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1. Co-designing a Child-Robot Relational Norm Intervention to Regulate Children's Handwriting Posture

Author

Wang, Chenyang, Tozadore, Daniel Carnieto, Bruno, Barbara, and Dillenbourg, Pierre

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Robotics
Abstract

Persuasive social robots employ their social influence to modulate children's behaviours in child-robot interaction. In this work, we introduce the Child-Robot Relational Norm Intervention (CRNI) model, leveraging the passive role of social robots and children's reluctance to inconvenience others to influence children's behaviours. Unlike traditional persuasive strategies that employ robots in active roles, CRNI utilizes an indirect approach by generating a disturbance for the robot in response to improper child behaviours, thereby motivating behaviour change through the avoidance of norm violations. The feasibility of CRNI is explored with a focus on improving children's handwriting posture. To this end, as a preliminary work, we conducted two participatory design workshops with 12 children and 1 teacher to identify effective disturbances that can promote posture correction.

Published
2024

2. The Child Factor in Child-Robot Interaction: Discovering the Impact of Developmental Stage and Individual Characteristics

Author

Rudenko, Irina, Rudenko, Andrey, Lilienthal, Achim J., Arras, Kai O., and Bruno, Barbara

Subjects
Computer Science - Robotics
Abstract

Social robots, owing to their embodied physical presence in human spaces and the ability to directly interact with the users and their environment, have a great potential to support children in various activities in education, healthcare and daily life. Child-Robot Interaction (CRI), as any domain involving children, inevitably faces the major challenge of designing generalized strategies to work with unique, turbulent and very diverse individuals. Addressing this challenging endeavor requires to combine the standpoint of the robot-centered perspective, i.e. what robots technically can and are best positioned to do, with that of the child-centered perspective, i.e. what children may gain from the robot and how the robot should act to best support them in reaching the goals of the interaction. This article aims to help researchers bridge the two perspectives and proposes to address the development of CRI scenarios with insights from child psychology and child development theories. To that end, we review the outcomes of the CRI studies, outline common trends and challenges, and identify two key factors from child psychology that impact child-robot interactions, especially in a long-term perspective: developmental stage and individual characteristics. For both of them we discuss prospective experiment designs which support building naturally engaging and sustainable interactions., Comment: Pre-print submitted to the International Journal of Social Robotics, accepted March 2024

Published
2024

6. An Adapted Cascade Model to Scale Primary School Digital Education Curricular Reforms and Teacher Professional Development Programs

Author

El-Hamamsy, Laila, Monnier, Emilie-Charlotte, Avry, Sunny, Chessel-Lazzarotto, Frédérique, Liégeois, Grégory, Bruno, Barbara, Zufferey, Jessica Dehler, and Mondada, Francesco

Subjects
Computer Science - Computers and Society
Abstract

Many countries struggle to effectively introduce Digital Education (DE) to all K-12 students as they lack adequately trained teachers. While cascade models of in-service teacher-professional development (PD) can rapidly deploy PD-programs through multiple levels of trainers to reach all teachers, they suffer from many limitations and are often ineffective. We therefore propose an adapted cascade model to deploy a primary school DE teacher-PD program throughout an administrative region. The model relies on teacher-trainers who (i) are active teachers in the region, (ii) have a prolonged trainer-PD with experts who piloted the teacher-PD program to acquire adult-trainer and DE-related competences, and (iii) are supported by the experts throughout the deployment. To validate the deployment model we used data from 14 teacher-trainers, the 700 teachers they trained, and 350 teachers trained by experts. The teacher-trainer findings demonstrate that the adapted cascade model effectively addresses most cascade models' limitations. The teacher-related findings further validate the adapted cascade model in terms of perception, motivation and adoption which are at least equivalent to those obtained with the experts. To conclude, the adapted cascade model is an effective means of spreading primary school DE PD-programs at a large scale and can be used in other DE reforms.

Published
2023

7. How are Primary School Computer Science Curricular Reforms Contributing to Equity? Impact on Student Learning, Perception of the Discipline, and Gender Gaps

Author

El-Hamamsy, Laila, Bruno, Barbara, Audrin, Catherine, Chevalier, Morgane, Avry, Sunny, Zufferey, Jessica Dehler, and Mondada, Francesco

Subjects
Computer Science - Computers and Society
Abstract

Early exposure to Computer Science (CS) for all is critical to broaden participation and promote equity in the field. But how does introducting CS into primary school curricula impact learning, perception, and gaps between groups of students? We investigate a CS-curricular reform and teacher Professional Development (PD) program from an equity standpoint by applying hierarchical regression and structural equation modelling on student learning and perception data from three studies with respectively 1384, 2433 & 1644 grade 3-6 students (ages 7-11) and their 83, 142 & 95 teachers. Regarding learning, exposure to CS instruction appears to contribute to closing the performance gap between low-achieving and high-achieving students, as well as pre-existing gender gaps. Despite a lack of direct influence of what was taught on student learning, there is no impact of teachers' demographics or motivation on student learning, with teachers' perception of the CS-PD positively influencing learning. Regarding perception, students perceive CS and its teaching tools (robotics, tablets) positively, and even more so when they perceive a role model close to them as doing CS. Nonetheless gender differences exist all around with boys perceiving CS more positively than girls despite access to CS education. However, access to CS-education affects boys and girls differently: larger gender gaps are closing (namely those related to robotics), while smaller gaps are increasing (namely those related to CS and tablets). To conclude, our findings highlight how a CS curricular reform impacts learning, perception, and equity and supports the importance of i) early introductions to CS for all, ii) preparing teachers to teach CS all the while removing the influence of teacher demographics and motivation on student outcomes, and iii) having developmentally appropriate activities that signal to all groups of students.

