolution is gathering momentum and more people are acquiring skills in the new technology. In addition, many tertiary institutions are establishing GIS units and training students in GIS. GIS is being offered as a course/discipline at post graduate level.
In contemporary Nigeria, GIS experts are being employed in government departments and agencies. Experts in GIS are highly needed in town planning, estate management agricultural firms, civil engineering, and Military establishment. etc.
The on-going manpower development programme in GIS, the high demand for GIS experts and the diverse areas demanding GIS specialists are indications that bright prospects of Geographic information Systems in Nigeria.
It should however be noted that the rate at which GIS personnel’s are being turned out by many universities in Nigeria is still low. GIS is not even offered as a course by many departments in geography of some universities.
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