Higher Education Course Curriculum for a Distance Learning Model Reinforced with Robotics for 3 to7 Years Old Children

The curriculum is organized in five different modules, with different focus. The first module is about Basic Concepts of Computational Thinking, presenting the foundations for the rest of the learning. The second module, on Computational Thinking with Block-Based and Text-Based Coding Environments, and the third module, on the Fundamentals of Physical Programming and CT with Robotic Activities, further expand the learning about computational thinking by providing information on the potential of preschool children for computational thinking and how this can be developed through different environments and tools. The fourth module changes the focus to planning and evaluating activities with children by presenting information on Designing Activities and Learning through Distance Education. This is the module that deals with the challenges and potential of distance education in Early Childhood Education, connecting practice with reflection and further learning for educators through self-evaluation and reflection. Finally, the fifth module, on Building Partnerships for Learning, looks at the development of digital skills for early age as a societal endeavour, supporting practitioners in identifying partners and initiatives as well as building communities that can leverage the educational offer. The whole curriculum was planned to provide knowledge and competences that support the development of a distance learning model reinforced with robotics for 3-7 years old children. But each module is a stand-alone learning opportunity based on the lesson plans, slides presentation and materials available. Interested users are also welcome to combine different modules into unique training experiences.info:eu-repo/semantics/publishedVersio

Student Authored Digital Games as Authentic Learning: Using the \u3cem\u3eCan You Create a Game Challenge\u3c/em\u3e in Elementary Classrooms

This embedded single-case study examined an elementary classroom implementation of a digital game authoring challenge aligned with state mandated content standards. Teachers used the game challenge over four 50 minute class periods during a three month period of time. A total of twenty five (n=25) 4th grade students, nine (n=9) 5th grade students and three (n=3) STEM teachers participated in the study. The central research question for this study is: How do elementary teachers use a game challenge specifically aligned with Common Core/Next Generation Science (NGSS) state standards for instruction? Qualitative data, drawn from participating teacher interviews, classroom observations, student project reflections and document analysis of the student-authored digital games, were analyzed using Hatch’s (2002) typological analysis. Findings suggest that, while using a standards-based gaming task within instruction is effective in promoting dimensions of an authentic learning environment for students, more research is needed in the areas of 1) professional development for teachers in game design and computational thinking; 2) the use of a digital game task as an assessment for students with disabilities or who struggle in other content areas; 3) the use of a digital game task for assessment in other content areas; and 4) how the computational thinking skills and the dispositions of teachers affect the flow of knowledge in classrooms using a digital game task

Making Waves, Mixing Colors, and Using Mirrors: The Self-Regulated Learning Support Features and Procedural Rhetoric of Three Whole-Body Educational Games

This dissertation investigates the question, How can the procedural rhetoric of three whole-body educational games improve the understanding of self-regulated learning with digital technology? It explores three whole-body educational games (WBEGs) using a quantitative study, a case study, and analyses of their procedural rhetoric to better understand the roles these types of games can have in teaching digital literacy and self-regulated learning (SRL) skills. The three WBEGs, Waves, Color Mixer, and Light and Mirrors, are each intended to teach science concepts to players. These games are similarly structured in that they all invite players to immerse themselves in the game by standing on the screen (the games project images on the floor). The WBEGs differ from traditional console video games because they receive input from players via motion-sensing technology, requiring players to make large movements with their bodies to influence elements within the game. This study explains SRL as a complex combination of internal (mental) behavior, external (observable) behavior, and interpersonal (social) behavior, identifying within three WBEGs the presence of elements supporting the SRL behaviors of goal setting, strategy planning, collaboration, progress monitoring, feedback, and reflection. These findings inform the understanding of SRL by revealing that each game includes a different combination of SRL-supporting elements that encourage the use of SRL skills in different ways. SRL scaffolding features are those elements within a WBEG that guide players to use certain SRL strategies, helping and supporting their efforts much like construction scaffolding supports a building as it is being erected. This dissertation also utilizes analyses of procedural rhetoric to investigate the techniques reinforced by the underlying structure of these three WBEGs in an effort to further the understanding of digital literacy in education and sociocultural contexts. All three WBEGs appear to emphasize player agency and collaboration. Waves and Light and Mirrors encourage player strategy, while Color Mixer rewards speed and rote knowledge. These reinforced techniques perpetuate the underlying cultural values of accuracy, collaboration, problem-solving, autonomy, and scaffolding. This study discusses these values in the contexts of education and society

Educational visions: The lessons from 40 years of innovation

Educational Visions looks to future developments in educational technology by reviewing our history of computers and education, covering themes such as learning analytics and design, inquiry learning, citizen science, inclusion, and learning at scale. The book shows how successful innovations can be built over time, informs readers about current practice and demonstrates how they can use this work themselves. This book is intended for anyone who is involved in the study and practice of technology-enhanced learning. It includes examples from informal learning such as MOOCs and citizen science, as well as higher education. Although the foundations of this work are in the UK, its influence has spread worldwide, so it will be of interest internationally

Improving User Involvement Through Live Collaborative Creation

Creating an artifact - such as writing a book, developing software, or performing a piece of music - is often limited to those with domain-specific experience or training. As a consequence, effectively involving non-expert end users in such creative processes is challenging. This work explores how computational systems can facilitate collaboration, communication, and participation in the context of involving users in the process of creating artifacts while mitigating the challenges inherent to such processes. In particular, the interactive systems presented in this work support live collaborative creation, in which artifact users collaboratively participate in the artifact creation process with creators in real time. In the systems that I have created, I explored liveness, the extent to which the process of creating artifacts and the state of the artifacts are immediately and continuously perceptible, for applications such as programming, writing, music performance, and UI design. Liveness helps preserve natural expressivity, supports real-time communication, and facilitates participation in the creative process. Live collaboration is beneficial for users and creators alike: making the process of creation visible encourages users to engage in the process and better understand the final artifact. Additionally, creators can receive immediate feedback in a continuous, closed loop with users. Through these interactive systems, non-expert participants help create such artifacts as GUI prototypes, software, and musical performances. This dissertation explores three topics: (1) the challenges inherent to collaborative creation in live settings, and computational tools that address them; (2) methods for reducing the barriers of entry to live collaboration; and (3) approaches to preserving liveness in the creative process, affording creators more expressivity in making artifacts and affording users access to information traditionally only available in real-time processes. In this work, I showed that enabling collaborative, expressive, and live interactions in computational systems allow the broader population to take part in various creative practices.PHDComputer Science & EngineeringUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttps://deepblue.lib.umich.edu/bitstream/2027.42/145810/1/snaglee_1.pd

Designing for learning: e-Learning@greenwich post-conference reflections and abstracts

The e-learning@greenwich/conference 2007, Designing for Learning, was the fifth conference in the series and has developed from its original focus on local institutional issues to a conference that focuses on global themes in e-learning attracting international participation. Our conferences are characterised by being practitioner focused and sector inclusive. Conference evaluations suggest that its intimate and friendly atmosphere, within the grounds of the world heritage site at Greenwich, allows practitioner-delegates to freely mix with delegates of international research repute and have an influence on practice, whether in the classroom or in educational software development. We felt it was now time to produce a series of publications to share the important work being captured and disseminated at the conferences to a wider public in the form of post-conference reflective proceedings

ALT-C 2011 Abstracts

This is a PDF of the abstracts for all the sessions at the 2011 ALT conference. It is designed to be used alongside the online version of the conference programme. It was made public on 1 September, with a "topped and tailed" made live on 2 September