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Lietuvos Akademinė Elektroninė Biblioteka eLABa
Doctoral thesis . 2014
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Doctoral thesis . 2014
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Advanced generative learning objects in informatics education: the concept, models, and implementation

Išplėstiniai generatyviniai mokymosi objektai informatikos mokymuisi: koncepcija, modeliai ir realizacija
descriptionPublicationkeyboard_double_arrow_right Doctoral thesis 18 Sep 2014 Lithuania English Publisher:Lithuanian Academic Libraries Network (LABT)
Authors: Burbaitė, Renata;

Advanced generative learning objects in informatics education: the concept, models, and implementation

Abstract

Darbe tiriami informatikos (programavimo) mokymuisi skirti išplėstiniai generatyviniai mokymosi objektai (IGMO) ir su jais susiję informaciniai specifikavimo/atvaizdavimo, transformavimo modeliai ir procesai. Darbo tikslas yra pateikti ir ištirti metodiką, įgalinančią formalizuoti išplėstinių generatyvinių mokymosi objektų kūrimą ir efektyvų jų naudojimą mokant informatikos (programavimo). Darbo mokslinis naujumas: 1. IGMO išplečia informatikos mokymosi sritį naujais aspektais (pedagoginiais, socialiniais, technologiniais, turinio), aprašomais terminu mokymosi variantiškumas. Tai įgalino pagrįstai adaptuoti ir naujai pritaikyti programų inžinerijos ir kompiuterijos principus ir metodus e.mokymosi sričiai. 2. Požymiais grįstas sisteminis informatikos (programavimo) mokymosi srities modeliavimas, mūsų žiniomis, atliktas pirmą kartą. Jis įvertina mokymosi variantiškumą ir agreguoja bei verifikuoja įvairialypius modelius. Tai sudaro prielaidas sistemingam IGMO kūrimui. 3. Modelių formalizavimas dviejuose lygmenyse (požymių modelių ir vykdomųjų specifikacijų) sudaro sąlygas automatizuotiems įrankiams kurti. 4. IGMO išplečia pakartotinio panaudojimo koncepciją e.mokymesi turinio automatinio kūrimo požiūriu. Sukurtos specializuotos heterogeninės mokymosi aplinkos, į kurias integruoti IGMO, įgyvendina realaus uždavinio vizualinę transformaciją į fizinį procesą bei užtikrina aukštą mokinių motyvaciją ir efektyvų mokymąsi.

In this dissertation, the object of research is the advanced generative learning objects (AGLOs), models and processes related to them. The objective of the research is to develop and to investigate the methods that enable to formalize the designing of advanced generative learning objects and using them in teaching/learning of informatics effectively. Scientific novelty: 1. AGLOs expand the informatics learning variability aspects (pedagogical, social, technological, and content). Based on those insights, it is possible to adapt and apply software engineering and computer science methods in the e-learning domain. 2. To our best knowledge, feature-based modelling in the informatics learning domain has been performed systematically for the first time. Such an approach evaluates the domain variability, aggregates and verifies the created models. 3. Formalization of the models at two levels (feature-based and executable specification) provides pre-conditions for automated tools design. 4. From the viewpoint of automatic educational content creation, AGLO extends the concept of reusability in e-learning. The specialized learning environments with integrated AGLO implement the visual transformation of a real task into its physical process, thus providing a high level of motivation and effective learning.

Country
Lithuania
Related Organizations
Keywords

generatyviniai mokymosi objektai, Mokymosi aplinkos, Informatics, mokymosi aplinkos, modeliavimas, Generatyviniai mokymosi objektai, Modeliavimas, e.mokymasis, E-learning, Generative learning objects, generative learning objects, Modelling, modelling, Learning environments, E.mokymasis, e-learning, learning environments

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citations
This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
BIP!Citations provided by BIP!
popularity
This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
BIP!Popularity provided by BIP!
influence
This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
BIP!Influence provided by BIP!
impulse
This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
BIP!Impulse provided by BIP!
0
Average
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Average
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