Teacher education for effective technology integration

About a decade ago, several researchers used Shulman's (1986) framework about Pedagogical Content Knowledge (PCK) - a body of knowledge that constitutes a special amalgam of content, pedagogy, learners, and context - as a theoretical basis for developing TPCK or TPACK: a framework for guiding teachers' cognition about technology integration in teaching and learning (Angeli, Valanides, & Christodoulou, 2016). Different models of TPCK/TPACK are proposed in the literature, each with a different focus (on practice, instructional design, context, etc.) and with a different theoretical interpretation about the nature and development of the knowledge that teachers need to have to be able to teach with technology (e.g., Angeli & Valanides, 2005, 2009, 2013; Koehler & Mishra, 2008; Niess, 2005).In this direction, research is being carried out to identify TPCK design procedures for initial teacher education. In teaching, when transferring TPCK to design and methodological practices, there is a need to consider a number of factors, especially: the different modes of adopting technologies; the integration of tool affordances, content and pedagogy; the implementation of learning environments; the operationalization of knowledge; and detailed analysis of teaching models and approache

ATM automation: guidance on human technology integration

© Civil Aviation Authority 2016Human interaction with technology and automation is a key area of interest to industry and safety regulators alike. In February 2014, a joint CAA/industry workshop considered perspectives on present and future implementation of advanced automated systems. The conclusion was that whilst no additional regulation was necessary, guidance material for industry and regulators was required. Development of this guidance document was completed in 2015 by a working group consisting of CAA, UK industry, academia and industry associations (see Appendix B). This enabled a collaborative approach to be taken, and for regulatory, industry, and workforce perspectives to be collectively considered and addressed. The processes used in developing this guidance included: review of the themes identified from the February 2014 CAA/industry workshop1; review of academic papers, textbooks on automation, incidents and accidents involving automation; identification of key safety issues associated with automated systems; analysis of current and emerging ATM regulatory requirements and guidance material; presentation of emerging findings for critical review at UK and European aviation safety conferences. In December 2015, a workshop of senior management from project partner organisations reviewed the findings and proposals. EASA were briefed on the project before its commencement, and Eurocontrol contributed through membership of the Working Group.Final Published versio

Teachers enacting a technology-rich curriculum for emergent literacy

PictoPal is the name of a technology-rich curriculum with a focus on emergent literacy of Dutch kindergarteners. A case study design was used to examine teacher technology integration within PictoPal along with their perceptions about teaching/learning, technology and technology-based innovations. Observations were undertaken on pupils’ engagement and teachers’ technology integration within PictoPal. Interviews were used to examine teachers’ perceptions. Pupils’ emergent literacy learning was examined in a nonequivalent control quasi experimental design. Four kindergarten teachers and four classes (N = 95 pupils) participated in the use of PictoPal. The findings suggest that a high extent of technology integration is related to: a developmental approach to teaching/learning; positive attitudes and expectations towards technology-based innovations; and positive perceptions of support in stressful work conditions. Significant learning gains were found for the experimental group using PictoPal. High pupil learning gains were not related to a high extent of technology integration. Senior kindergarteners engaged to a higher extent with PictoPal than junior kindergartener

Equitable Technology Integration: Kentucky Technology Integration Certification

A capstone submitted in partial fulfillment of the requirements for the degree of Doctor of Education in the College of Education at Morehead State University by Stacie Barnett-Slusher on March 12, 2019

Making Disciples: The Effects of Technology Integration Coaching

This paper describes a pilot study of collegial coaching for technology integration at two private Christian schools. Two students nearing completion of a Master’s in Education in Curriculum and Instruction with a Specialization in Instructional Technology each coached three fellow teachers, self-described as digital immigrants, to integrate technology into their teaching. The coaches spent an average of 15 hours per teacher brainstorming, teaching, and facilitating technology integration. Information obtained from a variety of data sources (interviews, a post-coaching questionnaire, a focus group, and analyses of journals kept by both coaches and coached teachers) revealed the positive effects of their collegial coaching and suggested ideas for optimizing coaching for technology integration

Faculty and Student Perceptions of Technology Integration in Teaching

This journal article discusses a study examining the perceptions of faculty and students on the topic of technology integration in the teaching of courses at a Midwestern College of Education. The purposes of this study are to collect baseline data to identify the current extent of technology integration, to inform the strategic planning process, and for accreditation purposes. The article from "The Journal of Interactive Online Learning," describes faculty comfort levels and proficiency with technology, faculty perceptions and frequency with which they use technology, and student perceptions of technology use and impact on their learning. Educational levels: Graduate or professional

After the In-Service Course: Challenges of Technology Integration

This case study chronicles one teacher\u27s experience in the semester after an in-service course, Using Technology for Instruction and Assessment. Results suggest that success in the course and good intentions do not necessarily translate into dramatic change in methods or media of instruction. Student mobility and special needs, unexpected administrative mandates, the anxiety of being judged as competent based on standardized test results, poorly designed classrooms, insufficient time to master new software, and habitual ways of conceptualizing what and how students should learnall complicate efforts to help students use computers to construct meaning and represent their learning to others. Certainly, a professional development course is just one variable in a complex equation which has, as its solution, transformative teaching

Modeling Technology Integration

Presenter will provide

Competency level of technological pedagogical contents knowledge (TPCK) framework amongst graduate teachers

This article propose a framework for educational technology based on Shulman’s formulation of ‘‘pedagogical content knowledge’’ and extend it to the integration of technology into it. It attempts to capture some of the essential qualities of teacher knowledge required for technology integration in teaching. Briefly, that thoughtful pedagogical uses of technology require the development of a complex, situated form of knowledge that we call Technological Pedagogical Content Knowledge (TPCK). The TPCK framework has much to offer to discussions of technology integration at multiple levels: theoretical, pedagogical, and methodological as well as the complex roles of, and interplay among, three main components of learning environments: content, pedagogy, and technology