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2. An interactive learning environment to empower engagement in Mathematics

Author

ALICE BARANA and Marchisio, M.

Subjects
Human-Computer Interaction, Automatic Formative Assessment, Engagement, Architecture, Media Technology, Mathematics Education, Interactive Activities, Learning Technologies, Automatic Formative Assessment, Engagement, Interactive Activities, Learning Technologies, Mathematics Education, Social Sciences (miscellaneous), Computer Science Applications, Education
Abstract

This paper is focused on understanding if the use of interactive activities based on problem solving and automatic formative assessment in a blended learning environment can promote the development of engagement in Mathematics for students of grade 8. In this context, engagement is characterized as a multidimensional construct composed of an emotional component, a cognitive component and a behavioral one. The discussion is based on the results of a didactic experimentation conducted with 299 students of grade 8 who, during one entire school year, had access to an online platform rich in interactive learning materials used in blended modality. Through an initial and a final questionnaire, evolutions in their engagement levels were measured. We found that the initially most disengaged students and those coming from lowest social classes are those who mainly benefitted of the interactive activities in order to improve their engagement levels.

Published
2020
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4. Teaching online EMI Mathematics courses: a proposal to combine gamification and adaptive learning

Author

Alice Barana, Marina Marchisio, Matteo Sacchet, and Daniela Salusso

Subjects
Adaptive Learning, English-mediated Learning, Mathematics Education, Online Learning, Problem-based Learning, Online Learning, Problem-based Learning, Mathematics Education, Adaptive Learning, English-mediated Learning
Abstract

Studies show that gamification enhances the mathematics learning experience by increasing student engagement. Gamification can be successfully used in higher education contexts, primarily when it comes to distance learning. It can compensate for the lack of interaction and create a student-centered, customizable, and autonomy-promoting environment. The use of adaptive learning and interactive feedback can be seen as strategies to improve student access and success in open online courses. In particular, a mathematical modelling module for undergraduates developed inside the project start@unito uses such strategies. Moreover, it is taught entirely in English. The Mathematical Modelling course inside the Erasmus+ Project SMART represents another source for research. The purpose of the chapter is to discuss the possibility of combining adaptive learning with gamification techniques to enhance and facilitate the English-mediated learning process while teaching of mathematics, adding the linguistic and STEM education challenge.

Published
2022

5. From Formulas to Functions through Geometry: A Path to Understanding Algebraic Computations

Author

Alice Barana

Subjects
Computer science, Computation, representations, Face (sociological concept), Functional approach, mathematics education, Article, algebraic modelling, interactive technologies, BF1-990, Set (abstract data type), Algebraic formulas, Algebraic modelling, Interactive technologies, Mathematics education, Representations, Clinical Psychology, Path (graph theory), Developmental and Educational Psychology, Calculus, Psychology, Algebraic number, Public aspects of medicine, RA1-1270, Representation (mathematics), algebraic formulas, Applied Psychology, Meaning (linguistics)
Abstract

The teaching of algebra at the secondary school level has faced a great revolution during the last 50 years. While previously, it was focused on technicisms and pure syntactic rules, the most modern trends recommend using a functional approach to algebra and giving more prominence to conversions among different representation registers than treatments as simplifications and expansions. Nowadays, the daily practice in teaching algebra is still influenced by the traditional approach, and there is a need to offer teachers examples of activities that can give meaning to algebraic computations. This study proposes a set of interactive activities for eighth grade students, with a functional approach to formulas in a geometric context. The goal of the study is to investigate how similar activities can help students to develop multiple approaches to problems, understand algebraic formulas, and discern which main problems they face. The activities were tested with about 300 students, and qualitative and quantitative data were analyzed to answer the research questions.

Published
2021
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6. Automatic Formative Assessment Strategies for the Adaptive Teaching of Mathematics

Author

Marina Marchisio, Alice Barana, and Cecilia Fissore

Subjects
Adaptive teaching, Training Activity, business.industry, Training course, Standardized test, Formative assessment, Automatic assessment system, Teacher training, Interactive feedback, School teachers, Automatic formative assessment, Mathematics, Self-regulation, ComputingMilieux_COMPUTERSANDEDUCATION, Mathematics education, business, Guided learning, Diversity (business)
Abstract

Adaptive teaching is defined as applying different teaching strategies to different groups of students so that the natural diversity prevalent in the classroom does not prevent each student from achieving success. Some of the strategies for adaptive teaching are formative assessment, feedback, and self-regulated learning. For the application of these strategies, technology plays a fundamental role. Our research group has developed and tested a model for automatic formative assessment and interactive feedback for STEM using an Automatic Assessment System to allow adaptive teaching. This article presents the design, the implementation, and the analysis of adaptive teaching activities carried out by secondary school teachers of STEM disciplines during a training course. Teachers designed the transformation of questions created for standardized assessment into formative assessment questions, reflecting on how to adapt the requests to students’ different needs and how to create guided learning paths. In this paper, all the steps of the training activity carried out will be analyzed using some representative examples: the design of the questions with an analysis of the adaptive teaching strategies adopted; the reflections of the teachers at the end of the course; carrying out activities with students and analyzing their responses; the reflections of the teachers at the end of the activity.

Published
2021
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7. Analyzing Interactions in Automatic Formative Assessment Activities for Mathematics in Digital Learning Environments

Author

Alice Barana and Marina Marchisio

Subjects
Formative assessment, Automatic Formative Assessment, Automatic Formative Assessment, Digital Learning Environment, Interactions, Mathematics Education, Online Learning, Online Learning, Online learning, Interactions, Mathematics education, Mathematics Education, Digital learning, Digital Learning Environment, Digital learning environment
Published
2021
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8. Effectiveness of Automatic Formative Assessment for learning Mathematics in Higher Education

Author

Alice Barana, Matteo Sacchet, and Marina Marchisio

Subjects
Higher education, business.industry, Teaching, Automatic assessment, digital learning environment, formative assessment, higher education, interactive feedback, mathematics education, Educational systems, Higher Education, Automatic assessment, Digital learning environment, Mathematics education, Formative assessment, Interactive feedback, ComputingMilieux_COMPUTERSANDEDUCATION, Learning, business
Abstract

The health emergency due to COVID-19 has highlighted the need of new and flexible digital methodologies for learning and teaching Mathematics, which can support the individual student’s needs and help shape education. In this paper, we propose to use Automatic Formative Assessment (AFA) activities designed according to an innovative model, framed on the theories of formative assessment and feedback. The model includes: availability of the activities and multiple attempts; algorithmic questions; open mathematical answers; contextualized tasks; immediate and interactive feedback. We analyzed an experience using AFA in a blended module in Mathematics for 96 first-year students in Biotechnology. We collected data from the platform on grades and attempts of AFA activities and cross-checked them with the final exam grades. The results show that the feedback gained from AFA helped students improve their performance and supported them in the exam preparation. In light of these results, we can conclude that similar activities can be an effective solution to support students’ self-study during and after the pandemic.

