Course Design addresses elements of instructional design. For the purpose of this rubric, course design includes such elements as structure of the course, learning objectives, organization of content, and instructional strategies.
Interaction and Collaboration
Interaction denotes communication between and among learners and instructors, synchronously or asynchronously. Collaboration is a subset of interaction and refers specifically to those activities in which groups are working interdependently toward a shared result. This differs from group activities that can be completed by students working independently of one another and then combining the results, much as one would when assembling a jigsaw puzzle with parts of the puzzle worked out separately then assembled together. A learning community is defined here as the sense of belonging to a group, rather than each student perceiving himself/herself studying independently.
Assessment
Assessment focuses on instructional activities designed to measure progress toward learning outcomes, provide feedback to students and instructors, and/or enable grading or evaluation. This section addresses the quality and type of student assessments within the course.
Learner Support
Learner Support addresses the support resources made available to students taking the course. Such resources may be accessible within or external to the course environment. Learner support resources address a variety of student services.
As online education expands, students are bringing old-fashioned cheating into the digital age
According to the latest report from Babson Survey Research Group, nearly 6.5 million American undergraduates now take at least one course online
1. Listen to students and faculty. Every college, university, or online-learning provider has a different approach to online learning. At Indiana University, where more than 30 percent of students take at least one online course, the online education team has launched Next.IU, an innovative pilot program to solicit feedback from the campus community before making any major edtech decision. By soliciting direct feedback from students and faculty, institutions can avoid technical difficulties and secure support before rolling out the technology campus-wide.
2. Go mobile. Nine in 10 undergraduates own a smartphone, and the majority of online students complete some coursework on a mobile device. Tapping into the near-ubiquity of mobile computing on campus can help streamline the proctoring and verification process. Rather than having to log onto a desktop, students can use features like fingerprint scan and facial recognition that are already integrated into most smartphones to verify their identity directly from their mobile device.
For a growing number of students, mobile technology is the most accessible way to engage in online coursework, so mobile verification provides not only a set of advanced security tools, but also a way for universities to meet students where they are.
3. Learn from the data. Analytical approaches to online test security are still in the early stages. Schools may be more susceptible to online “heists” if they are of a certain size or administer exams in a certain way, but institutions need data to benchmark against their peers and identify pain points in their approach to proctoring.
In an initial pilot with 325,000 students, for instance, we found that cheating rose and fell with the seasons—falling from 6.62 percent to 5.49 percent from fall to spring, but rising to a new high of 6.65 percent during the summer.
Definition:
The HyFlex model gives students the choice to attend class in person or via synchronous remote stream and to make that choice on a daily basis. In other words, unlike online and hybrid models which typically have a fixed course structure for the entire semester, the HyFlex model does not require students to make a choice at the beginning of term and then stick with it whether their choice works for them or not; rather students are able to make different choices each day depending on what works best for them on that day (hence the format is “flexible”) (Miller and Baham, 2018, to be published in the Proceedings of the 10th International Conference on Teaching Statistics).
Definition from Horizon Report, HIgher Ed edition, 2014. p. 10 integration of Online Hybrid and Collaborative Learning
Definition from U of Arizona (https://journals.uair.arizona.edu/index.php/itet/article/view/16464/16485)
Beatty (2010) defines HyFlex courses to be those that “enable a flexible participation policy for students whereby students may choose to attend face-to-face synchronous class sessions or complete course learning activities online without physically attending class”
Online courses
Definition
Goette, W. F., Delello, J. A., Schmitt, A. L., Sullivan, J. R., & Rangel, A. (2017). Comparing Delivery Approaches to Teaching Abnormal Psychology: Investigating Student Perceptions and Learning Outcomes. Psychology Learning and Teaching, 16(3), 336–352. https://doi.org/10.1177/1475725717716624
p.2.Online classes are a form of distance learning available completely over the Internet with no F2F interaction between an instructor and students (Helms, 2014).
https://www.oswego.edu/human-resources/section-6-instructional-policies-and-procedures
An online class is a class that is offered 100% through the Internet. Asynchronous courses require no time in a classroom. All assignments, exams, and communication are delivered using a learning management system (LMS). At Oswego, the campus is transitioning from ANGEL to Blackboard, which will be completed by the Fall 2015 semester. Fully online courses may also be synchronous. Synchronous online courses require student participation at a specified time using audio/visual software such as Blackboard Collaborate along with the LMS.