Published
2023

8. The competent Computational Thinking test (cCTt): a valid, reliable and gender-fair test for longitudinal CT studies in grades 3-6

Author

El-Hamamsy, Laila, Zapata-Cáceres, María, Martín-Barroso, Estefanía, Mondada, Francesco, Zufferey, Jessica Dehler, Bruno, Barbara, and Román-González, Marcos

Subjects
Computer Science - Computers and Society
Abstract

The introduction of computing education into curricula worldwide requires multi-year assessments to evaluate the long-term impact on learning. However, no single Computational Thinking (CT) assessment spans primary school, and no group of CT assessments provides a means of transitioning between instruments. This study therefore investigated whether the competent CT test (cCTt) could evaluate learning reliably from grades 3 to 6 (ages 7-11) using data from 2709 students. The psychometric analysis employed Classical Test Theory, Item Response Theory, Measurement Invariance analyses which include Differential Item Functioning, normalised z-scoring, and PISA's methodology to establish proficiency levels. The findings indicate that the cCTt is valid, reliable and gender-fair for grades 3-6, although more complex items would be beneficial for grades 5-6. Grade-specific proficiency levels are provided to help tailor interventions, with a normalised scoring system to compare students across and between grades, and help establish transitions between instruments. To improve the utility of CT assessments among researchers, educators and practitioners, the findings emphasise the importance of i) developing and validating gender-fair, grade-specific, instruments aligned with students' cognitive maturation, and providing ii) proficiency levels, and iii) equivalency scales to transition between assessments. To conclude, the study provides insight into the design of longitudinal developmentally appropriate assessments and interventions., Comment: Accepted, to appear in Technology, Knowledge and Learning

Published
2023

12. The TACS Model: Understanding Primary School Teachers' Adoption of Computer Science Pedagogical Content

Author

El-Hamamsy, Laila, Bruno, Barbara, Avry, Sunny, Chessel-Lazzarotto, Frédérique, Dehler Zufferey, Jessica, and Mondada, Francesco

Abstract

Context: With the introduction of Computer Science (CS) into curricula worldwide, teachers' adoption of CS pedagogical content is essential to ensure the long-term success of reform initiatives. Continuing Professional Development (CPD) programs play a key role in this process. Unfortunately, adoption is seldom evaluated in CS-CPDs or CPDs in general. The result is a dearth of studies: (1) modelling teachers' adoption of CS pedagogical content; or (2) investigating factors influencing the uptake of this new discipline. Both aspects are crucial to design and characterize successful CPD programs. Objectives: We thus propose the Teachers' Adoption of CS (TACS) model to investigate factors influencing the adoption of CS pedagogical content by teachers who are following a mandatory CS-CPD program. More specifically, the model proposes that contextual factors (e.g., age, gender, and general teaching experience), prior factors (e.g., experience, and CS perception), and acceptance factors (e.g., interest, and self-efficacy) may impact teachers' adoption of CS pedagogical content. Methods: The study included 180 grades 5 and 6 teachers (students aged 9-11) that were following a mandatory CS-CPD program. The CS-CPD program involved participation in three-day-long sessions distributed over the 2019-2020 academic year. In between sessions, with the support of instructional coaches in the schools, teachers were encouraged, but not required, to adopt the CS pedagogical content. Therefore, during the CPD, and employing surveys based on the TACS model, we evaluated teachers' adoption of the proposed content and investigated how the different factors influenced it. Results: At the PD-level, the results indicate that self-efficacy and interest queried during the CS-CPD are indicative of CS pedagogical content adoption. To shed more light on the relationship between these metrics, a more in-depth analysis was conducted with n = 92 teachers whose responses could be matched between sessions. While interest relates to how teachers adopt CS pedagogical content overall, both interest and self-efficacy are necessary to ensure the likelihood of a specific activity being adopted. Finally, individual teacher characteristics appear to impact adoption, with teachers with low experience with Information and Communication Technologies (ICT) requiring onboarding, while middle-aged teachers require convincing to adopt CS pedagogical content. Conclusion: Three takeaways emerge from the study. First, the analyses confirm the foundation of the TACS model. Second, the findings establish the key role that interest plays in said model. Finally, the results support the relationship between the contextual, prior and acceptance factors on the adoption of primary school CS pedagogical content.

