“If it’s not broken, don’t fix it?” An inquiry concerning the understanding of child-robot interaction.

Ethical standpoints regarding robots for children are polarized, yet there is insufficient evidence to substantiate either position. This is compounded by the multiplicity of lenses through which child-robot interactions are investigated. This paper explores implications for translating knowledge from robotics to developmental psychology. The concept of a ‘care-receiving robot’ is a case in point, favorably reviewed here though the manner of its testing discloses the need for a conceptual framework that takes into robotics, processes of child development, sociocultural expectancies about optimal development, and factors affecting research priorities

Interactive technologies for preschool game-based instruction: Experiences and future challenges

This is the author’s version of a work that was accepted for publication in Entertainment Computing. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. Changes may have been made to this work since it was submitted for publication. A definitive version was subsequently published in Entertainment Computing, vol. 17 (2016). DOI 10.1016/j.entcom.2016.07.001.[EN] According to current kindergarten curricula, game play is an important basis for children development and it is the main driving force when designing educational activities during early childhood. This paper presents a review of the current state of the art of game technologies that support pre-kindergarten and kindergarten children development. Moreover, the most emergent technologies for developing educational games for preschool children are identified and a set of future challenges are discussed. The main goal of this work is to review the state of the art in interactive technologies which will help educators, game designers and Human-Computer Interaction (HCI) experts in the area of game-based kindergarten instruction. 2016 Elsevier B.V. All rights reserved.This work received financial support from Spanish Ministry of Economy and Competitiveness and funded by the European Development Regional Fund (EDRF-FEDER) with the project TIN2014-60077-R (SUPEREMOS). This work is also supported by a predoctoral fellowship within the FPU program from the Spanish Ministry of Education, Culture and Sports to V. Nacher (FPU14/00136) and from GVA (ACIF/2014/214) to F. Garcia-Sanjuan.Nácher-Soler, VE.; García Sanjuan, F.; Jaén Martínez, FJ. (2016). Interactive technologies for preschool game-based instruction: Experiences and future challenges. Entertainment Computing. 17:19-29. https://doi.org/10.1016/j.entcom.2016.07.001S19291