Published
2021

9. Digital Education to Foster the Success of Students in Difficulty in Line with the Digital Education Action Plan

Author

Marina Marchisio, Marta Pulvirenti, Alice Barana, and Cecilia Fissore

Subjects
Digital Education Action Plan, Digital Education, Digital Education Action Plan, Digital Education, Digital Learning Environment, School Failure, Advanced Computing Environment, Automatic Assessment System, Computer science, Action plan, Digital education, Advanced Computing Environment, Mathematics education, Automatic Assessment System, Line (text file), School Failure, Digital Learning Environment
Abstract

Because of the Covid-19 pandemic, the need to promote digital education has been felt even more, bringing the DELTA Research Group to reflect on how digital education could optimally facilitate the creation of an educating community able to promote and support educational success exclusively through distance learning. In order to answer, in this paper the experience of the 2019/2020 edition of “Scuola dei Compiti” (a recovery project for secondary schools of the poorest suburbs of Turin) is analysed in the perspective of the priority strategies illustrated in the Digital Education Action Plan for the period 2021-2027. Results will show that this was a forerunner experience perfectly in line with the principles and directions outlined in the document. Moreover, thanks to digital education, even a peculiar edition of the project such as this one has been a success: in fact, it has allowed students to improve from a cognitive and metacognitive point of view, even during a time that was very difficult for some families.

Published
2021

10. DESIGN AND IMPLEMENTATION OF AN ONLINE VERTICAL PATH FOR PRIMARY SCHOOL IN THE CONTEXT OF 'SPACE AND SHAPES'

Author

Alice Barana, Francesca Casasso, Cecilia Fissore, and Marina Marchisio

Subjects
Automatic Formative Assessment, Geometry, Problem Solving, Automatic Formative Assessment, Advanced Computer Environment, Digital Learning Environment, Primary School, Geometry, Primary School, Problem Solving, Advanced Computer Environment, Digital Learning Environment
Abstract

Nowadays, the students are digital natives and they live immersed in technology, but their use is mostly superficial; therefore it is important to educate them to use the technological tools that they have available for educational purposes already since the primary school, both at school and in extra-curricular contexts. Moreover, the digital competence has been included by the European Union among the eight key competences for lifelong learning. This demonstrates that educational institutions should play a fundamental role in this field since the early school years. In this paper, we present the design and the implementation of a vertical path for all five years of primary school within a Digital Learning Environment in the context of Space and Shapes. The goal of the path is to promote the skills development in the Space and Shapes area in a vertical perspective through the methodologies of problem solving and automatic formative assessment. The path was implemented on a Digital Learning Environment, integrated with an Advanced Computing Environment and an Automatic Assessment System suitable for STEM. The path consists in five sections from grade 1 to 5; they are dedicated respectively to plane shapes, solid shapes, perimeter, area, and volume. Each section includes a contextualized problem and one or more questions for the formative assessment have been designed. For the planning of the vertical path, reference was made especially to the Italian National Indications and the "INVALSI" (the Italian institute which annually administers standardized learning tests to evaluate the school system) test archive was consulted. Initially, this paper shows the theoretical framework to which reference was made during the design of the vertical path. In particular, we present the theory of the development of geometric thought conceived by Dina and Pierre Van Hiele between 1957 and 1986 and the methodologies of problem solving and automatic formative assessment. Then, the design of the path in a vertical perspective is presented, and the resource used during the design phase are shown. Finally, the implementation of a section of the path is shown as a representative example and the expected results of a possible experimentation, are discussed.

Published
2021

11. AN ONLINE MATH PATH TO FOSTER THE TRANSITION OF STUDENTS BETWEEN LOWER AND UPPER SECONDARY SCHOOL

Author

Marta Pulvirenti, Marina Marchisio, Alice Barana, and Cecilia Fissore

Subjects
Upper Secondary School, Virtual Learning Environment, Advanced Computing Environment, Automatic Assessment System, Virtual Learning Environment, Advanced Computing Environment, Automatic Assessment System, Upper Secondary School
Abstract

The transition between different levels of education is delicate, especially when mathematics is concerned; could a digital learning environment and new technologies help and support students in it? In this paper, we discuss the efficiency of a technology-enhanced learning environment for facilitating the transition between lower and upper secondary school. This Online Path regards the review and the enhancement of the main mathematical topics that are fundamental for beginning the upper secondary school. This educational path has been implemented in a Virtual Learning Environment (VLE) integrated with an Advanced Computing Environment (ACE) and with an Automatic Assessment System (AAS); in this way, it is always available and accessible and the educational materials in it are interactive and adaptive. Moreover, the system allows the adoption of a model of formative automatic assessment and interactive feedback that has already been proven to be effective when self-paced learning is concerned. Students could consult the material and self-assess their abilities through those summer holidays between the lower and the upper secondary school but the course is always available during the whole year allowing a perpetual support in the main mathematical concepts studied in class. So far, a total of 500 students have been involved, around two hundred students during the summer of 2018 and three hundred during the summer of 2019. Data analysis shows that students, who have been more involved in this online path, have also achieved a better performance in mathematics at the beginning of the scholastic year in the upper secondary school, proving that methodologies and technologies adopted were successful. For the summer of 2020, we are planning to enlarge the project with two more online paths: one for Latin and one for English language.