Published
2023
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13. A Research-Practice Partnership to Introduce Computer Science in Secondary School: Lessons from a Pilot Program

Author

El-Hamamsy, Laila, Pellet, Jean-Philippe, Roberts, Matthew, Kovacs, Helena, Bruno, Barbara, Zufferey, Jessica Dehler, and Mondada, Francesco

Abstract

Context: Introducing Computer Science (CS) into formal education can be challenging, notably when considering the numerous stakeholders involved which include the students, teachers, schools, and policy makers. We believe these perspectives should be considered conjointly, which is possible within Research Practice Partnerships (RPPs). RPPs look to bridge research-practice gaps and have seen an increase in the field of education and CS-education. Unfortunately, RPPs are considered to be under-researched, in addition to presenting their own challenges. Objectives: To the purpose of assessing how RPPs may support the successful introduction of CS into formal education, we investigate three perspectives (students, teachers, and RPP stakeholders) and their interplay within the context of a multi-institution RPP conducting a pilot program to introduce CS to secondary school students. Methods: A mixed methods analysis was employed to triangulate data in a concurrent triangulation design. The data included: (1) three surveys distributed over the semester to 106 grade 9 students (ages 12-14); (2) four teacher-journals; (3) two interviews and four focus groups with the teachers and representatives of the partner institutions. Findings: From the "students' perspective," while their self-efficacy increased, their motivation decreased throughout the semester due to a miss-match between their expectations and the course. The findings also indicate that gender biases and heterogeneity are already present in grade 9. From the "teachers' perspective," co-constructing the study plan, having access to regular support and collaborating within a community of practice when starting to teach CS all facilitated the teachers' experience. Finally, from the "RPP's perspective" the collaboration between stakeholders and having researchers evaluate the program were considered to be key elements in the pilot program. However, there appears to be a research-practice gap, in large part due to limited interactions between researchers and curriculum designers, and researchers and the teachers in the field. Conclusions: From the "students' perspective" it appears relevant to introduce CS: (1) prior to secondary school to address motivation and bias-related issues early on; and (2) to all students to avoid participation being motivation-, stereotype-, or belief-driven, and risk broadening the gap between students; (3) all the while being attentive to course format and content to ensure that the course meets students' expectations and fosters autonomous motivation. From the "teachers' perspective," while the support provided met the teachers' needs, it is essential to find means of scaling such approaches when looking to deploy CS-curricular reforms to entire administrative regions. Finally, from the "RPP's perspective": (1) teachers' should be given a voice in the RPP to better align with the field; and (2) researchers' roles should be reconsidered to move beyond being only evaluators, and towards having a more co-constructive role in setting up the curricular reform. Recommendations are provided for researchers and practitioners involved in CS curricular reforms.

Published
2023
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14. How Are Primary School Computer Science Curricular Reforms Contributing to Equity? Impact on Student Learning, Perception of the Discipline, and Gender Gaps

Author

El-Hamamsy, Laila, Bruno, Barbara, Audrin, Catherine, Chevalier, Morgane, Avry, Sunny, Zufferey, Jessica Dehler, and Mondada, Francesco

Abstract

Background: Early exposure to Computer Science (CS) and Computational Thinking (CT) for all is critical to broaden participation and promote equity in the field. But how does the introduction of CS and CT into primary school curricula impact learning, perception, and gaps between groups of students? Methodology: We investigate a CS-curricular reform and teacher Professional Development (PD) programme from an equity standpoint by applying hierarchical regression and structural equation modelling on student learning and perception data from three studies with, respectively, 1384, 2433 and 1644 grade 3-6 students (ages 7-11) and their 83, 142 and 95 teachers. Results: Regarding learning, exposure to CS instruction appears to contribute to closing the performance gap between low-achieving and high-achieving students, as well as pre-existing gender gaps. Despite a lack of direct influence of what was taught on student learning, there is no impact of teachers' demographics or motivation on student learning, with teachers' perception of the CS-PD positively influencing learning. Regarding perception, students perceive CS and its teaching tools (robotics, tablets) positively, and even more so when they perceive a role model close to them as doing CS. Nonetheless, gender differences exist all around with boys perceiving CS more positively than girls despite access to CS education. However, access to CS-education affects boys and girls differently: larger gender gaps are closing (namely those related to robotics), while smaller gaps are increasing (namely those related to CS and tablets). Conclusion: This article highlights how a CS curricular reform impacts learning, perception, and equity and supports the importance of (i) early introductions to CS for all; (ii) preparing teachers to teach CS all the while removing the influence of teacher demographics and motivation on student outcomes; and (iii) having developmentally appropriate activities that signal to all groups of students.

Published
2023
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15. The competent Computational Thinking test (cCTt): Development and validation of an unplugged Computational Thinking test for upper primary school

Author

El-Hamamsy, Laila, Zapata-Cáceres, María, Barroso, Estefanía Martín, Mondada, Francesco, Zufferey, Jessica Dehler, and Bruno, Barbara