Design and Evaluation of a Tangible-Mediated Robot for Kindergarten Instruction

© ACM 2015. This is the author's version of the work. It is posted here for your personal use. Not for redistribution. The definitive Version of Record was published in ACE '15 Proceedings of the 12th International Conference on Advances in Computer Entertainment Technology. http://dx.doi.org/10.1145/2832932.2832952Entertainment technology increases children’s engagement in educational activities designed to develop abilities ranging from collaborative problem-solving and cognitive attention to self-esteem. However, little research has been done on designing educational and entertaining interactive technology for kindergarten children (up to 5 years old). Furthermore, most of the work in this area has considered traditional input devices such as the mouse and keyboard, which are not suitable for these very young children. More recently, other more intuitive means of interaction (touch and tangible interfaces) and advanced educational artifacts such as robots have emerged. In this work we therefore present a joint collaboration between technologists and kindergarten instructors to design and evaluate a technological platform using a mobile robot for kindergarten instruction, as well as an intuitive and user-friendly tangible user interface. The results obtained suggest the platform is not only usable by kindergarten children, but it also allows them to be fully immersed in a feeling of energized focus, full involvement, and enjoyment in the process of the activity. In addition, the instructors reported that the system was well accepted and praised its versatility in use as a supporting tool for their everyday classroom activities.This work is funded by the European Development Regional Fund (EDRF-FEDER) and supported by Spanish Ministry of Economy and Competitiveness with Project TIN2014-60077-R, and from Universitat Politècnica de València under Project UPV-FE-2014-24. It is also supported by fellowship ACIF/2014/214within the VALi+d program from Conselleria d’Educació, Cultura i Esport (Generalitat Valenciana), and by fellowship FPU14/00136 within the FPU program from Spanish Ministry of Education, Culture and Sport.García Sanjuan, F.; Jaén Martínez, FJ.; Nácher-Soler, VE.; Catalá Bolós, A. (2015). Design and Evaluation of a Tangible-Mediated Robot for Kindergarten Instruction. ACM. https://doi.org/10.1145/2832932.2832952SDiana Africano, Sara Berg, Kent Lindbergh, Peter Lundholm, Fredrik Nilbrink, and Anna Persson. 2004. Designing Tangible Interfaces for Children's Collaboration.CHI '04 Extended Abstracts on Human Factors in Computing Systems, ACM, 853--868. http://doi.org/10.1145/985921.985945Alissa N. Antle. 2013. Exploring how children use their hands to think: an embodied interactional analysis.Behaviour & Information Technology32, 9, 938--954. http://doi.org/10.1080/0144929X.2011.630415Jennifer Connolly, Anna Beth Doyle, and Flavia Ceschin. 1983. Forms and Functions of Social Fantasy Play in Preschoolers in M. B. InSocial and Cognitive Skills: Sex Roles and Children's Play. Academic Press, New York, 71--92.Amnon Dekel, Galit Yavne, Ela Ben-Tov, and Yulia Roschak. 2007. The spelling bee.Proceedings of the International Conference on Advances in Computer Entertainment Technology, ACM, 212--215. http://doi.org/10.1145/1255047.1255092Janet A. DiPietro. 1981. Rough and tumble play: A function of gender.Developmental Psychology 17, 50--58. http://doi.org/10.1037/0012-1649.17.1.50Allison Druin. 2002. The role of children in the design of new technology.Behaviour & Information Technology21, 1, 1--25. http://doi.org/10.1080/01449290110108659Madhumita Ghosh and Fumihide Tanaka. 2011. The impact of different competence levels of care-receiving robot on children.IEEE International Conference on Intelligent Robots and Systems, IEEE, 2409--2415. http://doi.org/10.1109/IROS.2011.6048743Juan Pablo Hourcade, Michael Crowther, and Lisa Hunt. 2007. Does mouse size affect study and evaluation results?: a study comparing preschool children's performance with small and regular-sized mice.Proceedings of the 6th International Conference on Interaction Design and Children, ACM, 109--116. http://doi.org/10.1145/1297277.1297300Juan Pablo Hourcade. 2007. Interaction Design and Children.Foundations and Trends in Human--Computer Interaction1, 4, 277--392. http://doi.org/10.1561/1100000006C. Lorelle Lentz, Kay Kyeong-Ju Seo, and Bridget Gruner. 2014. Revisiting the Early Use of Technology: A Critical Shift from "How Young is Too Young?" to "How Much is 'Just Right'?"Dimensions of Early Childhood42, 1, 15--23.Janet Lever. 1976. Sex Differences in the Games Children Play.Social Problems23, 4, pp. 478--487.Janet Lever. 1978. Sex Differences in the Complexity of Children's Play and Games.American Sociological Review43, 4, pp. 471--483.Susan C. Levine, Janellen Huttenlocher, Amy Taylor, and Adela Langrock. 1999. Early sex differences in spatial skill.Developmental Psychology35, 4, 940--949. http://doi.org/10.1037/0012-1649.35.4.940Liang-Yi Li, Chih-Wei Chang, and Gwo-Dong Chen. 2009. Researches on using robots in education.Proceedings of the 4th International Conference on E-Learning and Games, Springer Berlin Heidelberg, 479--482. http://doi.org/10.1007/978-3-642-03364-3_57Min Liu. 1996. An exploratory study of how pre-kindergarten children use the interactive multimedia technology: implications for multimedia software design.Journal of Computing in Childhood Education7, 1--2, 71--92.Javier Marco, Eva Cerezo, and Sandra Baldassarri. 