Web-enhanced courses
Web enhanced learning occurs in a traditional face-to-face (f2f) course when the instructor incorporates web resources into the design and delivery of the course to support student learning. The key difference between Web Enhanced Learning versus other forms of e-learning (online or hybrid courses) is that the internet is used to supplement and support the instruction occurring in the classroom rather than replace it. Web Enhanced Learning may include activities such as: accessing course materials, submitting assignments, participating in discussions, taking quizzes and exams, and/or accessing grades and feedback.”
Blended/Hybrid Learning
Definition
Goette, W. F., Delello, J. A., Schmitt, A. L., Sullivan, J. R., & Rangel, A. (2017). Comparing Delivery Approaches to Teaching Abnormal Psychology: Investigating Student Perceptions and Learning Outcomes. Psychology Learning and Teaching, 16(3), 336–352. https://doi.org/10.1177/1475725717716624
p.3.
Helms (2014) described blended education as incorporating both online and F2F character- istics into a single course. This definition captures an important confound to comparing course administration formats because otherwise traditional F2F courses may also incorp- orate aspects of online curriculum. Blended learning may thus encompass F2F classes in which any course content is available online (e.g., recorded lectures or PowerPoints) as well as more traditionally blended courses. Helms recommended the use of ‘‘blended’’ over ‘‘hybrid’’ because these courses combine different but complementary approaches rather than layer opposing methods and formats.
Blended learning can merge the relative strengths of F2F and online education within a flexible course delivery format. As such, this delivery form has a similar potential of online courses to reduce the cost of administration (Bowen et al., 2014) while addressing concerns of quality and achievement gaps that may come from online education. Advantages of blended courses include: convenience and efficiency for the student; promotion of active learning; more effective use of classroom space; and increased class time to spend on higher- level learning activities such as cooperative learning, working with case studies, and discuss- ing big picture concepts and ideas (Ahmed, 2010; Al-Qahtani & Higgins, 2013; Lewis & Harrison, 2012).
Although many definitions of hybrid and blended learning exist, there is a convergence upon three key points: (1) Web-based learning activities are introduced to complement face-to-face work; (2) “seat time” is reduced, though not eliminated altogether; (3) the Web-based and face-to-face components of the course are designed to interact pedagogically to take advantage of the best features of each.
The amount of in class time varies in hybrids from school to school. Some require more than 50% must be in class, others say more than 50% must be online. Others indicate that 20% – 80% must be in class (or online). There is consensus that generally the time is split 50-50, but it depends on the best pedagogy for what the instructor wants to achieve.
definition
“Backchannel” is a mode of communication created by audience members to connect with other observers both inside and outside of the presentation space, with or without the speaker’s awareness (Atkinson, 2009).
ARS (or CRS) are[audience] response systems are instructional technologies that allow instructors to rapidly collect and analyze student responses to questions posed during class” (Bruff, 2009, p. 1)
Distance learning courses are indicated in the schedule of classes on BU Brain with an Instructional Method of Online Asynchronous (OA), Online Synchronous (OS), Online Combined (OC), or Online Hybrid (OH). Online Asynchronous courses are those in which the instruction is recorded/stored and then accessed by the students at another time. Online Synchronous courses are those in which students are at locations remote from the instructor and viewing the instruction as it occurs. Online Combined courses are those in which there is a combination of asynchronous and synchronous instruction that occurs over the length of the course. Online Hybrid courses are those in which there is both in-person and online (asynchronous and/or synchronous) instruction that occurs over the length of the course.
