To help improve understanding of BYOD and its impacts on modern network environments, this white paper will further explore the many differences that exist between corporate and educational approaches to the technology.
In the education space, dealing with non-standard, user-managed devices has been and still remains the norm. Unfortunately, the variety of devices means a multitude of operating systems and software are encountered, with many “standards” being defined. As a result there is little consistency in the device type or the software being installed. Since the device is owned by the student and is a personal resource, it is often difficult or impossible to enforce a policy that prevents users from installing software. In addition, due to the nature of learning as opposed to a corporate environment, it is also difficult to put a restriction on certain classes of software since all may provide a worthwhile educational purpose.
providing a solution that unifies management and deployment polices across both wired and wireless devices is very desirable.
The Internet of Everything (IoE) has spurred a revolution in mobility. Collaboration anywhere, anytime and with any device is quickly becoming the rule instead of the exception. As a result it is now common for students to bring mobile devices such as smartphones, tablets and e-readers into the academic environment to support their educational endeavors.
The infrastructure supporting BYOD no longer has the sole purpose of providing a wireless radio signal within a given area. The focus is now about providing the appropriate bandwidth and quality to accommodate the ever-growing number of devices and ensure that an application provides a good end-user experience. In a sense, applications are now the major driving force behind the continuing evolution of BYOD. For example, a teacher accessing video in the classroom for educational purposes during class hours should have greater priority than a student in the same area accessing a gaming site for recreation.
A state-of-the-art BYOD infrastructure should now be capable of providing more than just generic, general-purpose wireless connectivity. In the classroom environment, the notion of “differentiated access” often resonates with faculty and staff. Once this has been determined, a policy can be applied to the user and their activity on the network.
Granular security can also be intelligently delivered.
Quality of Service (QoS) rate limiting has been available for some time, but now there are newer QoS techniques available.
Location-based services can provide their first interaction with the university. By delivering campus maps and directional information, location-enabled services can enhance the experience of these visitors and provide a positive image to them as well. As a visitor enters a particular building location, information could automatically be provided. In the case of a visiting student, information about the history of a building, departments contained within the building, or other resources could be presented to enhance a guided tour, or provide the perspective student the ability to have a self-directed tour of the campus facilities.
Recently, ED/IES SBIR announced its 2015 awards. There are 21 awards in all, covering a range of topics and forms of technology. For example, Zaption is designing a mobile app to help teachers integrate video into science instruction; Speak Agent is building an app to help students with speech disabilities to communicate; and Lingo Jingo is developing a platform to help teachers guide English learners. (To view short video demos of the eight new Phase II projects, see this playlist.)
The 2015 awards highlight two trends that have emerged in the ED/IES SBIR portfolio in recent years –games for learning and bridging the research-to-practice gap in education.
Trend #1: Games for Learning
Strange Loop Games to build a virtual world to engage students in learning about ecosystems,
Kiko Labs to develop mini games to strengthen young children’s thinking and memory skills, and
Schell Games to create a futuristic “ball and stick” molecular modeling kit and app to augment chemistry learning.
For a playlist including videos of these games and 19 others out of the ED/IES SBIR program, see here.
The games for learning trend echoes the movement surrounding games in the field, and is highlighted by recent ED sponsored events including ED Games Week in Washington, DC, last September and the Games for Learning Summit in New York City, in April. Both events convened stakeholders to showcase games and discuss the potential barriers and opportunities for collaboration necessary to accelerate the creation of highly effective games for learning. Stay tuned for more information and initiatives on games for learning out of ED’s Office of Technology.
Trend #2: Bridging the Research-to-Practice Gap
Mindset Works, which built on results from prior research including a 2002 IES research grant, to successfully propose a 2010 ED/IES SBIR project to develop SchoolKit. This multimedia platform enables broad distribution of the growth mindset intervention which teaches students to understand that intelligence can be developed through effort and learning. SchoolKit is now in use in more than 500 schools across the country, including half the middle schools in Washington, DC.
Learning Ovationsis building on two prior IES research grants in their 2014 ED/IES SBIR project. The prior IES funding supported the research team as they developed and evaluated an intervention to improve children’s reading outcomes,. This award is supporting the development of an implementation platform to enable large-scale use of this evidence-based intervention across settings. The project is scheduled to end in 2016, after which the platform will be launched.
