Search results
1 – 10 of 82
Ziboud Van Veldhoven and Jan Vanthienen
Digital transformation (DT) projects are complex and often unsuccessful. While researchers have suggested many guidelines and best practices on how to successfully roll out DT…
Abstract
Purpose
Digital transformation (DT) projects are complex and often unsuccessful. While researchers have suggested many guidelines and best practices on how to successfully roll out DT projects and how they are spread among a large number of scientific papers. The aim of this paper is to synthesize these guidelines into clear overviews.
Design/methodology/approach
A systematic literature review was conducted on both Scopus and Web of Science to search for papers suggesting DT guidelines or best practices. In total, 150 papers dealing with DT and guidelines were fully analyzed.
Findings
Eight main DT guidelines were found and each one was expanded with several best practices on how to implement these. The results are eight tables giving an overview of the commonly agreed-upon best practices for each DT guideline.
Research limitations/implications
These overviews are useful for both researchers and practitioners, to guide future work and to be inspired respectively. This paper calls for more research on how these guidelines are followed in practice, how these differ per industry and what their impact is on the overall success of DT projects.
Originality/value
The synthesis of DT guidelines organized into an accessible format has not yet been conducted before, and can serve as a seminal pinpoint for future research.
Details
Keywords
Thomas Chandy Varkey, John A. Varkey, Jack B. Ding, Philip K. Varkey, Colton Zeitler, Anne M. Nguyen, Zachary I. Merhavy and Charles Ryan Thomas
The purpose of this paper is to create a “go-to-guide” of best practices in the creation of asynchronous courses. Due to the global pandemic, millions of students around the world…
Abstract
Purpose
The purpose of this paper is to create a “go-to-guide” of best practices in the creation of asynchronous courses. Due to the global pandemic, millions of students around the world transitioned from in-class instruction to online programs, which ranged from completely synchronous classrooms to completely asynchronous classrooms. Students were forced to learn how to engage within an online classroom environment with minimal notice and instructors were abruptly thrusted into a different operational environment, with many required to construct educational ecosystems in an unfamiliar and digitized interface. This led to several actions and the utilization of a multitude of different teaching techniques, many of which were poorly implemented.
Design/methodology/approach
Key words, “Asynchronous learning”, “Learning”, “Feedback”, “Online Instruction”, and “Classroom Design” were searched in online data bases (Google Scholar, PubMed, EBSCO and Data Base of Open Access Journals). These then were read by the authorial team and authoritative papers were selected by the team based on the frequency of utilization by other papers in the field and the utility of these papers for the design of asynchronous courses.
Findings
This paper explores asynchronous learning from the perspective of how instructional science and learning science can be applied to create the best classroom for both pupil and instructor.
Originality/value
It looks to provide a go-to-guide for best practices in asynchronous learning and the development of K-12 classrooms, graduate and medical school classrooms and finally continuous medical education classrooms. Finally, this guide looks to facilitate the development of master instructors through statements on how to properly provide feedback to students.
Details