Subjects
Computer Science - Computers and Society
Abstract

With the increasing importance of Computational Thinking (CT) at all levels of education, it is essential to have valid and reliable assessments. Currently, there is a lack of such assessments in upper primary school. That is why we present the development and validation of the competent CT test (cCTt), an unplugged CT test targeting 7-9 year-old students. In the first phase, 37 experts evaluated the validity of the cCTt through a survey and focus group. In the second phase, the test was administered to 1519 students. We employed Classical Test Theory, Item Response Theory, and Confirmatory Factor Analysis to assess the instruments' psychometric properties. The expert evaluation indicates that the cCTt shows good face, construct, and content validity. Furthermore, the psychometric analysis of the student data demonstrates adequate reliability, difficulty, and discriminability for the target age groups. Finally, shortened variants of the test are established through Confirmatory Factor Analysis. To conclude, the proposed cCTt is a valid and reliable instrument, for use by researchers and educators alike, which expands the portfolio of validated CT assessments across compulsory education. Future assessments looking at capturing CT in a more exhaustive manner might consider combining the cCTt with other forms of assessments., Comment: To appear in the Journal of Educational Computing Research

Published
2022
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16. The Competent Computational Thinking Test: Development and Validation of an Unplugged Computational Thinking Test for Upper Primary School

Author

El-Hamamsy, Laila, Zapata-Cáceres, María, Barroso, Estefanía Martín, Mondada, Francesco, Zufferey, Jessica Dehler, and Bruno, Barbara

Abstract

With the increasing importance of Computational Thinking (CT) at all levels of education, it is essential to have valid and reliable assessments. Currently, there is a lack of such assessments in upper primary school. That is why we present the development and validation of the competent CT test (cCTt), an unplugged CT test targeting 7-9 year-old students. In the first phase, 37 experts evaluated the validity of the cCTt through a survey and focus group. In the second phase, the test was administered to 1519 students. We employed Classical Test Theory, Item Response Theory, and Confirmatory Factor Analysis to assess the instruments' psychometric properties. The expert evaluation indicates that the cCTt shows good face, construct, and content validity. Furthermore, the psychometric analysis of the student data demonstrates adequate reliability, difficulty, and discriminability for the target age groups. Finally, shortened variants of the test are established through Confirmatory Factor Analysis. To conclude, the proposed cCTt is a valid and reliable instrument, for use by researchers and educators alike, which expands the portfolio of validated CT assessments across compulsory education. Future assessments looking at capturing CT in a more exhaustive manner might consider combining the cCTt with other forms of assessments.

Published
2022
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18. Investigating the role of educational robotics in formal mathematics education: the case of geometry for 15-year-old students

Author

Brender, Jérôme, El-Hamamsy, Laila, Bruno, Barbara, Chessel-Lazzarotto, Frédérique, Zufferey, Jessica Dehler, and Mondada, Francesco

Subjects
Computer Science - Robotics, Computer Science - Computers and Society
Abstract

Research has shown that Educational Robotics (ER) enhances student performance, interest, engagement and collaboration. However, until now, the adoption of robotics in formal education has remained relatively scarce. Among other causes, this is due to the difficulty of determining the alignment of educational robotic learning activities with the learning outcomes envisioned by the curriculum, as well as their integration with traditional, non-robotics learning activities that are well established in teachers' practices. This work investigates the integration of ER into formal mathematics education, through a quasi-experimental study employing the Thymio robot and Scratch programming to teach geometry to two classes of 15-year-old students, for a total of 26 participants. Three research questions were addressed: (1) Should an ER-based theoretical lecture precede, succeed or replace a traditional theoretical lecture? (2) What is the students' perception of and engagement in the ER-based lecture and exercises? (3) Do the findings differ according to students' prior appreciation of mathematics? The results suggest that ER activities are as valid as traditional ones in helping students grasp the relevant theoretical concepts. Robotics activities seem particularly beneficial during exercise sessions: students freely chose to do exercises that included the robot, rated them as significantly more interesting and useful than their traditional counterparts, and expressed their interest in introducing ER in other mathematics lectures. Finally, results were generally consistent between the students that like and did not like mathematics, suggesting the use of robotics as a means to broaden the number of students engaged in the discipline., Comment: To appear in the proceedings of the Sixteenth European Conference on Technology Enhanced Learning (2021)

Published
2021

19. Teachers' perspective on fostering computational thinking through educational robotics

Author

Chevalier, Morgane, El-Hamamsy, Laila, Giang, Christian, Bruno, Barbara, and Mondada, Francesco

Subjects
Computer Science - Computers and Society, Computer Science - Robotics
Abstract

With the introduction of educational robotics (ER) and computational thinking (CT) in classrooms, there is a rising need for operational models that help ensure that CT skills are adequately developed. One such model is the Creative Computational Problem Solving Model (CCPS) which can be employed to improve the design of ER learning activities. Following the first validation with students, the objective of the present study is to validate the model with teachers, specifically considering how they may employ the model in their own practices. The Utility, Usability and Acceptability framework was leveraged for the evaluation through a survey analysis with 334 teachers. Teachers found the CCPS model useful to foster transversal skills but could not recognise the impact of specific intervention methods on CT-related cognitive processes. Similarly, teachers perceived the model to be usable for activity design and intervention, although felt unsure about how to use it to assess student learning and adapt their teaching accordingly. Finally, the teachers accepted the model, as shown by their intent to replicate the activity in their classrooms, but were less willing to modify it or create their own activities, suggesting that they need time to appropriate the model and underlying tenets., Comment: To appear in the proceedings of the 12th international conference on robotics in education (RiE 2021)