Published
2020
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12. Self-Assessment in the Development of Mathematical Problem-Solving Skills

Author

Alice Barana, Giulia Boetti, and Marina Marchisio

Subjects
advanced computing environment, digital learning environment, mathematics, problem solving, self-assessment, Public Administration, mathematics, Physical Therapy, Sports Therapy and Rehabilitation, advanced computing environment, self-assessment, digital learning environment, Education, Computer Science Applications, problem solving, ComputingMilieux_COMPUTERSANDEDUCATION, Developmental and Educational Psychology, Computer Science (miscellaneous)
Abstract

Self-assessment, in the education framework, is a methodology that motivates students to play an active role in reviewing their performance. It is defined as “the evaluation or judgment of ‘the worth’ of one’s performance and the identification of one’s strengths and weaknesses with a view to improving one’s learning outcomes”. The goal of this research is to study the relationship between self-assessment and the development and improvement of problem-solving skills in Mathematics. In particular, the investigation focuses on how accurate the students’ self-evaluations are when compared to external ones, and if (and how) the accuracy in self-assessment changed among the various processes involved in the problem-solving activity. Participants are grade 11 students (in all 182 participants) in school year 2020/2021 who were asked to solve 8 real-world mathematical problems using an Advanced Computing Environment (ACE). Each problem was assessed by a tutor and self-assessed by students themselves, according to a shared rubric with five indicators: Comprehension of the problematic situation, identification of the solving strategy, development of the solving process, argumentation of the chosen strategy, and appropriate and effective use of the ACE. Through a quantitative analysis, students’ self-assessment and tutors’ assessment were compared; data were cross-checked with students’ answers to a questionnaire. The results show a general correlation between tutor assessment and self-assessment, with a tendency of students to underestimate their performance. Moreover, students were more precise in self-assessing in the indicators: Development of the solving process and use of the ACE, while they had major difficulties in self-assessment for the indicators: Comprehension of the problematic situation and argumentation.

Published
2022
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13. The Creation of Animated Graphs to Develop Computational Thinking and Support STEM Education

Author

Marina Marchisio, Alice Barana, Alberto Conte, Francesco Floris, Cecilia Fissore, and Matteo Sacchet

Subjects
Problem solving, Advanced computing environment,Animated graphs,Computational thinking,Problem solving, Animations, STEM education, business.industry, Generalization, Computational thinking, STEM education, Animation, Variation (game tree), Resolution (logic), Animated graphs, Personal development, Feature (machine learning), Mathematics education, Advanced computing environment, Graphics, business, Animations
Abstract

Problem solving and computational thinking are the key competences that all individuals need for professional fulfillment, personal development, active citizenship, social inclusion and employment. In mathematics, during contextualized problem solving using Maple, the differences between these two skills become thinner. A very important feature of Maple for problem solving is the programming of animated graphs: an animation obtained by generalizing a static graph, choosing the parameter to be varied and its interval of variation. The first objective of this research is to analyze the computational thinking processes behind the creation of animated graphs for the resolution of a contextualized problem. To this end, we selected and analyzed some resolutions of problems carried out by fourth-grade students of upper secondary schools in Italy (grade 12). The paper shows some examples in which different processes of computational thinking have emerged, which reflect resolutive strategies and different generalization processes. From the analysis it emerged that all the processes underlying the mental strategies of the computational thought useful for solving problems are activated in the creation of animated graphs. In the second part of the article we discuss examples of animations created during training activities with secondary school teachers, and how animations can support the learning of scientific concepts. It is very important to train the teachers in this regard, both to understand the processes that the students would activate during the creation of animated graphics and to enrich the theoretical or practical explanations with animated representations.

Published
2020
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14. From Standardized Assessment to Automatic Formative Assessment for Adaptive Teaching

Author

Marina Marchisio, Alice Barana, and Cecilia Fissore

Subjects
Automatic Formative Assessment, Medical education, business.industry, Automatic Assessment System, Adaptive Teaching, Standardized test, Teacher Training, Formative assessment, Interactive feedback, Self-regulation, Automatic Formative Assessment, Automatic Assessment System, Adaptive Teaching, Interactive Feedback, Self-regulation, Teacher Training, Mathematics, business, Interactive Feedback, Mathematics
Published
2020
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15. Enhancement of mathematical problem solving by discussing and collaborating asynchronously

Author

Alice Barana, Fabio Roman, Marina Marchisio, and Cecilia Fissore

Subjects
Theoretical computer science, Computer science, Virtual Learning Environment, Collaborative Learning, Collaborative Learning, E-learning, Mathematics, Learning Management System, Problem Solving, Virtual Learning Environment, Mathematical problem solving, Learning Management System, E-learning, Mathematics, Problem Solving
Published
2020

16. MATE-BOOSTER: Design of Tasks for Automatic Formative Assessment to Boost Mathematical Competence

Author

Alice Barana, Raffaella Miori, and Marina Marchisio

Subjects
Problem solving, Secondary level, business.industry, Constructivist learning environment, Job design, Standardized test, Basic mathematical competence, Formative assessment, Automatic formative assessment, Basic mathematical competence, Constructivist learning environment, Learning design, Problem solving, Task design, Digital Learning Environment, Task design, Basic knowledge, Summative assessment, ComputingMilieux_COMPUTERSANDEDUCATION, Mathematics education, Automatic formative assessment, Learning design, business, Curriculum, Competence (human resources), Digital Learning Environment
Abstract

In the transition from lower to upper secondary education, Italian students are expected to have achieved a level of competence which allows them to use knowledge and abilities to model and to understand scientific and technical disciplines. National standardized tests show that especially students who attend technical high schools often have gaps or misunderstandings in their basic knowledge, which may hinder them in learning scientific technical disciplines, which are at the core of their curriculum. In this paper we start from items designed for summative assessment which highlight the main difficulties that students face with Mathematics at this stage, and discuss how it is possible to adapt them to automatic formative assessment through a process of expansion and digitalization, with the aim of helping students fill the gaps and develop mathematical competences. The activities are part of an online course, called “MATE-BOOSTER”, conceived to strengthen mathematical skills of students attending the first year of a technical upper secondary school. In this paper the process of design of MATE-BOOSTER, rooted on constructivist assumptions, is outlined; the design of tasks for automatic formative assessment is discussed in details, and some examples of online activities are analyzed in light of a theoretical framework.

Published
2020
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17. Empowering Engagement in a Technology-Enhanced Learning Environment

Author

Francesco Gagliardi, Alice Barana, Rossella Garuti, Marina Marchisio, and Stefano Boffo

Subjects
Learning experience, Formative assessment, Learning environment, Mathematics education, Student engagement, School level, School engagement
Abstract

Engagement is one of the most powerful driving forces that moves learners forward in a learning experience. The effects of engagement are related to satisfaction, learning results, and reduction of drop-out rates. School engagement can be positively influenced by problem solving and technology-enhanced learning activities. This paper discusses how online interactive activities can promote engagement in Mathematics at school level. After discussing a theoretical framework for defining and measuring engagement, the potentialities of activities with automatic formative assessment used in a blended environment are illustrated. The activities have been experimented with 299 students of grade 8 in Italy; their effects on student engagement are evaluated through questionnaires administered before and at the end of the project. The activities resulted particularly effective with regard to the increase of the engagement level of students who showed a low interest in Mathematics at the beginning of the project.