The new ED/IES SBIR 2015 awards continue the research-to-practice trend. An award to Foundations in Learning furthers basic research from a 2013 National Science Foundation grant (NSF); an award to SimInsights builds on 2005 and 2008IES research projects and a 2011 Defense Advanced Research Project Agency (DARPA) research project; and an award to Apprendris advances a prior 2012 IES research project and prior 2010 and 2013 NSF research projects.
Tumbleson, B. E., & Burke, J. (. J. (2013). Embedding librarianship in learning management systems: A how-to-do-it manual for librarians. Neal-Schuman, an imprint of the American Library Association.
Kvenild, C., & Calkins, K. (2011). Embedded Librarians: Moving Beyond One-Shot Instruction – Books / Professional Development – Books for Academic Librarians – ALA Store. ACRL. Retrieved from http://www.alastore.ala.org/detail.aspx?ID=3413
xi. the authors are convinced that LMS embedded librarianship is becoming he primary and most productive method for connecting with college and university students, who are increasingly mobile.
xii. reference librarians engage the individual, listen, discover what is wanted and seek to point the stakeholder in profitable directions.
Instruction librarians, in contrast, step into the classroom and attempt to lead a group of students in new ways of searching wanted information.
Sometimes that instruction librarian even designs curriculum and teaches their own credit course to guide information seekers in the ways of finding, evaluating, and using information published in various formats.
Librarians also work in systems, emerging technologies, and digital initiatives in order to provide infrastructure or improve access to collections and services for tend users through the library website, discovery layers, etc. Although these arenas seemingly differ, librarians work as one.
xiii. working as an LMS embedded librarian is both a proactive approach to library instruction using available technologies and enabling a 24/7 presence.
1. Embeddedness involves more that just gaining perspective. It also allows the outsider to become part of the group through shared learning experiences and goals. 3. Embedded librarianship in the LMS is all about being as close as possible to where students are receiving their assignments and gaining instruction and advice from faculty members. p. 6 When embedded librarians provide ready access to scholarly electronic collections, research databases, and Web 2.0 tools and tutorials, the research experience becomes less frustrating and more focused for students. Undergraduate associate this familiar online environment with the academic world.
p. 7 describes embedding a reference librarian, which LRS reference librarians do, “partnership with the professor.” However, there is room for “Research Consultations” (p. 8). While “One-Shot Library Instruction Sessions” and “Information Literacy Credit Courses” are addressed (p. 809), the content of these sessions remains in the old-fashioned lecturing type of delivering the information.
p. 10-11. The manuscript points out clearly the weaknesses of using a Library Web site. The authors fail to see that the efforts of the academic librarians must go beyond Web page and seek how to easy the information access by integrating the power of social media with the static information residing on the library web page.
p. 12 what becomes disturbingly clear is that faculty focus on the mechanics of the research paper over the research process. Although students are using libraries, 70 % avoid librarians. Urging academic librarians to “take an active role and initiate the dialogue with faculty to close a divide that may be growing between them and faculty and between them and students.”
Four research context with which undergraduates struggle: big picture, language, situational context and information gathering.
p. 15 ACRL standards One and Three: librarians might engage students who rely on their smartphones, while keeping in mind that “[s]tudents who retrieve information on their smartphones may also have trouble understanding or evaluating how the information on their phone is ‘produced, organized, and disseminated’ (Standard One). Standard One by its definition seems obsolete. If information is formatted for desktops, it will be confusing when on smart phones, And by that, it is not mean to adjust the screen size, but change the information delivery from old fashioned lecturing to more constructivist forms. e.g. http://web.stcloudstate.edu/pmiltenoff/bi/
p. 15 As for Standard Two, which deals with effective search strategies, the LMS embedded librarian must go beyond Boolean operators and controlled vocabulary, since emerging technologies incorporate new means of searching. As unsuccessfully explained to me for about two years now at LRS: hashtag search, LinkedIn groups etc, QR codes, voice recognition etc.
p. 16. Standard Five. ethical and legal use of information.