Published
2021
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20. Exploring a Handwriting Programming Language for Educational Robots

Author

El-Hamamsy, Laila, Papaspyros, Vaios, Kangur, Taavet, Mathex, Laura, Giang, Christian, Skweres, Melissa, Bruno, Barbara, and Mondada, Francesco

Subjects
Computer Science - Programming Languages, Computer Science - Computers and Society, Computer Science - Machine Learning, Computer Science - Robotics
Abstract

Recently, introducing computer science and educational robots in compulsory education has received increasing attention. However, the use of screens in classrooms is often met with resistance, especially in primary school. To address this issue, this study presents the development of a handwriting-based programming language for educational robots. Aiming to align better with existing classroom practices, it allows students to program a robot by drawing symbols with ordinary pens and paper. Regular smartphones are leveraged to process the hand-drawn instructions using computer vision and machine learning algorithms, and send the commands to the robot for execution. To align with the local computer science curriculum, an appropriate playground and scaffolded learning tasks were designed. The system was evaluated in a preliminary test with eight teachers, developers and educational researchers. While the participants pointed out that some technical aspects could be improved, they also acknowledged the potential of the approach to make computer science education in primary school more accessible., Comment: To appear in the proceedings of the 12th International Conference on Robotics in Education (RiE, 2021)

Published
2021
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21. Studying Alignment in a Collaborative Learning Activity via Automatic Methods: The Link Between What We Say and Do

Author

Norman, Utku, Dinkar, Tanvi, Bruno, Barbara, and Clavel, Chloé

Subjects
Computer Science - Computation and Language, Computer Science - Human-Computer Interaction
Abstract

A dialogue is successful when there is alignment between the speakers at different linguistic levels. In this work, we consider the dialogue occurring between interlocutors engaged in a collaborative learning task, where they are not only evaluated on how well they performed, but also on how much they learnt. The main contribution of this work is to propose new automatic measures to study alignment; focusing on verbal (lexical) alignment, and behavioral alignment (when an instruction given by one was followed with concrete actions by another). A second contribution of our work is to study how spontaneous speech phenomena are used in the process of alignment. Lastly, we make public the dataset to study alignment in educational dialogues. Our results show that all teams verbally and behaviourally align to some degree regardless of their performance and learning, and our measures capture that teams that did not succeed in the task were simply slower to collaborate. Thus we find that teams that performed better, were faster to align. Furthermore, our methodology captures a productive period that includes the time where the interlocutors came up with their best solutions. We also find that well-performing teams verbalise the marker "oh" more when they are behaviourally aligned, compared to other times in the dialogue; showing that this marker is an important cue in alignment. To the best of our knowledge, we are the first to study the role of "oh" as an information management marker in a behavioral context (i.e. in connection to actions taken in a physical environment), compared to only a verbal one. Our measures contribute to the research in the field of educational dialogue and the intersection between dialogue and collaborative learning research., Comment: * The authors contributed equally to this work. This article a preprint under review

Published
2021

22. Culture in Social Robots for Education

Author

Bruno, Barbara, Amirova, Aida, Sandygulova, Anara, Lugrin, Birgit, Johal, Wafa, Edmonds, Ernest, Founding Editor, Vear, Craig, Series Editor, Brown, Paul, Editorial Board Member, Bryan-Kinns, Nick, Editorial Board Member, England, David, Editorial Board Member, Ferguson, Sam, Editorial Board Member, Ferran, Bronaċ, Editorial Board Member, Hugill, Andrew, Editorial Board Member, Lambert, Nicholas, Editorial Board Member, Lowgren, Jonas, Editorial Board Member, Yi-Luen Do, Ellen, Editorial Board Member, Clark, Sean, Editorial Board Member, Zagalo, Nelson, Editorial Board Member, Rauterberg, Matthias, Editorial Board Member, Dunstan, Belinda J., editor, Koh, Jeffrey T. K. V., editor, Turnbull Tillman, Deborah, editor, and Brown, Scott Andrew, editor

Published
2023
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23. Many Are the Ways to Learn Identifying Multi-Modal Behavioral Profiles of Collaborative Learning in Constructivist Activities

Author

Nasir, Jauwairia, Kothiyal, Aditi, Bruno, Barbara, and Dillenbourg, Pierre

Abstract

Understanding the way learners engage with learning technologies, and its relation with their learning, is crucial for motivating design of effective learning interventions. Assessing the learners' state of engagement, however, is non-trivial. Research suggests that performance is not always a good indicator of learning, especially with open-ended constructivist activities. In this paper, we describe a combined multi-modal learning analytics and interaction analysis method that uses video, audio and log data to identify multi-modal collaborative learning behavioral profiles of 32 dyads as they work on an open-ended task around interactive tabletops with a robot mediator. These profiles, which we name "Expressive Explorers," "Calm Tinkerers," and "Silent Wanderers," confirm previous collaborative learning findings. In particular, the amount of speech interaction and the overlap of speech between a pair of learners are behavior patterns that strongly distinguish between learning and non-learning pairs. Delving deeper, findings suggest that overlapping speech between learners can indicate engagement that is conducive to learning. When we more broadly consider learner affect and actions during the task, we are better able to characterize the range of behavioral profiles exhibited among those who learn. Specifically, we discover two behavioral dimensions along which those who learn vary, namely, problem solving strategy (actions) and emotional expressivity (affect). This finding suggests a relation between problem solving strategy and emotional behavior; one strategy leads to more frustration compared to another. These findings have implications for the design of real-time learning interventions that support productive collaborative learning in open-ended tasks.