Published
2020

18. MATE-BOOSTER: Design of an e-Learning Course to Boost Mathematical Competence

Author

Raffaella Miori, Marina Marchisio, and Alice Barana

Subjects
Secondary level, Automatic Formative Assessment, Learning Design, Collaborative learning, Basic Mathematical Competence, Formative assessment, Basic knowledge, Constructivist learning environment, Virtual Learning Environment, Online course, Constructivist Learning Environment, ComputingMilieux_COMPUTERSANDEDUCATION, Mathematics education, Automatic Formative Assessment, Basic Mathematical Competence, Constructivist Learning Environment, Learning Design, Problem Solving, Virtual Learning Environment, Virtual learning environment, Competence (human resources), Problem Solving
Abstract

In the transition from lower to upper secondary education, Italian students are expected to have achieved a level of competence which allows them to use knowledge and abilities to model and to understand scientific and technical disciplines. Gaps or misunderstandings in basic knowledge can hinder the effort of students who attend technical high schools, where the core subjects are based on Mathematics. This paper deals with the design of a project conceived to strengthen mathematical competences of students attending the first year of a technical upper secondary school through an online course named “MATE-BOOSTER”. The online activities on the web-based platform have been developed using didactic methodologies founded on constructivist assumptions, as problem posing and problem solving, collaborative learning, learning by doing, automatic and adaptive formative assessment. In this work the process of design of MATE-BOOSTER is shown, the methodologies chosen are discussed, and the online activities are analysed from a constructivist perspective.

Published
2019

19. Advantages of Using Automatic Formative Assessment for Learning Mathematics

Author

Marina Marchisio, Matteo Sacchet, and Alice Barana

Subjects
Self-assessment, Class (computer programming), Modality (human–computer interaction), Automatic assessment, Formative assessment, Mathematics education, Reluctant users, Self-assessment, 05 social sciences, 050401 social sciences methods, 050301 education, Metacognition, Automatic assessment, Mathematics education, Formative assessment, Interactive feedback, 0504 sociology, Reluctant users, 0503 education
Abstract

Automatic Assessment Systems empowered by mathematical engines allow the development of online assignments for Mathematics, which goes beyond multiple-choice modality. Automatically assessed assignments, used with formative purposes, can support teaching and learning from several perspectives, such as conceptual and procedural understanding, metacognition, enactment of adaptive strategies, and teachers’ management of the class. This paper reports on an experimentation where automatic assessment has been used in a blended modality according to a model of formative assessment and interactive feedback to enhance learning. The experiment involved a total number of 546 students of 8th grade in the town of Turin (Italy). The use of the automatic assessment is shown and exemplified. Data from learning tests, questionnaire and platform usage are analyzed and used to show the effectiveness of the interactive materials for enhancing mathematical understanding and self-assessment skills. Moreover, a profile of the students who did not use the online opportunities, defined as “reluctant users”, is drawn and discussed.

Published
2019

20. LEARNING ANALYTICS TO IMPROVE FORMATIVE ASSESSMENT STRATEGIES

Author

Alice Barana, Alberto Conte, Cecilia Fissore, Marina Marchisio, and Sergio Rabellino

Subjects
lcsh:Theory and practice of education, Virtual Learning Environment, Formative Assessment, Interactive Didactics, Automatic Assessment, Formative Assessment, Interactive Didactics, Learning Analytics, Digital Learning Environment, lcsh:LB5-3640, Automatic Assessment, Learning Analytics, Digital Learning Environment
Abstract

In digital education, learning analytics should support active monitoring and dynamic decision-making during learning processes; they are mainly based on digital assessment, through which it is possible to collect and elaborate data about students’ progresses. In this paper we start from Black and Wiliam’s theoretical framework on formative assessment, which identified 5 key strategies that 3 agents (student, peers and teacher) pursue when enacting formative practices in a context of traditional learning, and we integrate it in a framework of innovative didactics. In particular, we consider the use of a Digital Learning Environment integrated with an Automatic Assessment System based on the engine of an Advanced Computing Environment to build interactive materials with automatic assessment according to a specific model of formative assessment. In this framework, rooted in activity theory, the Digital Learning Environment plays the role of mediating artifact in the activity of enacting the strategies of formative assessment. Though several examples of application of automatic formative assessment in several contexts and modalities, we show how it is possible to use the data gathered through the Digital Learning Environment to improve the enactment of Black and Wiliam’s strategies of formative assessment, strengthen and evaluate their action., Journal of e-Learning and Knowledge Society, Vol 15 No 3 (2019): LEARNING ANALYTICS: FOR A DIALOGUE BETWEEN TEACHING PRACTICES AND EDUCATIONAL RESEARCH

Published
2019

21. Immersive teacher training experience on the methodology of problem posing and solving in Mathematics

Author

Claudio Pardini, Cecilia Fissore, Francesco Floris, Alberto Conte, Anna Brancaccio, Alice Barana, and Marina Marchisio

Subjects
Problem solving, Higher education, business.industry, Teaching, Contextual teachin, Contextualized problem, Mathematics Education, Problem posing, Problem solving, Teacher Training, Educational systems, Teacher Training, Higher Education, Contextual teaching, Training (civil), Mathematics education, Contextualized problem, Contextual teachin, Teacher training, Learning, Mathematics Education, Problem posing, business
Abstract

In an Italian and European context, one of the fundamental skills in Mathematics is the ability to solve problems in everyday situations, often linked to everyday life. For this reason, the problem posing and solving methodology plays a fundamental role in the process of teaching and learning Mathematics. This paper presents the results of the immersive experience "Mathematical Exploration with Problem Posing and Solving", included in the teacher training activities proposed by the national PP&S - Problem Posing & Solving - Project of the Italian Ministry of Education, which aims at enhancing the teaching and learning of Mathematics by using new methodologies and technologies. In particular, the focus will be on the work and considerations of the 50 teachers who took part in the project, from both primary and secondary school. They were guided through the individual step-by-step creation of a contextualized problem, following a process guided through stimulus-based questions. This immersive experience brought about the production of valid problems and was full of very stimulating teachers' considerations on the various phases of the problem posing and solving.