p. 23 Person announced in 2011 OpenClass compete with BB, Moodle, Angel, D2L, WebCT, Sakai and other
p. 24 Common Features: content, email, discussion board, , synchronous chat and conferencing tools (Wimba and Elluminate for BB)
p. 31 information and resources which librarians could share via LMS
– post links to dbases and other resources within the course. LIB web site, LibGuides or other subject-related course guidelines
– information on research concepts can be placed in a similar fashion. brief explanation of key information literacy topics (e.g difference between scholarly and popular periodical articles, choosing or narrowing research topics, avoiding plagiarism, citing sources properly whining required citations style, understanding the merits of different types of sources (Articles book’s website etc)
– Pertinent advice the students on approaching the assignment and got to rheank needed information
– Tutorials on using databases or planning searches step-by-step screencast navigating in search and Candida bass video search of the library did you a tour of the library
p. 33 embedded librarian being copied on the blanked emails from instructor to students.
librarian monitors the discussion board
p. 35 examples: students place specific questions on the discussion board and are assured librarian to reply by a certain time
instead of F2F instruction, created a D2L module, which can be placed in any course. videos, docls, links to dbases, links to citation tools etc. Quiz, which faculty can use to asses the the students
p. 36 discussion forum just for the embedded librarian. for the students, but faculty are encouraged to monitor it and provide content- or assignment-specific input
video tutorials and searching tips
Contact information email phone active IM chat information on the library’s open hours
p. 37 questions to consider
what is the status of the embedded librarian: T2, grad assistant
p. 41 pilot program. small scale trial which is run to discover and correct potential problems before
One or two faculty members, with faculty from a single department
Pilot at Valdosta State U = a drop-in informatil session with the hope of serving the information literacy needs of distance and online students, whereas at George Washington U, librarian contacted a distance education faculty member to request embedding in his upcoming online Mater’s course
p. 43 when librarians sense that current public services are not being fully utilized, it may signal that a new approach is needed.
pilots permit tinkering. they are all about risk-taking to enhance delivery
p. 57 markeing LMS ebedded Librarianship
library collections, services and facilities because faculty may be uncertain how the service benefits their classroom teaching and learning outcomes. my note per
“it is incumbent upon librarians to promote this new mode of information literacy instruction.” it is so passe. in the times when digital humanities is discussed and faculty across campus delves into digital humanities, which de facto absorbs digital literacy, it is shortsighted for academic librarians to still limit themselves into “information literacy,” considering that lip service is paid for for librarians being the leaders in the digital humanities movement. If academic librarians want to market themselves, they have to think broad and start with topics, which ARE of interest for the campus faculty (digital humanities included) and then “push” their agenda (information literacy). One of the reasons why academic libraries are sinking into oblivion is because they are sunk already in 1990-ish practices (information literacy) and miss the “hip” trends, which are of interest for faculty and students. The authors (also paying lip services to the 21st century necessities), remain imprisoned to archaic content. In the times, when multi (meta) literacies are discussed as the goal for library instruction, they push for more arduous marketing of limited content. Indeed, marketing is needed, but the best marketing is by delivering modern and user-sought content.
the stigma of “academic librarians keep doing what they know well, just do it better.” Lip-services to change, and life-long learning. But the truth is that the commitment to “information literacy” versus the necessity to provide multi (meta) literacites instruction (Reframing Information Literacy as a metaliteracy) is minimizing the entire idea of academic librarians reninventing themselves in the 21st century.
Here is more: NRNT-New Roles for New Times
p. 58 According to the Burke and Tumbleson national LMS embedded librarianship survey, 280 participants yielded the following data regarding embedded librarianship:
traditional F2F LMS courses – 69%
online courses – 70%
hybrid courses – 54%
undergraduate LMS courses 61%
graduate LMS courses 42%
of those respondents in 2011, 18% had the imitative started for four or more years, which place the program in 2007. Thus, SCSU is almost a decade behind.