Published
2021
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24. Online Human Gesture Recognition using Recurrent Neural Networks and Wearable Sensors

Author

Carfi, Alessandro, Motolese, Carola, Bruno, Barbara, and Mastrogiovanni, Fulvio

Subjects
Computer Science - Robotics
Abstract

Gestures are a natural communication modality for humans. The ability to interpret gestures is fundamental for robots aiming to naturally interact with humans. Wearable sensors are promising to monitor human activity, in particular the usage of triaxial accelerometers for gesture recognition have been explored. Despite this, the state of the art presents lack of systems for reliable online gesture recognition using accelerometer data. The article proposes SLOTH, an architecture for online gesture recognition, based on a wearable triaxial accelerometer, a Recurrent Neural Network (RNN) probabilistic classifier and a procedure for continuous gesture detection, relying on modelling gesture probabilities, that guarantees (i) good recognition results in terms of precision and recall, (ii) immediate system reactivity.

Published
2018
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25. A Case for the Design of Attention and Gesture Systems for Social Robots

Author

Maure, Romain, Wengle, Erik A., Norman, Utku, Tozadore, Daniel Carnieto, Bruno, Barbara, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Cavallo, Filippo, editor, Cabibihan, John-John, editor, Fiorini, Laura, editor, Sorrentino, Alessandra, editor, He, Hongsheng, editor, Liu, Xiaorui, editor, Matsumoto, Yoshio, editor, and Ge, Shuzhi Sam, editor

Published
2022
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26. Effect of Different Communication Affordances on the Emergence of Collaboration Strategies in an Online Multiplayer Game

Author

Khodr, Hala, Wagner, Nicolas, Bruno, Barbara, Kothiyal, Aditi, Dillenbourg, Pierre, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Dorigo, Marco, editor, Hamann, Heiko, editor, López-Ibáñez, Manuel, editor, García-Nieto, José, editor, Engelbrecht, Andries, editor, Pinciroli, Carlo, editor, Strobel, Volker, editor, and Camacho-Villalón, Christian, editor

Published
2022
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27. Exploring a Handwriting Programming Language for Educational Robots

Author

El-Hamamsy, Laila, Papaspyros, Vaios, Kangur, Taavet, Mathex, Laura, Giang, Christian, Skweres, Melissa, Bruno, Barbara, Mondada, Francesco, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Merdan, Munir, editor, Lepuschitz, Wilfried, editor, Koppensteiner, Gottfried, editor, Balogh, Richard, editor, and Obdržálek, David, editor

Published
2022
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28. Teachers’ Perspective on Fostering Computational Thinking Through Educational Robotics

Author

Chevalier, Morgane, El-Hamamsy, Laila, Giang, Christian, Bruno, Barbara, Mondada, Francesco, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Merdan, Munir, editor, Lepuschitz, Wilfried, editor, Koppensteiner, Gottfried, editor, Balogh, Richard, editor, and Obdržálek, David, editor

Published
2022
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29. The Symbiotic Relationship between Educational Robotics and Computer Science in Formal Education

Author

El-Hamamsy, Laila, Bruno, Barbara, Chessel-Lazzarotto, Frédérique, Chevalier, Morgane, Roy, Didier, Zufferey, Jessica Dehler, and Mondada, Francesco

Abstract

Educational Robotics (ER) has the potential to provide significant benefits to education, provided an increase in outreach by transitioning from the extra-curricular initiatives in which ER has thrived to formal education. As Computer Science (CS) Education is undergoing curricular reforms worldwide, the present study addresses the case of a Digital Education reform that included ER as a means to teach core CS concepts. Approximately 350 teachers from the first four grades of primary school participated in a mandatory two-year continuing professional development (CPD) program. The first year of the program was dedicated to CS and introduced teachers to CS Unplugged (CSU) and Robotics Unplugged (RU) activities. As such, we analyse the interplay between these activities and focus on teachers' voluntary adoption of the proposed content in classrooms. This is complemented by an analysis of their perception and recommendation of ER. The findings highlight three main points. Firstly, ER benefits from the integration in the CS CPD, as this provides the necessary traction to introduce ER into teacher practices (the teachers freely devoted 2275 h to ER activities in their classrooms, over two years). Secondly, the presence of ER activities in the CS-CPD allows a higher proportion of teachers to adopt the CS content, as there are teachers that favour one type of activity over the other. Finally, the globally positive perception of ER registered in this study is relevant for two reasons: teachers were not voluntarily participating in the CPD, and results did not differ between pioneers and novices.

