Additionally, the basic intention of this research is to offer a comprehensive overview of the key qualities and indicators of successful global IS, and an explanation of considerations that must be addressed when taking an information system to the global level.
Global information systems could be described as information systems intended to gather, process, incorporate, communicate and evaluate the whole “body of knowledge” concerning to a specific field. Since, this type of information systems is used to support some application necessitating this knowledge in an “on-demand” mode through ultimate information quality evaluations (Rolland & Monteiro, 2002).
According to Ouksel & Sheth (1999), the paradigm of global information system has the similar intentions and operational structure but having a completely different tasks as compared to geographic information systems. In addition, this type of information systems offers the context of worldwide setting, either for its development or utilization procedures. Additionally, these information systems are extremely concerned with distributed computing and distributed systems that can be located at global level. Since, through the current progresses in computer software and hardware technology, it is probable to develop the relational data management systems those can consistently uphold storage of huge amounts of information concerning to a specific field of science. Biehl (2007) stated that the novel interoperable is offering the ways of standardizing data communications that are based on the XML (i.e.: extensible markup language) technologies, advanced production software like that expert systems, as well as safe web based networks have produced extraordinary prospects intended for defining and establishing a new model of huge global information systems in science. Thus, the development of the global information systems has improved the scientific discovery procedures, knowledge communication and