02
Mar
2018
Mar
2018
3rd IMS vodcast promotion of Kannan’s presentation
categories: announcement
Third IMS vodcast: promotion of Kannan’s presentation on free tools
Kannan’s presentation on free tools available here:
Searching for "ebook"
27
Feb
2018
Feb
2018
discovery layers
Discovery Layers vs. the Traditional Catalog: e-Forum Summary
http://www.ala.org/alctsnews/features/e-forum-discovery-layers
Erika Johnson and Kristin E. Martin
by discovery layer, the moderators were referring to the variety of tools available to libraries that bring together article-level content, specialized databases, and the content traditionally found inside a library catalog (e.g., books and journal titles) into a single searchable index. Based on the survey, 67% of e-forum participants are using a discovery layer and 83% maintain this layer alongside the traditional catalog. During the e-forum participants identified a number of commercial systems in use at their libraries (Summon, Encore, EDS, WorldCat Discovery, Primo), as well as some customized or open-source products. Participants at some specialized and public libraries expressed opinions that discovery layers do not fit their institutional needs, either because of the lack of sophisticated searching or specialized content, or because of overemphasis on article content.
In academic libraries, discovery layers tend to be the preferred tool for undergraduates, while more advanced scholars (and some library staff) prefer the traditional library catalog for known items, additional search features, and more specialized content. Discussion about the different levels of user sophistication and varying research needs continued through the entire e-forum. One participant put the difference between searching in terms of recall versus precision. Discovery makes an ideal tool for quickly returning at least some relevant results—great for basic research—but often brings back a large number of irrelevant results in a huge set.
From a technical services perspective, discovery layers have led to changes in technical services operations.
Discovery systems are not one size fits all. Special collections librarians and consortial members shared some concerns about the way discovery systems display information.
Good Question! What is a Discovery Layer?
By Gwen Evans Executive Director, OhioLINK Thursday, January 16, 2014 – 9:50am
a discovery layer is a Google-like search across all library resources. In library language, a discovery layer is a searchable meta-index of library resources, usually including article-level metadata, e-book metadata, metadata from library catalogs, open access resource metadata, etc., and it includes a means of retrieving resources in the result set through linking technology.
Why is a discovery layer needed for libraries?
Without a discovery layer, users have to search many separate silos of information one by one – the library catalog for books and journals, publisher sites and individual ejournals in particular subjects for articles, and other specialized databases. Even for experienced users who know which databases and resources are likely to be most relevant to their needs, this is time-consuming and involves duplicating the same search over and over in different places. For novice users, or those who want a broad, interdisciplinary search, the initial choice of resource can be daunting and frustrating, unless users already know to ask their librarians for help. In addition, every database or resource interface is different – there are many similarities, but users have to learn different procedures and strategies for each information silo. While specialized interfaces deliver a lot of power for the advanced user, sometimes they can get in the way for other kinds of tasks.
Why not just use Google or another search engine?
Many library resources are difficult to find using search engines, even if a user is savvy enough to be using Google Scholar or Microsoft Academic Search instead of regular Google or Bing. In addition, almost all online library resources, such as full-text articles and ebooks, are most decidedly not free or open access – academic libraries pay quite a bit of money for them
++++++++++++
more on academic libraries in this IMS blog
https://blog.stcloudstate.edu/ims?s=academic+library
22
Feb
2018
Feb
2018
second IMS podcast on technology in education
Second IMS podcast on technology in education: Constructivism
Today’s vocast will be broadcasted live at:
Adobe Connect | Facebook Live | Twitter (#IMSvodcast) |
and will be archived at:
SCSU MediaSpace | YouTube (subscribe for the channel for future conversations)
Constructivism.
Student-centered learning theory and practice are based on the constructivist learning theory that emphasizes the learner’s critical role in constructing meaning from new information and prior experience.
- What is it?
- Why do we have to know about it
- Can we just disagree and stick to behaviorism?
- Is it about student engagement?
- Is it about the use of technology?
- Resources
- https://blog.stcloudstate.edu/ims/2014/06/28/constructivism-lecture-versus-project-based-learning/
https://blog.stcloudstate.edu/ims/2013/12/03/translating-constructivism-into-instructional-design-potential-and-limitations/
https://blog.stcloudstate.edu/ims/2016/03/28/student-centered-learning-literature-review/
https://blog.stcloudstate.edu/ims/2015/11/05/online-discussion-with-plovdiv-university/
https://blog.stcloudstate.edu/ims/2015/05/27/handbook-of-mobile-learning/
Crompton, Muilenburg and Berge’s definition for m-learning is “learning across multiple contexts, through social and content interactions, using personal electronic devices.” - The “context”in this definition encompasses m-learnng that is formalself-directed, and spontaneous learning, as well as learning that is context aware and context neutral.