Published
2021
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30. A Computer Science and Robotics Integration Model for Primary School: Evaluation of a Large-Scale In-Service K-4 Teacher-Training Program

Author

El-Hamamsy, Laila, Chessel-Lazzarotto, Frédérique, Bruno, Barbara, Roy, Didier, Cahlikova, Tereza, Chevalier, Morgane, Parriaux, Gabriel, Pellet, Jean-Philippe, Lanarès, Jacques, Zufferey, Jessica Dehler, and Mondada, Francesco

Abstract

Integrating computer science (CS) into school curricula has become a worldwide preoccupation. Therefore, we present a CS and Robotics integration model and its validation through a large-scale pilot study in the administrative region of the Canton Vaud in Switzerland. Approximately 350 primary school teachers followed a mandatory CS continuing professional development program (CPD) of adapted format with a curriculum scaffolded by instruction modality. This included CS Unplugged activities that aim to teach CS concepts without the use of screens, and Robotics Unplugged activities that employed physical robots, without screens, to learn about robotics and CS concepts. Teachers evaluated positively the CPD and their representation of CS improved. Voluntary adoption rates reached 97% during the CPD and 80% the following year. These results combined with the underpinning literature support the generalisability of the model to other contexts.

Published
2021
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32. A framework for Culture-aware Robots based on Fuzzy Logic

Author

Bruno, Barbara, Mastrogiovanni, Fulvio, Pecora, Federico, Sgorbissa, Antonio, and Saffiotti, Alessandro

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence
Abstract

Cultural adaptation, i.e., the matching of a robot's behaviours to the cultural norms and preferences of its user, is a well known key requirement for the success of any assistive application. However, culture-dependent robot behaviours are often implicitly set by designers, thus not allowing for an easy and automatic adaptation to different cultures. This paper presents a method for the design of culture-aware robots, that can automatically adapt their behaviour to conform to a given culture. We propose a mapping from cultural factors to related parameters of robot behaviours which relies on linguistic variables to encode heterogeneous cultural factors in a uniform formalism, and on fuzzy rules to encode qualitative relations among multiple variables. We illustrate the approach in two practical case studies., Comment: Presented at: 2017 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), Naples, Italy, 2017

Published
2018
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33. Paving the Way for Culturally Competent Robots: a Position Paper

Author

Bruno, Barbara, Chong, Nak Young, Kamide, Hiroko, Kanoria, Sanjeev, Lee, Jaeryoung, Lim, Yuto, Pandey, Amit Kumar, Papadopoulos, Chris, Papadopoulos, Irena, Pecora, Federico, Saffiotti, Alessandro, and Sgorbissa, Antonio

Subjects
Computer Science - Computers and Society, Computer Science - Robotics
Abstract

Cultural competence is a well known requirement for an effective healthcare, widely investigated in the nursing literature. We claim that personal assistive robots should likewise be culturally competent, aware of general cultural characteristics and of the different forms they take in different individuals, and sensitive to cultural differences while perceiving, reasoning, and acting. Drawing inspiration from existing guidelines for culturally competent healthcare and the state-of-the-art in culturally competent robotics, we identify the key robot capabilities which enable culturally competent behaviours and discuss methodologies for their development and evaluation., Comment: Presented at: 26th IEEE International Symposium onRobot and Human Interactive Communication (RO-MAN), 2017, Lisbon, Portugal. arXiv admin note: substantial text overlap with arXiv:1708.06276

Published
2018
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34. Modelling the Influence of Cultural Information on Vision-Based Human Home Activity Recognition

Author

Menicatti, Roberto, Bruno, Barbara, and Sgorbissa, Antonio

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computers and Society, Computer Science - Robotics
Abstract

Daily life activities, such as eating and sleeping, are deeply influenced by a person's culture, hence generating differences in the way a same activity is performed by individuals belonging to different cultures. We argue that taking cultural information into account can improve the performance of systems for the automated recognition of human activities. We propose four different solutions to the problem and present a system which uses a Naive Bayes model to associate cultural information with semantic information extracted from still images. Preliminary experiments with a dataset of images of individuals lying on the floor, sleeping on a futon and sleeping on a bed suggest that: i) solutions explicitly taking cultural information into account are more accurate than culture-unaware solutions; and ii) the proposed system is a promising starting point for the development of culture-aware Human Activity Recognition methods., Comment: 7 pages, 4 figures, Proc. URAI2017, International Conference on Ubiquitous Robots and Ambient Intelligence, Maison Glad Jeju, Jeju, Korea from June 28-July 2017

Published
2018
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36. Towards a new paradigm for assistive technology at home: research challenges, design issues and performance assessment

Author

Buoncompagni, Luca, Bruno, Barbara, Giuni, Antonella, Mastrogiovanni, Fulvio, and Zaccaria, Renato

Subjects
Computer Science - Artificial Intelligence, 68T30
Abstract

Providing elderly and people with special needs, including those suffering from physical disabilities and chronic diseases, with the possibility of retaining their independence at best is one of the most important challenges our society is expected to face. Assistance models based on the home care paradigm are being adopted rapidly in almost all industrialized and emerging countries. Such paradigms hypothesize that it is necessary to ensure that the so-called Activities of Daily Living are correctly and regularly performed by the assisted person to increase the perception of an improved quality of life. This chapter describes the computational inference engine at the core of Arianna, a system able to understand whether an assisted person performs a given set of ADL and to motivate him/her in performing them through a speech-mediated motivational dialogue, using a set of nearables to be installed in an apartment, plus a wearable to be worn or fit in garments.