my note:
library blog was offered numerous times to the LRS librarians and, consequently to the LRS dean, but it was brushed away, as were brushed away the proposals for modern institutional social media approach (social media at LRS does not favor proficiency in social media but rather sees social media as learning ground for novices, as per 11:45 AM visit to LRS social media meeting of May 6, 2015). The idea of the blog advantages to static HTML page was explained in length, but it was visible that the advantages are not understood, as it is not understood the difference of Web 2.0 tools (such as social media) and Web 1.0 tools (such as static web page). The consensus among LRS staff and faculty is to keep projecting Web 1.0 ideas on Web 2.0 tools (e.g. using Facebook as a replacement of Adobe Dreamweaver: instead of learning how to create static HTML pages to broadcast static information, use Facebook for fast and dirty announcement of static information). It is flabbergasting to be rejected offering a blog to replace Web 1.0 in times when the corporate world promotes live-streaming (http://www.socialmediaexaminer.com/live-streaming-video-for-business/) as a way to promote services (academic librarians can deliver live their content)
p. 59 Marketing 2.0 in the information age is consumer-oriented. Marketing 3.0 in the values-driven era, which touches the human spirit (Kotler, Katajaya, and Setiawan 2010, 6).
The four Ps: products and services, place, price and promotion. Libraries should consider two more P’s: positioning and politics.
Mathews (2009) “library advertising should focus on the lifestyle of students. the academic library advertising to students today needs to be: “tangible, experiential, relatebale, measurable, sharable and surprising.” Leboff (2011, p. 400 agrees with Mathews: the battle in the marketplace is not longer for transaction, it is for attention. Formerly: billboards, magazines, newspapers, radio, tv, direct calls. Today: emphasize conversation, authenticity, values, establishing credibility and demonstrating expertise and knowledge by supplying good content, to enhance reputation (Leboff, 2011, 134). translated for the embedded librarians: Google goes that far; students want answers to their personal research dillemas and questions. Being a credentialed information specialist with years of experience is no longer enough to win over an admiring following. the embedded librarian must be seen as open and honest in his interaction with students.
p. 60 becoming attractive to end-users is the essential message in advertising LMS embedded librarianship. That attractivness relies upon two elements: being noticed and imparting values (Leboff, 2011, 99)
p. 61 connecting with faculty
p. 62 reaching students
attending a synchronous chat sessions
watching a digital tutorial
posting a question in a discussion board
using an instant messaging widget
be careful not to overload students with too much information. don’t make contact too frequently and be perceived as an annoyance and intruder.
p. 65. contemporary publicity and advertising is incorporating storytelling. testimonials differ from stories
p. 66 no-cost marketing. social media
low-cost marketing – print materials, fliers, bookmarks, posters, floor plans, newsletters, giveaways (pens, magnets, USB drives), events (orientations, workshops, contests, film viewings), campus media, digital media (lib web page, blogs, podcasts, social networking cites
p. 69 Instructional Content and Instructional Design
p. 70 ADDIE Model
Analysis: the requirements for the given course, assignments.
Ask instructors expectations from students vis-a-vis research or information literacy activities
students knowledge about the library already related to their assignments
which are the essential resources for this course
is this a hybrid or online course and what are the options for the librarian to interact with the students.
due date for the research assignment. what is the timeline for completing the assignment
when research tips or any other librarian help can be inserted
copy of the syllabus or any other assignment document
p. 72 discuss the course with faculty member. Analyze the instructional needs of a course. Analyze students needs. Create list of goals. E.g.: how to find navigate and use the PschInfo dbase; how to create citations in APA format; be able to identify scholarly sources and differentiate them from popular sources; know other subject-related dbases to search; be able to create a bibliography and use in-text citations in APA format
p. 74 Design (Addie)
the embedded component is a course within a course. Add pre-developed IL components to the broader content of the course. multiple means of contact information for the librarians and /or other library staff. link to dbases. link to citation guidance and or tutorial on APA citations. information on how to distinguish scholarly and popular sources. links to other dbases. information and guidance on bibliographic and in-text citations n APA either through link, content written within the course a tutorial or combination. forum or a discussion board topic to take questions. f2f lib instruction session with students
p. 76 decide which resources to focus on and which skills to teach and reinforce. focus on key resources
p. 77 development (Addie).