Published
2019

22. The Role of an Advanced Computing Environment in Teaching and Learning Mathematics through Problem Posing and Solving

Author

Marina Marchisio, Alice Barana, Alberto Conte, Cecilia Fissore, Francesco Floris, Anna Brancaccio, and Claudio Pardini

Subjects
Science and knowledge, New Technologies, Librarianship, Institution, Publications, Advanced Computing Environment, Documentation, Learning Mathematics, Problem Posing, Problem Solving, Teaching Mathematics, Computer science, Information, ComputingMilieux_COMPUTERSANDEDUCATION, Organization
Abstract

Problem solving, i.e. the ability to model concrete situations in mathematical terms and to solve the problems connected to them, plays an important role in teaching and learning Mathematics to and by students at every level of education and is one of the basic skills for the training of citizens. By learning problem solving in Mathematics, students acquire ways of thinking, creativity, curiosity, collaborative skills and confidence in unfamiliar situations, from which they will benefit also outside the Mathematics classroom. The use of digital technologies helps in both representing and exploring mathematical tasks. Technologies also provide a range of tools and opportunities to structure and support learning environments in which students continually interact to build knowledge and solve problems. The national PP&S - Problem Posing & Solving - Project of the Italian Ministry of Education aims to enhance the teaching and learning of Mathematics and Informatics using new methodologies and technologies. One of the methodologies is problem solving through the use of an Advanced Computer Environment (ACE). An ACE is a system that allows one to perform numerical and symbolic calculation, make graphical representations in 2 and 3 dimensions and create mathematical simulations through interactive components. Moreover, it is able to support students in reasoning processes, in the formulation of exit strategies and in the generalization and re-adaptation of the solution in different contexts. The goal of this paper is to discuss the results of an immersive workshop, entitled "Mathematical Exploration with Problem Posing and Solving", involving 50 secondary school Maths teachers, who were invited to reflect on the role of an ACE in learning and teaching Mathematics through problem posing and solving. During the workshop were presented the problem solving methodology used in the PP&S project and an example of a contextualized problem solved with the use of an ACE. The results emerged from the analysis of the questionnaires (initial and final) compiled during the workshop and a study of the works delivered by the teachers, who were asked to design a problem, its resolution and generalization through the use of an ACE. They are useful to understand teachers' reflections on the methodologies proposed and on the impact of new technologies on teaching.

Published
2019

23. Adapting STEM Automated Assessment System to Enhance Language Skills

Author

Marina Marchisio, Alice Barana, Francesco Floris, Carla Marello, Marta Pulvirenti, Sergio Rabellino, and Matteo Sacchet

Subjects
Automated Assessment System, Language skills, Language learning, Ontology, Technology Enhanced Learning, Science and knowledge, Librarianship, Institution, Publications, Documentation, Computer science, Information, Organization
Abstract

Enhancing language skills is a duty for many institutions, schools and universities; Information and Communications Technology is nowadays supporting language teaching, heading also to the integration of foreigners. According to previous studies, the use of a Technology Enhanced Learning Environment can foster language competences through online tests. The goal of this paper is to show and discuss different typologies of automatically evaluated questions useful to learn languages and designed with an Automatic Assessment System, already successfully used for teaching STEM disciplines: Science, Technology, Engineering and Mathematics. This work has been carried out thanks to the collaboration between the Department of Mathematics and the Department of Foreign Languages. Five different typologies of questions are analysed: "Combining sentence elements" asks to combine given elements to form at least three correct and meaningful sentences; "Find the mistake" asks whether a sentence is grammatically correct and to explain why; "The Target puzzle" asks to join words together using precise links; "Scrambled text" asks the student the correct sequence of sentences in a scrambled text; "The Encrypted Crossword puzzle" is a crossword puzzle without definition clues. Linguists consider these question types effective to develop language competences and have already used them profitably in traditional teaching and language learning. To engage the learner and increase motivation, we will develop an implementation where the questions are self-evaluated, always available, with immediate and interactive feedback. These tools could be used in online language courses and in all those teaching activities that are carried out remotely by the student alone. All questions are outlined with the explanation of the grading code and a triplet of descriptors; they describe the Performance, Requirements and Objectives of each question and allow further studies on automatic detection of the relatedness between different language learning objects, in order to construct adaptive language tests.

Published
2019

24. STEM in higher education: the use of an advanced computing environment to develop fundamental skills for university career and the world of work

Author

Cecilia Fissore, Alice Barana, and Marina Marchisio

Subjects
Medical education, Work (electrical), Higher education, business.industry, STEM Education, Advanced Computing Environment, Sociology, Professional Skills, Higher Education, business, Advanced Computing Environment, Professional Skills, Higher Education, Problem Solving, STEM Education, Problem Solving, Professional skills
Published
2019

25. Sharing system of learning resources for adaptive strategies of scholastic remedial intervention

Author

Alice Barana, Luigi Di Caro, Sergio Rabellino, Michele Fioravera, Francesco Floris, and Marina Marchisio

Subjects
Adaptive strategies, Remedial intervention, Knowledge management, Higher education, Virtual learning environment, Computer science, business.industry, Teaching, Educational systems, Sharing, Higher Education, Automatic assessment, Clustering, 03 medical and health sciences, 0302 clinical medicine, Adaptative tutoring, Learning, 030212 general & internal medicine, Cluster analysis, business, 030217 neurology & neurosurgery
Abstract

This paper presents a model for school remedial, focusing on improving the digital materials sharing process for the diversification of tutoring strategies. The model involves the characterization of materials for automatic assessment shared within a community of tutors. The characterization expects materials to be linked with natural language descriptors explicating their intended instructional objectives. The possibility of implementing a recommendation system on the basis of natural language processing techniques is discussed taking in consideration an analysis of the application of the model within a local-scale project. Clustering techniques searching for materials that have the same educational purposes but involve the activation of different cognitive processes are proposed, in order to continuously extend the database of shared materials in favour of the effectiveness of ongoing tutoring actions. The results collected from questionnaires submitted to students, tutors, and teachers involved in the project are shown, and clustering data are discussed highlighting the feasibility of the application of the model.

