Informatics in Education

Software is usually considered enabler for innovation in education. Thus, it is necessary to investigate: What leads to innovation in education and which, therefore, should be considered in the development of educational software? How to support decision-making for choosing software to be used in teaching and learning? How to evaluate software that enables, transforms, or supports innovation in education? In order to answer these questions, a research work was conducted that resulted in an approach called DEISE, which is concerned with drivers that lead to innovation in education and indicators that measure the fostering of software to skills need to students for 21st century learning. Through a web system developed for technological support to the DEISE approach, a set of educational software was evaluated by educators and the results show the index of innovation in education for each evaluated software and a comparison between educational software of similar purpose.

Information and Communication Technologies (ICT) in education provide a new learning environment where the student builds his own knowledge, allowing his visualization and experimentation. This study evaluated the Geogebra software in the learning process of Calculus. It was observed that the proposed activities helped in the graphical interpretation of the covered content.

Despite the fact that digital technologies are more and more used in the learning and education process, there is still lack of professional evaluation tools capable of assessing the quality of used digital teaching aids in a comprehensive and objective manner. Construction of the Comprehensive Evaluation of Electronic Learning Tools and Educational Software (CEELTES) tool was preceded by several surveys and knowledge obtained in the course of creation of digital learning and teaching aids and implementation thereof in the teaching process. The evaluation tool as such consists of sets (catalogues) of criteria divided into four separately assessed areas - the area of technical, technological and user attributes; the area of criteria evaluating the content, operation, information structuring and processing; the area of criteria evaluating the information processing in terms of learning, recognition, and education needs; and, finally, the area of criteria evaluating the psychological and pedagogical aspects of a digital product. The specified areas are assessed independently, separately, by a specialist in the given science discipline. The final evaluation of the assessed digital product objectifies (quantifies) the overall rate of appropriateness of inclusion of a particular digital teaching aid in the teaching process.

On the basis of national research data on schoolchildren' achievements, the article deals with implementation of educational software in the process of teaching world study in primary school and different natural sciences in basic school. It has been established that educational software is often enough implemented during the classes on world study in primary school in comparison with natural science lessons provided in basic school. Primary educational software is regularly used in the city site, less frequently - in the regional centre and rarely in the rural area schools. On the opposite of the city site schools, basic educational software is widely employed in the rural area. The comparison of the rates of implementation of educational software during the different classes on natural sciences reveals that educational software is most frequently applied during the classes on biology, the least frequently - during the classes on physics.

In 2003 a working group established on the initiative of the Centre of Information Technology of Education under the Ministry of Education and Science, has been reviewing regulations for the assessment and certification of educational software. This article analizes the main aspects of the proposed orders. It discusses general structure of quality assurance system, the procedures for the certification of standard and permanently renewable digital educational resources, and the main criteria and principles of the evaluation of educational software in Lithuania. In parallel, it investigates and summarizes research results and foreign policies and practices on quality assurance. Finally, the article compares them with Lithuanian regulations.