-building content;the “landing” page at LRS is the subject guides page. resources integrated into the assignment pages. video tutorials and screencasts
-finding existing content; google search of e.g.: “library handout narrowing topic” or “library quiz evaluating sources,” “avoiding plagiarism,” scholarly vs popular periodicals etc
-writing narrative content. p. 85
p. 87 Evaluation (Addie)
formative: to change what the embedded librarian offers to improve h/er services to students for the reminder of the course
summative at the end of the course:
p. 89 Online, F2F and Hybrid Courses
p. 97 assessment impact of embedded librarian.
what is the purpose of the assessment; who is the audience; what will focus on; what resources are available
p. 98 surveys of faculty; of students; analysis of student research assignments; focus groups of students and faculty
From: The EDUCAUSE Blended and Online Learning Constituent Group Listserv [mailto:BLEND-ONLINE@LISTSERV.EDUCAUSE.EDU] On Behalf Of Robert Tousignant Sent: Thursday, April 9, 2015 1:41 PM To:BLEND-ONLINE@LISTSERV.EDUCAUSE.EDU Subject: Re: [BLEND-ONLINE] Faculty Involvement in LMS Selection
I’ve been reviewing this thread and thought I’d introduce a new player… Schoology is getting the attention of the analyst community and gobbling up the SIIA Codie awards for best learning platform the last couple of years. (Please note, I am not an impartial observer and I do a horse in the race)
The attached document includes information that will explain a new paradigm for evaluating an LMS that we see being adopted more and more – a move from a focus on utility (features and functions) to one focused standards, interoperability and the user experience (UI/UX).
Feel free to reach out directly if I can be of assistance.
These days, I tend to favor LMS Review/Selection initiatives that take one to two years to complete, but as always, it depends on the institution, its readiness to spec the needs of their faculty/students and evaluate viable options, as well as the campus resources available to nurture a possible smooth LMS platform transition. I like pointing out to the well-executed recent LMS selection initiatives carried out by UCF, Northwestern, Indiana, Harvard and Dartmouth, although there are many others.
*** Attend the FACULTY SUMMER INSTITUTE :: Wed-Fri May 27-29 at Urbana-Champaign
#pedagogy #BlendedLearning #classroom #teaching #OnlineLearning #EdTech http://go.illinois.edu/facultysummerinstitute
_____________________________
From: Hap Aziz <hapaziz@gmail.com>
Sent: Thursday, April 9, 2015 12:30 PM
Subject: Re: [BLEND-ONLINE] Faculty Involvement in LMS Selection
To: <blend-online@listserv.educause.edu>
That’s sounds like a similar timeframe to what we had at UB when we moved from Blackboard to Canvas. While LTI didn’t not play a large role in the decision-making process as we changed our LMS, it is now a central consideration as we look to acquire any new app functionality for our learning environment.
I’m setting up an area in the IMS forum area for LTI policy discussion. I’ll share that location with the group shortly so we can take some of the in-the-weeds discussion offline here.
The selection process started in January of 2013 and the task force voted at the end of May of 2013 unanimously for Canvas so about 5 months. By October we started training faculty in preparation for the Spring 2014 semester what was amazing about our transition to Canvas was that we had everyone moved out of ANGEL by start of Summer 14 so we only had 1 semester where we were supporting both ANGEL and Canvas. The use of LTI integrations and Canvas makes our jobs a lot easier to support the various tools that faculty are adopting for their classes – it also makes it a lot easier for faculty to integrate other technologies and keep them in the LMS or have single sign on so it is more seamless for students.
CONFIDENTIALITY: This email (including any attachments) may contain confidential, proprietary and privileged information, and unauthorized disclosure or use is prohibited. If you received this email in error, please notify the sender and delete this email from your system. Thank you.
From: The EDUCAUSE Blended and Online Learning Constituent Group Listserv [mailto:BLEND-ONLINE@LISTSERV.EDUCAUSE.EDU] On Behalf Of Hap Aziz Sent: Tuesday, April 07, 2015 7:09 PM To:BLEND-ONLINE@LISTSERV.EDUCAUSE.EDU Subject: Re: [BLEND-ONLINE] Faculty Involvement in LMS Selection
Hey, Sam, long time no see! Do you know about how long your whole selection process took? Also, does LTI conformance make your job with academic technology more straightforward to deal with?
I am at San Juan College and we also recently went through the selection process for a new LMS and like others who have commented switched to Canvas (from ANGEL). We ended up with a selection team that was primarily faculty, a couple students, and a handful of technology staff that reviewed the various LMSs and then made our final decision. If you would like I can get you the contact information for the faculty who assisted on the selection team.