Published
2018
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26. Realignment Course in Mathematics: design of an online valuable experience for students

Author

Michele Fioravera, Francesco Floris, Marina Marchisio, Alice Barana, and Alessandro Bogino

Subjects
Higher education, business.industry, Teaching, E-learning (theory), Educational systems, Higher Education, Automatic assessment, E-learning, Mathematics education, Course (navigation), 03 medical and health sciences, 0302 clinical medicine, Self-paced open online courses, ComputingMilieux_COMPUTERSANDEDUCATION, Learning, 030212 general & internal medicine, Realigment course, business, Design for learning, 030217 neurology & neurosurgery
Abstract

Supporting students in the transition from secondary school to university is an important action to be taken in order to increase the number of people with tertiary education degrees; it has positive consequences on the citizens’ working perspective and on the national economic growth. To this purpose, in the academic year 2014/2015 the University of Turin started the Project Orient@mente, a platform of self-paced open online courses aimed to guide students in the choice of a scientific university program. This paper focuses on the design of the Realignment Course in Mathematics, provided by the platform and aimed at the self-paced review and integration of knowledge that students are required to acquire during secondary school. Materials are created and structured according to the User Experience Design for Learning, with the aim of providing a valuable learning experience to students. Contents are delivered through an accessible learning management system integrated with an advanced computing environment and an automatic assessment system. Data from the usage of the activities and from the results of the online tests are analyzed in order to validate the design choices and the coherent structure of the course.

Published
2018
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27. A model of formative automatic assessment and interactive feedback for STEM

Author

Sergio Rabellino, Michele Fioravera, Marina Marchisio, Alice Barana, and Alberto Conte

Subjects
self-regulation, Contextualization, Context model, formative assessment interactive feedback, automatic assessment, formative assessment interactive feedback, self-regulation, STEM learning, Process (engineering), 05 social sciences, automatic assessment, 050301 education, Context (language use), STEM learning, Formative assessment, 03 medical and health sciences, Interactive feedback, 0302 clinical medicine, Human–computer interaction, Immediacy, Task analysis, 0503 education, 030217 neurology & neurosurgery
Abstract

Formative assessment is a practice aimed to enhance teaching and learning and to develop self-regulation. Among the strategies for activating formative assessment, the provision of feedback is one of the most studied: good feedback helps close the gap between actual and desired performance and it promotes self-regulation. Automatic Assessment Systems can improve the practice of formative assessment, especially for the immediacy of feedback and the flexible solutions for questioning. In this context, the Department of Mathematics of the University of Turin has developed a model for automatic formative assessment using an automatic assessment system suitable for STEM disciplines. The key features of the model, grounded on the models from the literature, are: availability, algorithmic questions, open answers, immediate feedback, interactive feedback, and contextualization. These are detailed and discussed through evidence gained from three experimentations, involving the total number of 553 students. In particular, it emerges that the use of interactive feedback ensures that students process the information from the feedback and use it to improve their performance, thus solving the major problem raised in the literature that feedback are not useful when students do not read them.

Published
2018

28. Online Asynchronous Collaboration for Enhancing Teacher Professional Knowledges and Competencies

Author

Sergio Rabellino, Michele Fioravera, Brancaccio Anna, Alice Barana, Pardini Claudio, Cecilia Fissore, Marina Marchisio, and Esposito Massimo

Subjects
E-learning, In-service online teacher collaboration, Lifelong learning, Moodle, Teacher professional competencies, Virtual communities, In-service online teacher collaboration, Lifelong learning, Science and knowledge, Teacher professional competencies, E-learning (theory), Librarianship, Institution, Publications, Documentation, Computer science, E-learning, In-service online teacher collaboration, Lifelong learning, Moodle, Teacher professional competencies, Virtual communities, Asynchronous communication, Information, Moodle, ComputingMilieux_COMPUTERSANDEDUCATION, Mathematics education, Psychology, Virtual communities, Organization
Abstract

Teachers need, in a lifelong learning dimension, occasions that provide them with opportunities to reflect on the activities done by themselves, to learn how to use the newest and most advanced technologies in their teaching, to exchange ideas, to confront themselves on the updated didactic methodologies. Only in this way can they enhance their professional competences and keep the motivation for their job high. Online contexts seem to be the most appropriate option for in-service teacher training because teachers work fulltime in school and, having personal and family responsibilities, it is difficult to find time for scheduled meetings. In this paper we will discuss online asynchronous collaboration within the virtual community of the Italian teachers of Mathematics of secondary schools who participate to the national Problem Posing and Solving (PP&S) Project of the Italian Ministry of Education. One of the main goals of PP&S, which started in 2012, is to enhance teaching and learning Mathematics and Informatics using new methodologies and technologies. The community lives on an e-learning Moodle platform integrated with several tools. Using a multi-method approach, we analyse the online forum discussions among teachers and tutors collected in the last three years; in particular, we explore which kind of activities they suggest to adopt in their real-world classes and the nature of the interactive processes activated in the community. This collaboration among teachers is a peer support and facilitates the process of transformation of practices and of construction of new professional knowledge and competences. Some implications for the training of teachers in pre-service are discussed.

Published
2018

29. Ontology Development for Competence Assessment in Virtual Communities of Practice

Author

Alice Barana, Luigi Di Caro, Sergio Rabellino, Michele Fioravera, and Marina Marchisio

Subjects
Knowledge management, business.industry, Computer science, 0211 other engineering and technologies, 021107 urban & regional planning, 02 engineering and technology, Automatic assessment, Ontology Virtual community, Automatic assessment, Competence, Ontology Virtual community, 03 medical and health sciences, 0302 clinical medicine, Competence, Adaptive system, Ontology, Competence assessment, Cluster analysis, business, Competence (human resources), 030217 neurology & neurosurgery, Virtual community
Abstract

This paper presents an ontological model for defining competency paths in STEM education, designed for the implementation of an adaptive system integrated in virtual communities. The model is applied for clustering materials for automatic assessment and the results are discussed.

Published
2018

30. Open Platform of self-paced MOOCs for the continual improvement of Academic Guidance and Knowledge Strengthening in Tertiary Education

Author

Alice Barana, Alessandro Bogino, Michele Fioravera, Marina Marchisio, and Sergio Rabellino

Subjects
lcsh:Theory and practice of education, Virtual learning environment, Self-paced MOOC, automatic assessment, learning management system, self-paced MOOC, university guidance, virtual learning environment, Automatic assessment, Learning management system, Self-paced MOOC, University guidance, Virtual learning environment, University guidance, Automatic assessment, Learning management system, lcsh:LB5-3640
Abstract