- therefore, m-learning can occur inside or outside the classroom, participating in a formal lesson on a mobile device; it can be self-directed, as a person determines his or her own approach to satisfy a learning goal; or spontaneous learning, as a person can use the devices to look up something that has just prompted an interest (Crompton, 2013, p. 83). (Gaming article Tallinn)Constructivist Learnings in the 1980s – Following Piage’s (1929), Brunner’s (1996) and Jonassen’s (1999) educational philosophies, constructivists proffer that knowledge acquisition develops through interactions with the environment. (p. 85). The computer was no longer a conduit for the presentation of information: it was a tool for the active manipulation of that information” (Naismith, Lonsdale, Vavoula, & Sharples, 2004, p. 12)Constructionist Learning in the 1980s – Constructionism differed from constructivism as Papert (1980) posited an additional component to constructivism: students learned best when they were actively involved in constructing social objects. The tutee position. Teaching the computer to perform tasks.Problem-Based learning in the 1990s – In the PBL, students often worked in small groups of five or six to pool knowledge and resources to solve problems. Launched the sociocultural revolution, focusing on learning in out of school contexts and the acquisition of knowledge through social interaction
- Socio-Constructivist Learning in the 1990s. SCL believe that social and individual processes are independent in the co-construction of knowledge (Sullivan-Palinscar, 1998; Vygotsky, 1978).
- 96-97). Keegan (2002) believed that e-learning was distance learning, which has been converted to e-learning through the use of technologies such as the WWW. Which electronic media and tools constituted e-learning: e.g., did it matter if the learning took place through a networked technology, or was it simply learning with an electronic device?
- https://blog.stcloudstate.edu/ims/2014/06/28/constructivism-lecture-versus-project-based-learning/
- Discussion
- Share with us practical examples of applying constructivist approach in your class
- Would one hour workshop on turning existing class assignments into constructivist-based class assignments be of interest for you?
+++++++++++++++
https://blog.stcloudstate.edu/ims/2018/02/12/first-ims-podcast-on-technology-in-education/
19
Feb
2018
Feb
2018
React
React
In computing, React (sometimes styled React.js or ReactJS) is a JavaScript library[2] for building user interfaces.
It is maintained by Facebook, Instagram and a community of individual developers and corporations.[3][4][5]
React allows developers to create large web-applications that use data and can change over time without reloading the page. It aims primarily to provide speed, simplicity, and scalability. React processes only user interfaces in applications. This corresponds to View in the Model-View-Controller (MVC) pattern, and can be used in combination with other JavaScript libraries or frameworks in MVC, such as AngularJS.[6]
https://en.wikipedia.org/wiki/React_(JavaScript_library)
++++++++++++++
more on Java script in this IMS blog
https://blog.stcloudstate.edu/ims?s=java+script
19
Feb
2018
Feb
2018
challenges ed leaders technology
The Greatest Challenge Facing School Leaders in a Digital World
By Scott McLeod Oct 29, 2017
the Center for the Advanced Study of Technology Leadership in Education – CASTLE
Vision
If a school’s reputation and pride are built on decades or centuries of “this is how we’ve always done things here,” resistance from staff, parents, and alumni to significant changes may be fierce. In such institutions, heads of school may have to steer carefully between deeply ingrained habits and the need to modernize the information tools with which students and faculty work
Too often, when navigating faculty or parental resistance, school leaders and technology staff make reassurances that things will not have to change much in the classroom or that slow baby steps are OK. Unfortunately, this results in a different problem, which is that schools have now invested significant money, time, and energy into digital technologies but are using them sparingly and seeing little impact. In such schools, replicative uses of technology are quite common, but transformative uses that leverage the unique affordances of technology are quite rare.
many schools fail to proceed further because they don’t have a collective vision of what more transformative uses of technology might look like, nor do they have a shared understanding of and commitment to what it will take to get to such a place. As a result, faculty instruction and the learning experiences of students change little or not at all.