CONFIDENTIALITY: This email (including any attachments) may contain confidential, proprietary and privileged information, and unauthorized disclosure or use is prohibited. If you received this email in error, please notify the sender and delete this email from your system. Thank you.
From: The EDUCAUSE Blended and Online Learning Constituent Group Listserv [mailto:BLEND-ONLINE@LISTSERV.EDUCAUSE.EDU] On Behalf Of Noval, JeJe (LLU) Sent: Wednesday, April 01, 2015 9:25 PM To:BLEND-ONLINE@LISTSERV.EDUCAUSE.EDU Subject: [BLEND-ONLINE] Faculty Involvement in LMS Selection
Hello Colleagues,
Were any of you, faculty members, involved in the learning management selection process of your educational institution? If so, would it be possible to interview you in the future for a research study?
Best,
JeJe Noval, MS, RD
Assistant Professor
Loma Linda University
Based on the literature regarding games, gaming, gamification, game-based learning, and serious games, several clear trends emerge:
Gaming and gamification in the sense of game-based learning is about using games and game-like tactics in the education process, for greater engagement and better learning outcomes. However, this is only the first level of such initiative. The second and higher level is about involving students in the game-building and gamification of the learning process (as per Vygotsky’s Zone of…) thus achieving student-centered and experiential learning.
When hosting games and gaming in any library, “in-person” or electronic/online games are welcome but not sufficient to fulfill their promise, especially in an academic library. Per (1), an academic library has the responsibility to involve students and guide them in learning how to engage in the building process required in true game-based learning.
Game-based learning, gaming and gamification in particular, in educational (academic library) settings must consider mobile devices and the BYOD movement in particular as intrinsic parts of the entire process. Approaching the initiative primarily by acquiring online “in-person” games, or game consoles has the same limited educational potential as only hosting games, rather than elevating the students to full guided engagement with game-based learning. If public relations and raised profile are the main goals for the academic library, such an approach is justified. If the academic library seeks to maximize the value of game-based learning, then the library must consider: a. gaming consoles, b. mobile devices as part of a BYOD initiative and c. cloud-based / social games, such as MineCraft, SimCity etc.
Design for game-based learning, gaming and gamification in educational (academic library) settings must include multiple forms of assessment and reward, e.g. badges, leaderboards and/or certificates as an intrinsic part of the entire process. Merely hosting games in the academic library cannot guarantee true game-based learning. The academic library, as the forefront of a game-based learning initiative on campus, must work with faculty on understanding and fine tuning badges and similar new forms of assessment and reward, as they effectively implement large scale game-based learning, focused on the students’ learning gains.
Recommendations for LRS
In regard to LRS, the gaming and gamification process must be organized and led by faculty, including housing and distributing the hardware, software and applications, when needed.
The attached paper and the respective conclusions summarized in four points demand educational and experiential background, which is above the limits of the LRS staff. In addition, the LRS staff has clearly admitted that the pedagogical value of gaming and gamification is beyond their interest. This recommendation is not contradicting to the fact and opportunity for LRS staff to participate in the process and contribute to the process; it just negates the possibility of staff mandating and leading the process, since it will keep the gaming and gamification process on a very rudimentary level.
The process must be further led by faculty with a terminal degree in education (Ph.D.) and experience in the educational field, since, as proved by the attached paper and 4 point conclusion, the goal is not a public-library type of hosting activities, but rather involving students in a pedagogically-sound creative process, with the respective opportunity for assessment and future collaboration with instructors across campus. This recommendation is not contradicting the fact and opportunity for LRS library faculty to participate actively in the process and contribute to the process. It just safeguards from restricting the process to the realm of “public-library” type of hosting activities, but failing to elevate them to the needs of an academic campus and connecting with instructors across campus.
This conclusions adhere to and are derived from the document recommended by the LRS dean, discussed and accepted by LRS faculty in 2013 about new trends and directions in academic libraries, namely diversification of LRS faculty; breaking from the traditional library mold of including faculty from different disciplines with different opinions and ideas.
Digital Portfolios: Facilitating Authentic Learning and Cultivating Student Ownership
presented on Tuesday, March 3, 2015.