Published
2017

38. The CARESSES EU-Japan project: making assistive robots culturally competent

Author

Bruno, Barbara, Chong, Nak Young, Kamide, Hiroko, Kanoria, Sanjeev, Lee, Jaeryoung, Lim, Yuto, Pandey, Amit Kumar, Papadopoulos, Chris, Papadopoulos, Irena, Pecora, Federico, Saffiotti, Alessandro, and Sgorbissa, Antonio

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Computers and Society, Computer Science - Human-Computer Interaction, I.2.9
Abstract

The nursing literature shows that cultural competence is an important requirement for effective healthcare. We claim that personal assistive robots should likewise be culturally competent, that is, they should be aware of general cultural characteristics and of the different forms they take in different individuals, and take these into account while perceiving, reasoning, and acting. The CARESSES project is an Europe-Japan collaborative effort that aims at designing, developing and evaluating culturally competent assistive robots. These robots will be able to adapt the way they behave, speak and interact to the cultural identity of the person they assist. This paper describes the approach taken in the CARESSES project, its initial steps, and its future plans., Comment: Paper presented at: Ambient Assisted Living, Italian Forum. Genova, Italy, June 12--15, 2017

Published
2017

39. Arianna: towards a new paradigm for assistive technology at home

Author

Buoncompagni, Luca, Bruno, Barbara, Giuni, Antonella, Mastrogiovanni, Fulvio, and Zaccaria, Renato

Subjects
Computer Science - Computers and Society, Computer Science - Human-Computer Interaction, 68T99
Abstract

Providing elderly and people with special needs to retain their independence as long as possible is one of the biggest challenges of the society of tomorrow. Teseo, a startup company spinoff from the University of Genoa, aims at accelerating the transition towards a sustainable healthcare system. Teseo's first concept and product, Arianna, allows for the automated recognition of activities of daily living at home and acts as a wellbeing and healthcare personalized assistant. This abstract outlines the main concepts underlying its features and capabilities., Comment: Paper accepted at the Eight Italian Forum on Ambient Assisted Living (ForItAAL 2017)

Published
2017

40. Detection of bimanual gestures everywhere: why it matters, what we need and what is missing

Author

Shah, Divya, Denicia, Ernesto, Pimentel, Tiago, Bruno, Barbara, and Mastrogiovanni, Fulvio

Subjects
Computer Science - Computer Vision and Pattern Recognition, 68T05
Abstract

Bimanual gestures are of the utmost importance for the study of motor coordination in humans and in everyday activities. A reliable detection of bimanual gestures in unconstrained environments is fundamental for their clinical study and to assess common activities of daily living. This paper investigates techniques for a reliable, unconstrained detection and classification of bimanual gestures. It assumes the availability of inertial data originating from the two hands/arms, builds upon a previously developed technique for gesture modelling based on Gaussian Mixture Modelling (GMM) and Gaussian Mixture Regression (GMR), and compares different modelling and classification techniques, which are based on a number of assumptions inspired by literature about how bimanual gestures are represented and modelled in the brain. Experiments show results related to 5 everyday bimanual activities, which have been selected on the basis of three main parameters: (not) constraining the two hands by a physical tool, (not) requiring a specific sequence of single-hand gestures, being recursive (or not). In the best performing combination of modeling approach and classification technique, five out of five activities are recognized up to an accuracy of 97%, a precision of 82% and a level of recall of 100%., Comment: Submitted to Robotics and Autonomous Systems (Elsevier)

Published
2017

41. Flexible human-robot cooperation models for assisted shop-floor tasks

Author

Darwish, Kourosh, Wanderlingh, Francesco, Bruno, Barbara, Simetti, Enrico, Mastrogiovanni, Fulvio, and Casalino, Giuseppe

Subjects
Computer Science - Robotics, 68T40
Abstract

The Industry 4.0 paradigm emphasizes the crucial benefits that collaborative robots, i.e., robots able to work alongside and together with humans, could bring to the whole production process. In this context, an enabling technology yet unreached is the design of flexible robots able to deal at all levels with humans' intrinsic variability, which is not only a necessary element for a comfortable working experience for the person but also a precious capability for efficiently dealing with unexpected events. In this paper, a sensing, representation, planning and control architecture for flexible human-robot cooperation, referred to as FlexHRC, is proposed. FlexHRC relies on wearable sensors for human action recognition, AND/OR graphs for the representation of and reasoning upon cooperation models, and a Task Priority framework to decouple action planning from robot motion planning and control., Comment: Submitted to Mechatronics (Elsevier)

Published
2017

45. What Teachers Need for Orchestrating Robotic Classrooms

Author

Shahmoradi, Sina, Kothiyal, Aditi, Olsen, Jennifer K., Bruno, Barbara, Dillenbourg, Pierre, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Alario-Hoyos, Carlos, editor, Rodríguez-Triana, María Jesús, editor, Scheffel, Maren, editor, Arnedillo-Sánchez, Inmaculada, editor, and Dennerlein, Sebastian Maximilian, editor

Published
2020
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