IMPLEMENTATION OF THE EDUCATION 4.0 CONCEPT INTO THE SYSTEM OF MATHEMATICAL TRAINING FOR STUDENTS WITH SPECIAL EDUCATIONAL NEEDS

Abstract

The relevance of the study is determined by the growth of digitalization in education and the need to modernize mathematics teaching in special schools in accordance with the needs of students with special educational needs. Under contemporary conditions, the concept of Mathematics 4.0 emphasizes adaptive, personalized, and data-driven instructional models; however, their methodological implementation in special mathematics education remains insufficiently systematized. This necessitates a comprehensive scientific analysis of digital technologies as instruments for improving accessibility, effectiveness, and sustainability of mathematical knowledge formation.

The aim of the article is to provide scientific substantiation and systematization of approaches to the formation and development of mathematical knowledge of students with special educational needs in grades 5-6 of special education schools through the use of digital technologies within the framework of the Mathematics 4.0 concept.

Research methods included analysis and synthesis of scientific literature in mathematics didactics, special pedagogy, and digital education technologies; system-structural and comparative analysis; didactic modeling; and theoretical generalization of practical experience in the application of digital learning tools in special education settings.

The study identified the psychological and pedagogical prerequisites for the acquisition of mathematical knowledge by students with special educational needs in a digitalized educational environment. The didactic possibilities of digital technologies for personalizing learning, step-by-step knowledge formation, and formative assessment were established. The feasibility of using adaptive digital tools as an instrument for the controlled development of mathematical skills has been proven. The main scientific and practical problems of implementing digital technologies have been identified, in particular, the formalization of individualization, limited availability of adapted resources, digital inequality, and insufficient methodological readiness of teachers.

The conclusions indicate that the implementation of the Mathematics 4.0 concept in a special school is possible provided that digital technologies are integrated into a comprehensive methodological system with the leading role of the teacher and a focus on the individual learning dynamics of students. The use of digital tools contributes to increasing the effectiveness and practical significance of mathematical knowledge.

Prospects for further research include empirical evaluation of Mathematics 4.0 models in special education schools, development of criteria for measuring learning dynamics, and creation of standardized adaptive digital resources for mathematics education.