In the academic year 2014/2015, University of XXX started the Project Orient@mente , aimed to support students in the transition from high school to university. Several Massive Open Online Courses have been developed to support three main actions: guidance to the University offer, automated self-testing of basic knowledge, self-paced review of fundamental disciplinary concepts learned in high school; all of them are useful to help students successfully attend scientific courses of the first year of University. A key feature of the Project is the continuous open-access to the platform. Contents are built according to educational models grown thanks to the experience and the research in e-learning carried out by the University, especially in the use of an accessible learning management system integrated with an advanced computing environment, an automated assessment system and a web conference system to enhance teaching and learning. In this paper, the adopted methodologies are discussed, the obtained results are presented and future developments are proposed in light of relevant data collected from the platform usage and feedback received by users., Journal of e-Learning and Knowledge Society, Vol 13 No 3 (2017): EMEMITALIA Conference 2016

Published
2017
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31. Self-Paced Approach in Synergistic Model for Supporting and Testing Students

Author

Alice Barana, Lorenza Operti, Sergio Rabellino, Michele Fioravera, Alessandro Bogino, Francesco Floris, and Marina Marchisio

Subjects
03 medical and health sciences, Medical education, 0302 clinical medicine, Knowledge management, business.industry, Computer science, 0211 other engineering and technologies, 021107 urban & regional planning, Learning Management, 02 engineering and technology, business, 030217 neurology & neurosurgery, Self paced
Abstract

This paper shows the model developed by the University of Turin to support students that must face the transition from the last year of secondary school to the first year of University. Integrations that are specifically designed for Learning Management Systems help sustain three effective actions conducted in synergy: increase students’ awareness in the choice of the future course of study, support them in taking the admission tests and the first-year exams, allow the autonomous administration of admission tests led by the University. The methodological strategies adopted are presented and discussed based on the analysis of the data of the years 2015 and 2016.

Published
2017
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32. Teacher training: a model for introducing innovative digital methodologies for learning Mathematics

Author

Alice Barana, Michele Fioravera, and Marina Marchisio

Subjects
Higher education, Computer science, Advanced Computing Environment, Educational systems, computer.software_genre, Training (civil), 03 medical and health sciences, 0302 clinical medicine, Virtual Learning Environment, Learning, 030212 general & internal medicine, Advanced Computing Environment, Automatic Assessment System, Mathematics, Problem Posing and Solving, Teacher training, Virtual Learning Environment, Multimedia, business.industry, Teaching, Automatic Assessment System, Higher Education, Teacher training, Mathematics, Problem Posing and Solving, Virtual learning environment, business, computer, 030217 neurology & neurosurgery
Abstract

This paper shows a model of teacher training developed by the XXX of the ZZZ, aimed at introducing teachers to the use of innovative methodologies for learning Mathematics and for developing disciplinary and cross-cutting competences. The learning methodologies proposed are mainly based on Problem Posing and Problem Solving, the use of an Advanced Computing Environment, of a Virtual Learning Environment and of an Automated Assessment System. The training model, designed in blended modality, mainly relies on the creation of an online community of practice, where teachers, supported by tutors, collaborate in the creation of interactive learning materials for their classes. They acquire competences not only in the use of learning technologies, but also on sharing and collaborating in virtual environments; they learn how to develop self-tailored didactic methodologies. The key strengths of this model are highlighted and the results, achieved after the experimentation in several projects, are discussed, showing the effectiveness of the model.

Published
2017
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33. Developing problem solving competences through the resolution of contextualized problems with an Advanced Computing Environment

Author

Alice Barana, Michele Fioravera, and Marina Marchisio

Subjects
business.product_category, Higher education, Computer science, Computation, Advanced Computing Environment, Educational systems, Contextualized problems, Advanced Computing Environment, Contextualized problems, Critical thinking, Mathematical competence, Mathematical representations, Problem Solving, Human–computer interaction, 0502 economics and business, Learning, Problem Solving, Worksheet, Problem solving, business.industry, Management science, Teaching, 05 social sciences, Mathematical competence, Mathematical representations, 050301 education, Higher Education, Resolution (logic), Mathematical competences, Comprehension, Advance computing environment, Critical thinking, business, 0503 education, 050203 business & management
Abstract

[EN] The paper shows how problem solving competences can be developed by solving contextualized problems using an Advanced Computing Environment (ACE). An ACE is a computer system which enables its user to perform numeric and symbolic computations, graphical representations in two and three dimensions, insert embedded components and create interactive worksheet, all in the same user-friendly environment. An ACE allows students to approach a problematic situation in the way that most suits their thinking, to use different types of representations according to the chosen strategy and to display the whole reasoning together with verbal explanation in the same page: in other words, they can fulfill all the processes that problem solving involves. This paper analyzes a problem solving activity with an ACE proposed by the XXX of the ZZZ, and clarifies, also through examples, how the use of the ACE makes it possible to solve real and relevant problems, facilitates the comprehension of the situation and of the Mathematics laying behind and enhance critical thinking., The authors desire to thank the Fondazione CRT of Turin, in particular dott.ssa Daniela Tornielli for the support given for the Project Digital Mate Training and for her remarkable dedication and passion.

Published
2017
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34. PROBLEM SOLVING COMPETENCE DEVELOPED THROUGH A VIRTUAL LEARNING ENVIRONMENT IN A EUROPEAN CONTEXT

Author

Marina Marchisio, Claudio Pardini, Anna Brancaccio, Alice Barana, Massimo Esposito, Sergio Rabellino, and Michele Fioravera

Subjects
Error-driven learning, Knowledge management, Science and knowledge, Computer science, business.industry, Librarianship, Institution, Publications, Advanced Computing Environment, Documentation, Teaching good practices, Virtual Learning Environment, Information, Mathematics learning, Virtual learning environment, business, Competence (human resources), Advanced Computing Environment, Mathematics learning, Problem Posing, Problem Solving, Teaching good practices, Virtual Learning Environment, Problem Posing, Organization, Problem Solving, Instructional simulation
Abstract

In modern societies, life itself is a problem solving. OCSE-PISA defined the problem-solving competence as the capacity to engage in cognitive processing to understand and solve problem situations where a method of solution is not immediately obvious. Hence in teaching Mathematics, and in general scientific subjects, it becomes important to adopt new methods centred on student learning, which are able not only to deliver knowledge but also to enhance the competence in problem solving. It is essential to start from simulated real-life problem situations in order to explain new concepts, since it enables students to understand the application of Mathematics as well as to enhance their ability to regulate problem-solving processes. The University of Turin has adopted problem solving digital methodologies using a virtual learning environment integrated with an advanced computing environment, automatic assessment and a web conference system. This set of technologies promote interaction among students and help teachers guide and coach their students in creating, conjecturing, exploring, testing and verifying. In the Erasmus+ Project SMART – Science and Mathematics Advanced Research in good Teaching - the University of Turin shared these methodologies with other European partners (Strategic Partnership Key action). The aim of this exchange of best practices is to obtain Mathematics and Science teachers who are more involved in the methodology and consequently students who are better equipped to develop coherent mental representations of problem situations, more flexible in incorporating feedback and in reflecting. In the paper, examples of interactive material produced and tested in the Project are presented and the results of the experience are discussed.