These schools have taken the time to involve all stakeholders—including students—in substantive conversations about what digital tools will allow them to do differently compared with previous analog practices. Their visions promote the potential of computing devices to facilitate all of those elements we now think of as essential 21st-century capacities: confidence, curiosity, enthusiasm, passion, critical thinking, problem-solving, and self-direction. Technology doesn’t simply support traditional teaching—it transforms it for deeper thinking and gives students more agency over their own learning.
Fear
Another prevalent issue preventing technology change in schools is fear—fear of change, of the unknown, of letting go of what we know best, of being learners again. But it’s also a fear of letting kids have wide access to the Internet with the possibility of cyberbullying, access to inappropriate material, and exposure to online predators or even excessive advertising. Fears, of course, need to be surfaced and addressed.
The fear drives some schools to ban cellphones, disallow students and faculty from using Facebook, and lock down Internet filters so tightly that useful websites are inaccessible. They prohibit the use of Twitter and YouTube, and they block blogs. Some educators see these types of responses as principled stands against the shortcomings and hassles of digital technologies. Others see them as rejections of the dehumanization of the education process by soulless machines. Often, however, it’s just schools clinging to the past and elevating what is comfortable or familiar over the potential of technology to help them better deliver on their school missions.
Heads of school don’t have to be skilled users themselves to be effective technology leaders, but they do have to exercise appropriate oversight and convey the message—repeatedly—that frequent, meaningful technology use in school is both important and expected. Nostalgia aside, there is no foreseeable future in which the primacy of printed text is not superseded by electronic text and multimedia. When nearly all information is digital or online, multi-modal and multimedia, accessed by mobile devices that fit in our pockets, the question should not be whether schools prepare students for a digital learning landscape, but rather how.
Control
Many educators aren’t necessarily afraid of technology, but they are so accustomed to heavily teacher-directed classrooms that they are leery about giving up control—and can’t see the value in doing so.
Although most of us recognize that mobile computers connected to the Internet may be the most powerful learning devices yet invented—and that youth are learning in powerful ways at home with these technologies—allowing students to have greater autonomy and ownership of the learning process can still seem daunting and questionable.
The “beyond” is particularly important. When we give students some voice in and choice about what and how they learn, we honor basic human needs for autonomy, we enhance students’ interest and engagement, and we truly actualize our missions of preparing lifelong learners.
The goal of instructional transformation is to empower students, not to disempower teachers. While instructor unfamiliarity with digital technologies, inquiry- or problem-based teaching techniques, or deeper learning strategies may result in some initial discomfort, these challenges can be overcome with robust support.
Support
A few workshops here and there rarely result in large-scale changes in implementation.
teacher-driven “unconferences” or “edcamps,” at which educators propose and facilitate discussion topics, can be powerful mechanisms for fostering professional dialogue and learning. Similarly, some schools offer voluntary “Tech Tuesdays” or “appy hours” to foster digital learning among interested faculty.
In addition to existing IT support, technology integration staff, or librarians/media specialists, some schools have student technology teams that are on call for assistance when needed.
A few middle schools and high schools go even further and assign teachers their own individual student technology mentors. These student-teacher pairings last all school year and comprise the first line of support for educators’ technology questions.
As teachers, heads of school, counselors, coaches, and librarians, we all now have the ability to participate in ongoing, virtual, global communities of practice.
Whether formal or informal, the focus of technology-related professional learning should be on student learning, not on the tools or devices. Independent school educators should always ask, “Technology for the purpose of what?” when considering the inclusion of digital technologies into learning activities. Technology never should be implemented just for technology’s sake.
++++++++++++
more on digital literacy for EDAD in this IMS blog
https://blog.stcloudstate.edu/ims?s=digital+literacy+edad
16
Feb
2018
Feb
2018
Python or R at SCSU
Dear Colleagues,
Software Carpentry (https://software-carpentry.org/about/) is coming to SCSU campus.
Want to learn basic computer programming skills specifically tailored for academia?
Please consider a FREE two-day workshop on either on Python or on R.
Python is a programming language that is simple, easy to learn for beginners and experienced programmers, and emphasizes readability. At the same time, it comes with lots of modules and packages to add to your programs when you need more sophistication. Whether you need to perform data analysis, graphing, or develop a network application, or just want to have a nice calculator that remembers all your formulas and constants, Python can do it with elegance. https://www.python.org/about/
R (RStudio) is a language and environment for statistical computing and graphics. R provides a wide variety of statistical and graphical techniques. R can produce well-designed publication-quality plots, including mathematical symbols and formulae. https://www.r-project.org/about.html
Both software packages are free and operate on MS Windows, MAC/Apple and GNU/Linux OS.
