Traditionally the university does not provide sufficient knowledge throughout life any more, its role being to form value systems that do not become outdated, provide general knowledge and basic assumptions, to create prerequisites to adapt to future changes. Continuous training currently takes place in a little or no institutionalized conditions. The current trend is to organize different institutional forms for continuous training, more flexible than large universities. In the modern era, information technology has made strong mark on education, revolutionized the manual based educational system. Computers evolved from a high study subject to an indispensable training tool, regardless of the field. Design and large-scale introduction of computer aided training systems pursues several objectives that come to greet modern training problems: independent study, alternative forms of teaching, reduction of time to access information, improving the quality of learning in general, the increased number of students by eliminating the physical space restrictions imposed by the classroom. In the virtual study environment, an unlimited number (besides the technical performance of the system) of students can participate simultaneously in the same activities. Computer aided training systems solve many problems and bring benefits, but also raise new problems to be solved. Among the advantages of these systems are the using of the eLearning increases student independence, the virtual environments can lead students in a virtual world where they can practice the already studied material, increase students' motivation and interest, well designed program can increase the quality and quantity of work, it leads to the reductions in teaching time and the rate of failure in examinations. This paper deals with the architecture of interuniversity's Moodle eLearning network developed in accordance with the TEMPUS project «Creating Digital Network Universities in Applied Science Themes and Economics in Moldova (CRUNT)». This project has the objectives as creation of an interuniversity network with a modernized infrastructure to sustain effective modern online learning platforms, creation of a technological center, endowed with computers, audio/video devices, assisted by modern software to produce online courses efficient and attractive to students and development of a set of pilot courses in different fields, which will be applied at the partner universities. The discussed information systems provide the educational process, access to bibliographic sources, scientific research and monitoring of training. It requires a serious adjustment and development of university information systems to support online training. Another important aspect is to create a distributed system that would allow sharing of resources for online training. This consists in the location of the electronic courses Moodle servers to be used jointly by several universities, for example, the physics courses will be placed on Technical University of Moldova cluster, but the courses in mathematics will be placed on cluster State University of Moldova (USM) and the economics courses will be placed on Academy of Economic Studies (ASEM) cluster and will be used by all other universities.
In this paper, a brief overview of TUMnanoSAT's educational and scientific missions, the impact on system design and educational opportunities are presented. The main basic test procedures for the launch of this nanosatellite are described, including the structure, power supply and attitude control. The main mission of TUMnanoSAT is to provide practical experience to students not only in designing, building, but also testing the nanosatellite with various missions.
This document will cover the overview, development and implementation of mission control platform for TUMnanoSAT, a CubeSat developed at Technical University of Moldova. A mission control platform is essential for a space mission in order to command and control different subsystems, monitor their health, process telemetry and useful data, receive and control requests but also in presented scenario it should be strongly linked to radio software defined architecture from ground station.
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