Over the past 10 years, new learning management systems (LMSs) have sprung on the scene to rival the Blackboards and Moodles of old. On the EdSurge Product Index alone, 56 products self-identify and fall into the LMS category. And with certain established companies like Pearson pulling out of the LMS ranks, where do you start?
As University of Central Florida’s Associate Vice President of Distributed Learning, Tom Cavanagh, wrote in an article for EDUCAUSE, “every institute has a unique set of instructional and infrastructure circumstances to consider when deciding on an LMS,” but at the same time, “all institutions face certain common requirements”—whether a small charter school, a private university or a large public school district.
The LMS Checklist
#1: Is the platform straightforward and user-friendly?
#2: Who do we want to have access to this platform, and can we adjust what they can see?
#3: Can the instructor and student(s) talk to and communicate with each other easily?
“Students and faculty live a significant portion of their daily lives online in social media spaces,” writes University of Central Florida’s Tom Cavanagh in his article on the LMS selection process. “Are your students and faculty interested in these sorts of interplatform connections?”
#5: Does this platform plug in with all of the other platforms we have?
“Given the pace of change and the plethora of options with educational technology, it’s very difficult for any LMS vendor to keep up with stand-alone tools that will always outperform built-in tools,” explains Michael Truong, executive director of innovative teaching and technology at Azusa Pacific University. According to Truong, “no LMS will be able to compete directly with tools like Piazza (discussion forum), Socrative (quizzing), EdPuzzle (video annotation), etc.”
As a result, Truong says, “The best way to ‘prepare’ for future technological changes is to go with an LMS that plays well with external tools.”
Austin, A., & Gustafson, L. (2006). Impact of Course Length on Student Learning. JOURNAL OF ECONOMICS AND FINANCE EDUCATION, 5(1), 26–37.
Condensed or time shortened semesters are becoming more common as more non-traditional students seek higher education. Many universities now offer full semester courses over two or three weekends. Also, inter semester courses of one to three weeks are also becoming popular as university administrators seek to find ways to increase student enrollments. While there is much anecdotal evidence that grades during summer semesters tend to be higher than during the fall semester, we must ask if condensed semester courses actually provide students with the same learning experience as a traditional 16-week semester?
Overall we find that there is a significant improvement from taking shorter courses that cannot be explained solely by student characteristics. Using a very large database and by using more robust models this study provides more definitive results than have been achieved in past studies. Compared to a sixteen week semester, there is an improvement at 8 weeks, 4 weeks, and 3 weeks. We also find that those benefits differ, peaking at four weeks. 10 This complements the results of Scott (2003) who finds that classroom relationships and classroom atmosphere are two important factors that explain why performance is better in intensive courses than the traditional format i.e. there is a better bond between teacher and student when they meet every day than just two or three times a week. While 4 week and 3 week sessions both meet daily, the three week session, with just 11 teaching days, may be to short a time span for that bond to fully develop. More importantly, we also find that the improved grades are not meaningless – they do reflect greater learning.11 We find that the grades given for a shortened intensive course have the same significantexplanatory power for future performance as those earned during a traditional 16 week semester. This combats the popular perception (among students anyway) that the bar is lowered in some manner during the shortened sessions. This is clearly not the case as we find no evidence of any correction for those grades. There are some obvious policy implications from this study. Universities wishing to maximize learning with limited resources might consider changing their course structure from predominately sixteen week to four week semesters, a more modular system. A full semester load (12 hours) can be taken in the same time (16 weeks) by taking a traditional semester, or 4 four weeks sessions. Both cases would involve the same amount of class time per week, and so the modular structure would place no additional burden on a student.
1. Technology that Increases Access Hits the Slow Lane
Innovations in videoconferencing and lecture capture technologies have allowed universities to provide flexible learning experiences to students no matter their location. However, if internet service providers are allowed to create “fast lanes” and “slow lanes” of access, experts worry these learning experiences will be in jeopardy. “slow lanes” of internet access could make it difficult for students to access cloud software or applications without hitting data caps.
2. Inhibit Ability to Research and Access Materials
a 40-page commentary to the FCC explaining how a repeal would hurt universities, eCampus News reports.