2013. Bringing tabletop technology to all: Evaluating a tangible farm game with kindergarten and special needs children.Personal and Ubiquitous Computing17, 8, 1577--1591. http://doi.org/10.1007/s00779-012-0522-5Vicente Nacher, Fernando Garcia-Sanjuan, and Javier Jaen. 2015. Game Technologies for Kindergarten Instruction: Experiences and Future Challenges.Proceedings of the 2nd Congreso de la Sociedad Española para las Ciencias del Videojuego, 58--67.Vicente Nacher, Javier Jaen, and Alejandro Catala. 2014. Exploring Visual Cues for Intuitive Communicability of Touch Gestures to Pre-kindergarten Children.Proceedings of the Ninth ACM International Conference on Interactive Tabletops and Surfaces, ACM, 159--162. http://doi.org/10.1145/2669485.2669523Vicente Nacher, Javier Jaen, Elena Navarro, Alejandro Catala, and Pascual González. 2015. Multi-touch gestures for pre-kindergarten children.International Journal of Human-Computer Studies73, 37--51. http://doi.org/10.1016/j.ijhcs.2014.08.004Jeanne Nakamura and Mihaly Csikszentmihalyi. 2008. Flow Theory and Research. InHandbook of Positive Psychology. 195--206. http://doi.org/10.1093/oxfordhb/9780195187243.013.0018Junichi Osada, Shinichi Ohnaka, and Miki Sato. 2006. The scenario and design process of childcare robot, PaPeRo.Proceedings of the 2006 ACM SIGCHI International Conference on Advances in Computer Entertainment Technology, ACM. http://doi.org/10.1145/1178823.1178917Mildred B. Parten. 1932. Social participation among pre-school children.Journal of Abnormal and Social Psychology27, 3, 243--269. http://doi.org/10.1037/h0074524Kimberly K. Powlishta, Maya G. Sen, Lisa A. Serbin, Diane Poulin-Dubois, and Julie A. Eichstedt. 2001. From infancy through middle childhood: The role of cognitive and social factors in becoming gendered. InHandbook of the psychology of women and gender, Rhoda K. Unger (ed.). John Wiley & Sons Inc., Hoboken, NJ, USA, 116--132.Kenneth H Rubin, Terrence L Maioni, and Margaret Hornung. 1976. Free play behaviors in middle- and lower-class preschoolers: Parten and Piaget Revisited.Child Development47, 2, 414--419. http://doi.org/10.2307/1128796Kenneth H. Rubin. 1977. Play Behaviors of Young Children.Young children32, 6, 16--24.Anne B. Smith and Patricia M. Inder. 1993. Social Interaction in Same and Cross Gender Preschool Peer Groups: a participant observation study.Educational Psychology 13, 29--42. http://doi.org/10.1080/0144341930130104Iris Soute and Henk Nijmeijer. 2014. An Owl in the Classroom: Development of an Interactive Storytelling Application for Preschoolers.Proceedings of the 2014 Conference on Interaction Design and Children, ACM, 261--264. http://doi.org/10.1145/2593968.2610467Amanda Strawhacker and Marina Umaschi Bers. 2014. "I want my robot to look for food": Comparing Kindergartner's programming comprehension using tangible, graphic, and hybrid user interfaces.International Journal of Technology and Design Education. http://doi.org/10.1007/s10798-014-9287-7Toshimitsu Takahashi, Masahiko Morita, and Fumihide Tanaka. 2012. Evaluation of a tricycle-style teleoperational interface for children: A comparative experiment with a video game controller.Proceedings of the 21st IEEE International Symposium on Robot and Human Interactive Communication, IEEE, 334--338. http://doi.org/10.1109/ROMAN.2012.6343775Fumihide Tanaka, Bret Fortenberry, Kazuki Aisaka, and Javier R. Movellan. 2005. Plans for Developing Real-time Dance Interaction between QRIO and Toddlers in a Classroom Environment.Procceedings on the 4th International Conference on Development and Learning, IEEE, 142--147. http://doi.org/10.1109/DEVLRN.2005.1490963Fumihide Tanaka and Shizuko Matsuzoe. 2012. Learning Verbs by Teaching a Care-Receiving Robot by Children: An Experimental Report.Proceedings of the 7th Annual ACM/IEEE International Conference on Human-Robot Interaction, ACM, 253--254. http://doi.org/10.1145/2157689.2157781Fumihide Tanaka and Toshimitsu Takahashi. 2012. A tricycle-style teleoperational interface that remotely controls a robot for classroom children.Proceedings of the 7th Annual ACM/IEEE International Conference on Human-Robot Interaction, 255--256. http://doi.org/10.1145/2157689.2157782Barrie Thorne. 1993.Gender Play: Boys and Girls in School. Rutgers University Press.Chau Kien Tsong, Toh Seong Chong, and Zarina Samsudin. 2012. Tangible multimedia: A case study for bringing tangibility into multimedia learning.Procedia - Social and Behavioral Sciences64, 382--391. http://doi.org/10.1016/j.sbspro.2012.11.045Jie Chi Yang and Sherry Y. Chen. 2010. Effects of gender differences and spatial abilities within a digital pentominoes game.Computers & Education 55, 1220--1233. http://doi.org/10.1016/j.compedu.2010.05.019Nicola J. Yelland. 1994. The strategies and interactions of young children in LOGO tasks.Journal of Computer Assisted Learning10, 1, 33--49. http://doi.org/10.1111/j.1365-2729.1994.tb00280.xEvridiki Zachopoulou, Efthimios Trevlas, and Georgia Tsikriki. 2004. Perceptions of gender differences in playful behaviour among kindergarten children.European Early Childhood Education Research Journal12, 1, 43--53. http://doi.org/10.1080/1350293048520930