Published
2017

35. Adaptive teaching supported by ICTs to reduce the school failure in the Project 'Scuola dei Compiti'

Author

Marina Marchisio, Alice Barana, Sergio Rabellino, and Michele Fioravera

Subjects
Adaptive strategies, virtual learning environment, Computer science, business.industry, Teaching method, 05 social sciences, Foreign language, 050301 education, adaptive teaching, advanced computing environment, Mathematics education, reducing school failure, adaptive teaching, advanced computing environment, Mathematics education, reducing school failure, virtual learning environment, Adaptive system, 0502 economics and business, ComputingMilieux_COMPUTERSANDEDUCATION, Virtual learning environment, Relevance (information retrieval), Adaptive learning, Set (psychology), Software engineering, business, 0503 education, 050203 business & management
Abstract

Adaptive teaching consists in a teaching style aimed at overcoming inner differences among learners by providing them tailored ways to achieve outcomes according to their learning style, culture and needs. ICTs play an important role in supporting teachers with the adoption of adaptive strategies. Adaptive teaching acquires relevance in contexts of scholastic remediation and in reducing failures. The paper presents and discusses how adaptive teaching is used within "Scuola dei Compiti", a project proposed by the City of Turin (Italy) in collaboration with the University and the Polytechnic of Turin, aimed at reducing the drop-out rate and at enhancing scholastic success. University students help groups of 5-6 students aged 13-15 with their difficulties in the main subjects (Mathematics, Italian Language, Foreign Languages). Part of the Mathematics courses adopt a set of innovative computer based methodologies developed by the Department of Mathematics of the University of Turin, including a virtual learning environment integrated with an advanced computing environment, an automatic assessment system and a web-conference tool, which supports adaptive teaching. The project has involved over 7500 students in the last 5 years, the results achieved, discussed in the paper, show the effectiveness of these methodologies with respect to traditional teaching methods.

Published
2017

36. Ten good reasons to adopt an automatic formative assessment model for learning and teaching Mathematics and scientific disciplines

Author

Marina Marchisio and Alice Barana

Subjects
automated formative assessment, virtual learning environment, Computer science, mathematics, 05 social sciences, 050301 education, Advanced computing environment, automated formative assessment, e-assessment, e-learning, mathematics, virtual learning environment, Formative assessment, 03 medical and health sciences, 0302 clinical medicine, E-assessment, E learning, Mathematics education, Virtual learning environment, General Materials Science, Advanced computing environment, Grading (education), e-assessment, 0503 education, 030217 neurology & neurosurgery, Scientific disciplines, e-learning
Abstract

This paper will analyze an educational model for automated formative assessment developed at the Department of Mathematics of University of Turin for learning and teaching Mathematics and scientific disciplines. The model is provided through an automated grading system which, empowered by the engine of an advanced computing environment, allows the creation of algorithmic variables and open mathematical answers, recognized in all their equivalent forms. The adoption of automated formative assessment brings many advantages to learning. Easily available assignments, immediate feedback, adaptivity, the chance of learning from mistakes turn assessment into a fundamental enhancement in education; the intrinsic “rigidity” of technology can also have positive results on students’ path to knowledge. Automated assessment brings innovation into teaching: time saved in grading can be used to improve materials and activities, teachers easily get information about students’ learning, they need to change their approach and to attend trainings; sharing and collaboration among teachers are facilitated. Results obtained by the application of automated formative assessment in several class experiences are discussed and data about emerged satisfaction and criticisms are shown.

Published
2016

37. Automated Assessment in Mathematics

Author

Marina Marchisio, Alice Barana, and Sergio Rabellino

Subjects
Multimedia, Computer science, Educational technology, advanced computing environment, computer.software_genre, Assessment for learning, Learning sciences, E learning, learning content management system component, Teaching and learning center, automated assessment, ComputingMilieux_COMPUTERSANDEDUCATION, Mathematics education, advanced computing environment, automated assessment, e-learning, learning content management system component, Mathematics, Grading (education), computer, e-learning, Mathematics
Abstract

Assessment of learning and assessment for learning are at the core of the research on new teaching strategies involving the use of new technologies recently performed by University of Turin. The practice of automated assessment in Mathematics using the grading system Maple T.A. Has been introduced in many undergraduate scientific courses and, after the initial success, it has been diffused in high-schools through several projects aimed to improve Maths teaching and learning. The following paper is intended to describe the effectiveness of automated assessment as a learning tool, the strength of Maple T.A. For grading Mathematics and its integration in a learning content management system, and the results obtained at University and in high-schools.

Published
2015
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38. Digital Support for University Guidance and Improvement of Study Results

Author

Sergio Rabellino, Michele Fioravera, Alice Barana, Alessandro Bogino, and Marina Marchisio

Subjects
Medical education, Academic year, virtual learning environment, Multimedia, Computer science, 05 social sciences, 050301 education, 06 humanities and the arts, learning management system, 060202 literary studies, computer.software_genre, testing, automated assessment, learning management system, self-paced MOOC, testing, university guidance, virtual learning environment, self-paced MOOC, 0602 languages and literature, ComputingMilieux_COMPUTERSANDEDUCATION, automated assessment, university guidance, Virtual learning environment, General Materials Science, Learning Management, 0503 education, computer
Abstract

This paper will analyze Orient@mente, a project developed by the University of Turin since the 2014/2015 academic year. The project's main purpose is to support students in their choice of the most appropriate university study course. An educational model for university guidance has been developed and applied in the creation of a self-paced MOOC. It is provided through a learning management system integrated with an advanced computing environment, an automated assessment system and a web conference system. In the platform students can find accessible activities such as interactive resources, information, orienting material about 15 scientific courses, automatically graded tests, review courses. As a result, the University of Turin has recorded enrollment growth in scientific courses. Students’ feedback has shown high appreciation of these innovative teaching methods and digital devices for learning Mathematics and other scientific subjects. In the next future, the University of Turin is interested in extending a similar service oriented towards other courses, especially courses which provide a highly selective admission test and requires a specific background of knowledge.

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