“Institutions of higher education and libraries depend upon an open internet to carry out their educational and civic missions, and to serve their communities,” reads the commentary.
“almost everything” relies on the internet in higher education. Students use it for research, to take courses and turn in assignments while faculty use it for research and to create lesson plans. Roberts says his library needs it to archive and preserve materials. Slower internet could inhibit research and access to library resources.
3. Increased Costs Without Increased Educational Experiences
high cost of attending a university might see a bump without net neutrality. slower internet access would actually degrade the quality of education offered for a higher cost.
A new report from the Learning House and Aslanian Market Research measures the opinions of 1,500 online students regarding everything from course satisfaction to study methods
institutions need to more clearly share the positive outcomes that come with completing degree and certificate programs online.”
online courses would be better if there was more contact and engagement.
The brain is actually three brains: the ancient reptilian brain, the limbic brain, and the cortical brain. This article will focus on the limbic brain, because it may be most important to successfully using interactive video or web-based video. The limbic brain monitors the external world and the internal body, taking in information through the senses as well as body temperature and blood pressure, among others. It is the limbic brain that generates and interprets facial expressions and handles emotions, while the cortical brain handles symbolic activities such as language as well as action and strategizing. The two interact when an emotion is sent from the limbic to the cortical brain and generates a conscious thought; in response to a feeling of fear (limbic), you ask, “what should I do?” (cortical).
The importance of direct eye contact and deciphering body language is also important for sending and picking up clues about social context.
The loss of social cues is important because it may affect the quality of the content of the presentation (by not allowing timely feedback or questions) but also because students may feel less engaged and become frustrated with the interaction, and subsequently lower their assessment of the class and the instructor (Reeves & Nass, 1996). Fortunately, faculty can provide such social cues verbally, once they are aware of the importance of helping students use these new media.
Attachment theory also supports the importance of physical and emotional connections.
As many a struggling teacher knows, students are often impervious to learning new concepts. They may replay the new information for a test, but after time passes, they revert to the earlier (and likely wrong) information. This is referred to as the “power of mental models.” As explained in Marchese (2000), when we view a tree, it is not as if we see the tree in our head, as in photography.
The coping strategies of the two hemispheres are fundamentally different. The left hemisphere’s job is to create a belief system or model and to fold new experiences into that belief system. If confronted with some new information that doesn’t fit the model, it relies on Freudian defense mechanisms to deny, repress or confabulate – anything to preserve the status quo. The right hemisphere’s strategy is to play “Devil’s Advocate,” to question the status quo and look for global inconsistencies. When the anomalous information reaches a certain threshold, the right hemisphere decides that it is time to force a complete revision of the entire model and start from scratch (Ramachandran & Blakeslee, 1998, p. 136).
While much hemispheric-based research has been repudiated as an oversimplification (Gackenbach, 1999), the above description of how new information eventually overwhelms an old world view may be the result of multiple brain functions – some of which work to preserve our models and others to alter – that help us both maintain and change as needed.
Self-talk is the “the root of empathy, understanding, cooperation, and rules that allow us to be successful social beings. Any sense of moral behavior requires thought before action” (Ratey, 2001, p. 255).
Healy (1999) argues that based on what we know about brain development in children, new computer media may be responsible for developing brains that are largely different from the brains of adults. This is because “many brain connections have become specialized for . . . media” (p. 133); in this view, a brain formed by language and reading is different from a brain formed by hypermedia. Different media lead to different synaptic connections being laid down and reinforced, creating different brains in youngsters raised on fast-paced, visually-stimulating computer applications and video games. “Newer technologies emphasize rapid processing of visual symbols . . . and deemphasize traditional verbal learning . . . and the linear, analytic thought process . . . [making it] more difficult to deal with abstract verbal reasoning” (Healy, 1999, p. 142).
At University of Wisconsin – Superior – we have stopped offering proctoring for students. Faculty, however, have come up with a way for online testing. They ask student to use Kaltura tto record their face and part of the test and then post the video in the dropbox.