Besides seamless installation on your personal computer, you can access both software in SCSU computer labs or via SCSU AppsAnywhere.
https://appsanywhere.stcloudstate.edu/vpn/index.html
In an effort to accommodate as many faculty as possible, please indicate whether you want Python or R and check your availability using these Doodle polls:
Python
https://doodle.com/poll/fgf7mn5mze9knaps
R
https://doodle.com/poll/mzirw2nc4kfv9whs
Questions? Suggestions? Please do not hesitate to ask:
zliu@stcloudstate.edu
pmiltenoff@stcloudstate.edu
For more information:
https://blog.stcloudstate.edu/imshttps://blog.stcloudstate.edu/ims/2018/02/16/python-or-r-at-scsu/
https://www.facebook.com/InforMediaServices/
https://twitter.com/SCSUtechinstruc?lang=en #SoftwareCarpentry
12
Feb
2018
Feb
2018
smartphone detox
categories: announcement
Smartphone Detox: How To Power Down In A Wired World
February 12, 20185:03 AM ET
ALLISON AUBREYsays David Greenfield, a psychologist and assistant clinical professor of psychiatry at the University of Connecticut:When we hear a ding or little ditty alerting us to a new text, email or Facebook post, cells in our brains likely release dopamine — one of the chemical transmitters in the brain’s reward circuitry. That dopamine makes us feel pleasure
“It’s a spectrum disorder,” says Dr. Anna Lembke, a psychiatrist at Stanford University, who studies addiction. “There are mild, moderate and extreme forms.” And for many people, there’s no problem at all.
Signs you might be experiencing problematic use, Lembke says, include these:
- Interacting with the device keeps you up late or otherwise interferes with your sleep.
- It reduces the time you have to be with friends or family.
- It interferes with your ability to finish work or homework.
- It causes you to be rude, even subconsciously. “For instance,” Lembke asks, “are you in the middle of having a conversation with someone and just dropping down and scrolling through your phone?” That’s a bad sign.
- It’s squelching your creativity. “I think that’s really what people don’t realize with their smartphone usage,” Lembke says. “It can really deprive you of a kind of seamless flow of creative thought that generates from your own brain.”
Consider a digital detox one day a week
Tiffany Shlain, a San Francisco Bay Area filmmaker, and her family power down all their devices every Friday evening, for a 24-hour period.
“It’s something we look forward to each week,” Shlain says. She and her husband, Ken Goldberg, a professor in the field of robotics at the University of California, Berkeley, are very tech savvy.
A recent study of high school students, published in the journal Emotion, found that too much time spent on digital devices is linked to lower self-esteem and a decrease in well-being.
+++++++++++
more on contemplative computing in this IMS blog
https://blog.stcloudstate.edu/ims?s=contemplative+computing
12
Feb
2018
Feb
2018
first IMS podcast on Technology in Education
categories: announcement
Welcome to our Technology in Education weekly sessions (vodcasts)
archived session here: https://blog.stcloudstate.edu/ims/view-podcasts/
Every week, we will be presenting you in a short 5 min session with topics of your interest.
We will be providing you with information and giving you the podium to share your solutions.
This information will be broadcasted and archived via multiple channels:
The SCSU MediaSpace | On the Facebook IMS page | Twitter (#IMSvodcast) | YouTube
You can participate during the live session via
Adobe Connect: https://webmeeting.minnstate.edu/scsuteched,
Facebook and Twitter
Here is a Google form, where you can share your topics requests, issues and solutions.
- Adobe connect
- Mediaspace:
- Youtube (subscribe)
- Facebook live (subscribe / like)
04
Feb
2018
Feb
2018
brain research distance ed
The Implications of Brain Research for Distance Education
Katrina A. Meyer
Assistant Professor, Department of Educational Leadership
University of North Dakota
katrina_meyer@und.nodak.edu
posted on FB in 2013 https://www.facebook.com/plamen.miltenoff/posts/10100455869591041
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).
++++++++++++++++
more on distance ed in this IMS blog
https://blog.stcloudstate.edu/ims?s=distance+education
03
Feb
2018
Feb
2018
Geoffrey Hinton AR
categories: information technology
The AI superstars at Google, Facebook, Apple—they all studied under this guy