Steve Zimmerman (charter school director), New York
digital porfolio software: open source. Google Sites – free, but too laborious for teachers
must be student owned and intuitive interface (you cannot say this about MN eFolio)
assessment rubrics
easy sharing and feedback
accessible form mobile devices (you cannot say this about MN eFolio)
easy integration with other applications (you cannot say this about MN eFolio)
Tina Holland
she is not a test person. good for her.
writing, critical thinking, creative thinking, soft skills (communication, collaboration, negotiation). team players, problme solvers, prioritize,
education is moving from traditional teaching methods, to inquiry based. self-directed learning. from summative to formative assessment
Garry’s Mod(GMod) is a sandbox game like Minecraft but instead of building and exploring, students use a fun physics engine that simulates things like gravity and mass. They also use a virtual toy box of assets from Valve Software’s popular games. The tool is a step up in complexity from the elegant simplicity of Minecraft, but with Garry’s Mod,students are exposed to physics concepts while having madcap fun.
Kerbal Space Program has a robust physics engine too, but it’s more focused than Garry’s Mod. Players purchase rocket parts, put them together, and then see if they can get a ship into orbit, to one of two moons, or even to another planet. These aren’t easy tasks, so play is focused on trial and error testing, and, like Minecraft, seeking help from the community is part of a successful strategy.
Sound Shapesis a visually stunning platform puzzle game set to a rich musical soundscape. Even better: students can create and share their own levels – like interactive sheet music — using sounds and objects unlocked by playing the platform game. It’s an accessible entry point into musical composition as well as game design, and provides an experience that builds on the creativity of Minecraft while offering something wholly unique for music lovers.
For creative kids who want to get their hands dirty, check out DIY, a site where students can find things to build, instructions for how to build them, and ways to share their creations with others. All projects are aligned to 50 skills that run the gamut from outdoors to indoors, and feature various challenges to complete and cool badges to earn and display.
Computer programming is a great next step for students who love to mod Minecraft or toy around with the redstone resource (which simulates basic logic and circuitry). One solid entry-level tool is Stencyl, a game creation program focused on codeless, cross-platform game making. By snapping blocks of code together, students can create games that can be published and played on a variety of platforms including mobile phones.
Codecademy is a web-based, self-paced site that teaches actual industry-standard languages like PHP, Javascript, Python, Ruby, HTML, and CSS. While students don’t create publishable games like they would in Stencyl, their learning is purpose-driven and contextualized, e.g. JavaScript for web development or Ruby for app development. And students do get to see their code’s output directly onscreen.
Minecraft has introduced a lot of youth to games as well as the critical thinking, problem solving, and creation skills necessary for self-motivated learning. The games and sites on this list have the potential to extend that learning, providing fresh outlets for self-expression in the digital world and beyond.
Since the emergence of easily accessible dynamic online mapping tools, there has been a drastic increase in geographic interest and awareness. Whether for personal, social, professional or academic uses, people are using Geographic Information System (GIS) technology to communicate information in a map format. Whether it’s using Google Earth to study urban change, or creating Google Map Mashups to deliver library resources, more and more members of society are turning to mapping programs for their visualization needs. With so many using GIS technology in their daily lives, library staff are now more than ever assisting library clients with their mapping queries.
This course will introduce students to a variety of mapping tools and GIS technologies such Google Earth and the creation of dynamic KML files; ArcGIS Online and webmap publishing; Google Fusion Tables and geocoding; and GIS fundamentals with geospatial data creation. Students will be able to apply their GIS skills in their reference work, in digitization projects, in webpages, in library instruction, and more. Through hands-on exercises, pre-recorded demonstrations and lectures, students will receive a thorough overview of mapping resources that will enhance and expose their library’s resources.
Discover some citizen mapping projects that you are interested inOR
Contribute your local knowledge to Google Map MakerANDShare with the class online
2. Google Earth Map
Please complete the tutorial and then create a map in Google Earth with the following components:
A title
A written introduction to your project
At least five placemarks, embedded with html tags, and images, if possible.
Imported KML file(s) file format by GEarth, but other apps is using it. using notepad or MS Word, one can create KML file.
screen overlay, can be text, image, anything. legend. HTML code.
A screen overlay (i.e. a legend)
areal photography.
history.
images from the library, Google is willing to buy them. citizen mapping. scanning and uploading.
geographical and societal awareness.