Game Technologies for Kindergarten Instruction: Experiences and Future Challenges

[EN] Games are an ideal mechanism to design educational activities with preschool children. Moreover, an analysis of current kindergarten curricula points out that playing and games are an important basis for children development. This paper presents a review of works that use games for kindergarten instruction and analyses their underlying technologies. In addition, in this work we present future challenges to be faced for each technology under consideration focusing on the specific needs and abilities these very demanding users have. The end goal is to outline a collection of future research directions for educators, game designers and HCI experts in the area of game-based kindergarten instruction supported by new technologies.This work received financial support from Spanish MINECO (projects TIN2010-20488 and TIN2014-60077-R), from Universitat Politècnica de València (UPV-FE-2014-24), and from GVA (ACIF/2014/214).Nácher-Soler, VE.; García Sanjuan, F.; Jaén Martínez, FJ. (2015). Game Technologies for Kindergarten Instruction: Experiences and Future Challenges. CEUR Workshop Proceedings. http://hdl.handle.net/10251/74255

Kindertivity: Usability and Communicability Strategies for Interactive Surfaces and Pre-Kindergarten Children

Tesis por compendio[ES] La tecnología multi-táctil se ha convertido en una de las más emergentes tras experimentar un enorme crecimiento desde sus pasos iniciales en los años ochenta hasta su amplia aceptación y uso en la actualidad. Por una parte, la tecnología multi-táctil se basa en el estilo de interacción de manipulación directa el cual proporciona a los usuarios la ventaja de ver los objetos y las acciones de interés, sustituir comandos escritos por acciones de señalado y, además, permite la realización de acciones rápidas, reversibles e incrementales evitando el uso de instrucciones complejas. Por otra parte, diversos trabajos han evaluado las virtudes derivadas de utilizar conjuntamente la manipulación directa con el toque directo mostrando que es posible evitar los problemas inherentes a otras técnicas de interacción como el ratón y el teclado. Por lo tanto, aprovechando la interacción natural e intuitiva proporcionada por la tecnología multi-táctil, ésta parece una forma ideal para dar soporte a la creación de escenarios educativos dirigidos a niños en edad preescolar. Sin embargo, a pesar de la existencia de diversos estudios que evalúan la idoneidad de utilizar el estilo de interacción de manipulación directa, existe una falta de trabajos abordando el uso dispositivos basados en superficies táctiles con niños de una temprana edad. Asimismo, en la actualidad existe una creciente tendencia a diseñar aplicaciones educativas y lúdicas dirigidas a niños en edad preescolar utilizando dispositivos multi-táctiles como los teléfonos inteligentes o las tabletas. Además, diversos informes señalan que los niños son usuarios frecuentes de este tipo de dispositivos y los utilizan incluso antes de ser capaces de hablar. Sin embargo, a pesar de este crecimiento en el uso de la tecnología multi-táctil y su aparente idoneidad para ser utilizado en el desarrollo de aplicaciones educativas para niños en edad preescolar, no existen unas interacciones universales y estandarizadas para preescolares a la hora de utilizar dispositivos táctiles ya que habitualmente sólo se utilizan dos gestos básicos (básicamente, el toque con un dedo para seleccionar y el arrastre con un dedo para el movimiento). Por lo tanto, existe una clara necesidad de llevar a cabo estudios empíricos para contribuir y avanzar en el diseño de aplicaciones que den un soporte adecuado y encaje con las habilidades de los niños en su temprano desarrollo. Por tanto, esta tesis propone, diseña y evalúa diversas estrategias de usabilidad y comunicabilidad adaptadas a los niños en edad preescolar para establecer la base para el diseño y desarrollo de futuras aplicaciones basadas en dispositivos táctiles dirigidas a preescolares. Estas estrategias llevarán a la adecuada definición de guías de diseño que permitirán a los niños aprovechar al máximo la tecnología multi-táctil, harán posible el desarrollo de nuevas y atractivas aplicaciones y, eventualmente, también podrán ayudar al desarrollo cognitivo y motor de los niños.