The article deals with the creation and use of the cloud-oriented environment for flipped learning in the process of training future IT specialists in higher education institutions. It describes the organization of the students’ project work based on flipped learning using the services and resources of the cloud-oriented educational environment. It identified the following components of such an environment: resources of the university’s training portal, mass open online courses, profession-oriented software applications and project management services. The present research offers the model of flipped learning for the implementation of the cross-disciplinary project for the formation of professional and personal competences of future IT specialists. It provides the results of an experimental study of the effectiveness of the proposed cloud-oriented environment application in the implementation of the cross-disciplinary project from the perspective of students and teachers by three criteria: functionality for professional activity, project management and flipped learning.
Materials of the article are devoted to the experience of implementing cloud services in the process of training students at the National University of Life and Environmental Sciences of Ukraine. The latest research in the field of designing and creating e-environments for the organization of group project work has been analyzed. The e-environment model based on Microsoft SharePoint is developed and the method of using Office 365 cloud services in a single e-environment for organizing group project work of students is given. This article offers the developed criteria and selected tools for assessing the effectiveness of using the e-environment for the organization of group project work. It presents the materials and analysis of the results of applying the project method in the course of studying the academic discipline “Information Technologies” at the National University of Life and Environmental Sciences of Ukraine. It also defines the advantages of applying e-environment based on Microsoft SharePoint for the organization of students’ project work.
In today’s IT industry, it is important to develop the ability of IT students to collaboratively develop software, professional and personal skills. An effective method for developing such skills in future IT specialists is to organize different types of educational projects related to different programming technologies during the execution of mini projects, group and individual project assignments, term papers, academic training within the academic disciplines. The paper summarizes the results of a pedagogical study involving 29 expert students who study Computer Science and Software Engineering and used cloud service for GitHub collaborative IT development projects. The research findings testify, the most effective characteristics of this service, according to experts, identified the possibility of collaborative development of software (i1), the convenience of bug tracking (i3) and the convenience of the code editor (i7). It offers examples and results of using GitHub cloud service in the process of executing educational projects by future IT specialists.
In the current context of digitalization of various spheres of life, an important characteristic of participants in a digital society is the level of their digital intelligence. The level at which future economists develop their digital intelligence skills during university depends on their successful employment and career development. The presented article analyses the concept of digital intelligence of an economist on the basis of the Digital Quotient framework developed by the Digital Intelligence Institute, characterizing the levels of “Digital Citizen”, “Digital Creator”, “Digital Entrepreneur” for such components of digital intelligence as: Digital Changemaker Identity, Digital Use, Safety Digital, Digital Security, Digital Emotional Intelligence, Digital Communication, Digital Literacy, Digital Rights. For the first time, the contents of an academic discipline of a university training programme for future economists have been proposed, in the course of which digital intelligence skills can be developed. The authors demonstrate the stages of formation, indicators for different levels of formation, content and examples of educational representation of material. They offer the stages of Digital intelligence development in the framework of studying the course modules, the implementation of project work and the solution of the real case studies during academic training. The results of the pilot study for achieving all three levels of digital intelligence. A statistical analysis of the results of the experiment was carried out and their relevance proved.
This article proposes a soft skills framework. Successful employment of IT graduates in the IT industry depends essentially on the level of soft skills. Five soft skills groups are proposed: management, communication, personal effectiveness, strategic management and information management. Each group contains a specific list of skills and competencies that a graduate of the university's IT profession should possess. Indicators were developed to measure the level of soft skills development and a rating scale was proposed. A model for forming and developing the soft skills of future IT professionals has been developed. It includes: target, procedural, substantivemethodological, technological and diagnostic-resultant components. According to the developed model, the stages of formation of "soft skills" for future IT-specialists are grounded: preparatory (formation of communication and management skills), professional (skills of personal efficiency), integral (skills of strategic management, personal efficiency and information management). Content, methods, forms, cloud tools and services are defined for each stage. The effectiveness of the application of blended learning technology, which combines the use of project methodology, forms of individual and group work with the use of cloud tools for the implementation of collective and individual projects, is substantiated. In the course of the pedagogical experiment, soft skills were identified, the effectiveness of the developed model of software development of skills was proved. Soft skills, the level of development of which is most intensively explored, are explored. These are soft skills such as: understanding your own responsibility to the team while working on a project, being able to present the project to investors or your own team, working with colleagues and performing tasks independently, clearly formulating their needs and expectations for the team and the environment, the ability to unite the group and build effective team interaction to solve certain tasks, to form a communication system in the team using answers other cloud services, the ability to plan long-term based on the intermediate goals of the project, the willingness to delegate its authority to other team members, the ability to quickly identify important and minor, solve problems more effectively, more carefully and efficiently handle different tasks.
To support their professional expertise, a modern programmer must constantly follow new technologies, learn new methods of solving problems (best practices), exchange experience, use auxiliary tools that accelerate the development process, should be able to work in a team and develop their knowledge and skills. The task of modern IT education is to meet the demands of the information technology market. Specialists should be provided with proper training, which will give them relevant professional competences. The present paper analyzes modern methodologies of flexible software development and tools, defines professional competences related to software development based on the standard of higher education for the specialists of the Bachelor’s academic level in Software engineering specialty. The novelty of the research lies in the justification of the competency-based approach to the training of future programmers. This approach involves the use of methods and tools for flexible development of software applications in three stages of project tasks of different types and complexity, which are formed in accordance with certain professional competencies. At Phase 1, students studied flexible methodologies and tools for developing software applications in the Software Design academic discipline. In Phase 2, flexible methodologies and software development tools were used during academic and technological practical training, in particular, students performed a group project according to the Scrum methodology, using Kanban approaches. In Phase 3, students worked individually on the Bachelor’s thesis under the guidance of a teacher. The article describes the organization of the work process on the principles of flexible development and flexible learning, presents the results of experimental research, which showed an increase in the level of professional competencies in software development. A statistical analysis of the results of the experiment has been carried out and their significance has been proved.
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