Gallery: 360Cities.
google street view – historical views
Google Earth Mapping
Submit online as a KML/KMZ file
I had the opportunity to experience a gizmo that can be used to display a variety of mapping projects, including citizen mapping:Science on a Sphere. It is a sphere on which you can project static maps or animations. The one I saw, in the National Oceanic and Atmospheric Administration’s facility on Ford Island in Honolulu, displayed animations showing the 2004 Indian Ocean tsunami and the 2011 tsunami in Japan, as well as airline flight paths, ocean currents, polar ice cap change over time, and many other types of geospatial data.
The Great Backyard Bird Count actually starts today and runs through Monday, February 16th. At a minimum, it only requires 15 minutes of observation on any or all the days: http://gbbc.birdcount.org/
Happy Cow is a site well-known to many vegetarians/vegans for finding restaurants which I’ve used when travelling. Users can submit reviews and/or restaurants that they’d like profiled (although the site reserves the right to approve or not the listing).http://www.happycow.net/search.html
One of the impediments to citizen mapping is the line-of-sight cell tower limitations of mobile phones, or the wifi requirements for other mobile devices. Citizen mapping in urban and suburban environments is well-served by mobile devices, but what about natural areas, dense leaf cover, or extreme topography? Even if obtaining absolute mapping coordinates isn’t the issue, much crowdsourcing assumes an ability to connect back to a central data repository (e.g., a web database, ‘the cloud’). Equipment that can interact with GPS satellites and support data capture is typically expensive and generally requires proprietary software.
wq(https://wq.io/) is a framework that is ‘device first’ and ‘offline-enabled’. It attempts to leverage several open source technologies to build an entire mobile solution that can support citizen science data collection work, and then synchronize with a central repository once the device (and operator) return to an area served by cellular or wifi networks.
I’m stretching here, so if I get stuff wrong, please don’t yell. Still, I’ll take a pass at generally describing the framework and its related technology stack.
wq relies upon python, and a web framework called django for building offline-capable web apps that can run on iOS and Android devices. These web apps, then, rely very heavily upon javascript, particularly requirejs (http://requirejs.org/) and mustache (https://mustache.github.io/), for the templates that permit quick and (somewhat) painless web application development. Data visualization relies upon d3.js (http://d3js.org/), and geography makes heavy use of Leaflet (http://leafletjs.com/) — maybe the most pertinent layer of the stack for those of us in this course. If you’re not familiar withLeaflet.js, check it out!
Finally, wq extends several other open source technologies to enable synchronizing between a central data repository and multiple mobile devices in the hands of citizen mappers. Lastly, wq employs a set of tools to more easily build and distribute customized mapping apps that can be served from Apple’s app store, Google Play, etc.
What wq intends is to allow highly specialized citizen science/citizen mapping apps to be more easily and quickly built, based upon a solid collection of aligned F/OSS tools. Ideally, an app can spin up quickly to respond to a particular need (e.g., a pipeline spill), or a specialized audience (the run up to a public comment period for a development project), or even something like a high school field trip or higher ed service learning project.
Some examples of citizen mapping projects already built upon wq are here:
store maps online, no latitude needed.
visualize geospatial data by map
spatial analysis by mapping different layers together
showing data by map, graph or chart
e.g. how many cars cross specific point
crowdsourcing: spotting butterflies, using fusion tables to map the spices and sightings http://www.theguardian.com/news/datablog/2011/mar/31/deprivation-map-indices-multiple
students: journalism, history, geography.
Georeferencing (geocoding – data, geo referencing – image)
historical air maps or photos are much more useful when they are georeferenced.
Photos from different year is difficult to lay over one another without referencing. the only reference might be the river. usually reference the four corners, but sometimes river. Using GIS program to determine the longitute/latitude for each corner. sometimes only farmland and it is impossible
messaging one another through a network that doesn’t require cell towers or Wi-Fi nodes. They’re using an app called FireChat that launched in March and is underpinned by mesh networking, which lets phones unite to form a temporary Internet.
My note: seems that civil disobedience provides excellent innovations in using technology; examples are-
Mesh networking is still only an IT term. Internet and dbase search has no returns on mesh networking as a tool for education and/or civil disobedience. Will it be the continuation of moblogging, backchanneling and swarming?