[CA] La tecnologia multi-tàctil s'ha convertit en una de les més emergents després d'experimentar un enorme creixement des dels seus passos inicials als anys vuitanta fins l'actualitat on es àmpliament acceptada i utilitzada. D'una banda, la tecnologia multi-tàctil es basa en l'estil d'interacció de manipulació directa, el qual proporciona als usuaris l'avantatge de veure els objectes i les accions d'interès, substituir comandos escrits per accions d'assenyalament i, a més, permet la realització d'accions, ràpides, reversibles i incrementals evitant l'ús d'instruccions complexes. D'altra banda, diversos treballs han avaluat les virtuts derivades d'utilitzar conjuntament la manipulació directa amb el toc directe mostrant que és possible evitar els problemes inherents a altres tècniques d'interacció com el ratolí i el teclat. Per tant, aprofitant la interacció natural i intuïtiva proporcionada per la tecnologia multi-tàctil, aquesta sembla una forma ideal per donar suport a la creació d'escenaris educatius per a xiquets en edat preescolar. No obstant això, malgrat l'existència de diversos estudis que avaluen la idoneïtat d'utilitzar l'estil d'interacció de manipulació directa, existeix una manca de treballs abordant l'ús de dispositius basats en superfícies tàctils amb xiquets d'edat primerenca. Així mateix, en l'actualitat existeix una creixent tendència a dissenyar aplicacions educatives i lúdiques dirigides a xiquets en edat preescolar utilitzant dispositius tàctils com els telèfons intel¿ligents o les tauletes. A més, diversos informes assenyalen que els xiquets són usuaris freqüents d'aquests tipus de dispositius i els utilitzen fins i tot abans de ser capaços de parlar. Malgrat aquest creixement en l'ús de la tecnologia multi-tàctil i la seua aparent idoneïtat per a ser utilitzada en el desenvolupament d'aplicacions educatives per a xiquets en edat preescolar, no existeixen unes interaccions universals i estandarditzades per a preescolars a l'hora d'utilitzar dispositius tàctils ja que habitualment només s'utilitzen dos gestos bàsics (bàsicament, el toc amb un dit per a seleccionar i l'arrossegament amb un dit per al moviment). Per tant, hi ha una clara necessitat de dur a terme estudis empírics per a contribuir i avançar en el disseny d'aplicacions que donen un suport adequat i s'ajusten amb les habilitats dels xiquets en el seu primerenc desenvolupament. Per tant, la tesi proposa, dissenya i avalua diverses estratègies de usabilitat i comunicabilitat adaptades als xiquets en edat preescolar per tal d'establir la base per al disseny i desenvolupament de futures aplicacions basades en dispositius tàctils dirigides a preescolars. Aquestes estratègies portaran a l'adequada definició de guies de disseny que permetran als xiquets aprofitar al màxim la tecnologia multi-tàctil, faran possible el desenvolupament de noves i atractives aplicacions i, eventualment, podran també ajudar al desenvolupament cognitiu i motor dels xiquets.[EN] Multi-touch technology has become one of the most emergent technologies and has had an enormous growth since its initial steps in the eighties to be widespread accepted and used in the present. On the one hand, multi-touch technology relies on the direct manipulation interaction style which gives users the advantage to view the objects and actions of interest, replace typed commands by pointing actions and to perform rapid, reversible and incremental actions avoiding using complex instructions. On the other hand, several works have evaluated the virtues when joining direct manipulation with direct-touching showing that it solves the problems inherent in other interaction devices, such as those involving mouse or keyboard. Hence, taking advantage of the intuitive and natural interaction provided by multi-touch technology it seems an ideal way to support educational scenarios targeted to kindergarten children. Although several works have assessed the suitability of using the direct manipulation style with children, there is a lack of works addressing the use of touchscreen devices by this specific type of users. Moreover, there is a growing trend of designing educational and playful applications targeted to kindergarten children based on touchscreen devices such as smartphones and tablets. In addition, several reports point out that children use touchscreen devices even before they are able to speak and they are frequent users of devices such as smartphones and tablets. However, despite this growth in the use of multi-touch technology by children and its apparent suitability to be used to develop applications targeted to young children, there is a lack of standardized and universally accepted interactions for young children when using touchscreen devices since only two basic gestures are commonly used (basically, consisting of only one-finger touch for selection and one-finger drag for movement). Hence, there is a need of carrying out empirical studies to help and advance in the design of applications that adequately support and fit with children's development and skills. Therefore, this thesis proposes, designs and evaluates several usability and communicability strategies tailored to children in their early development stage to establish the design and development of future applications targeted to kindergarten children. These strategies will lead to define appropriate design strategies that enable infants to take full advantage of multi-touch technology, would make it possible to develop attractive new applications and, eventually, could also aid children's cognitive and motor development.Nácher Soler, VE. (2019). Kindertivity: Usability and Communicability Strategies for Interactive Surfaces and Pre-Kindergarten Children [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/116833TESISCompendi