Stanford Mobile Inquiry-based Learning Environment (SMILE)
Stanford Mobile Inquiry-based Learning Environment (SMILE) https://smile.stanford.edu is a mobile learning management server software designed to help students study school subject matter, develop higher order learning skills and generate transparent real-time learning analytics.[1]
SMILE combines a mobile-based question application for students with a management application for teachers. The technology allows students to create multiple-choice questions on mobile phones during class and share these questions with their classmates and teacher.[2]
The main goal of SMILE is to develop students’ questioning skills, encourage greater student-centric activities and practices in classrooms,[2] and enable a low-cost mobile wireless learning environment.[3]
History
Seeds of Empowerment (Seeds), is a global non-profit 501(c)(3) organization founded in 2009 by Dr. Paul Kim and Neha Taleja. The NGO helped develop SMILE and also pilot studies around the world using the software since 2009.[4]
How it works
The software allows students to generate, share, and evaluate multimedia-rich questions.[2] The data management software gathers these responses and the time students take to respond, and saves them for the teacher to analyze. Teachers can also enter questions to test information.[2]
Finally, the software also allows for both teamwork and competition which teachers can use to promote a classroom environment that is either collaborative or competitive, depending on what will motivate students.[2]
Operating modes
SMILE has five operating modes. The facilitator chooses the mode for each activity.
Mode | Description |
---|---|
Exam Mode | Teachers post questions for students to solve, evaluate, and comment while the system presents the student performance outcome results in real-time |
Brainstorming Mode | Participants discuss, evaluate, rank, and comment open-ended questions |
Open-to-close-End-Mode | Participants generate, discuss, evaluate, comment, and rank open-ended questions and turn the selected open-ended questions into multiple-choice questions. |
Student-Paced Mode | Students generate, solve, evaluate, and discuss questions in an asynchronous manner so participants can typically participate in sessions without any time-constraint |
Organizer-Paced Mode | Organizers control different stages of sessions with specific time limits in each stage (i.e., generating, solving, evaluating, and reviewing questions).[1] |
Question ratings
The instrument is designed to identify performance variations. It enables organizers to define five different levels of question quality. For example:[1]
Question Difficulty | Description |
---|---|
Category 1 | Students respond with minimum cognition involving simple recalls or simple arithmetic calculations |
Category 2 | Students conduct a simple analysis on question types and qualities (e.g., asking questions about questions) or solve problems with simple reasoning. These questions are designed to assess if students can recognize and make distinctions between low quality questions and higher order thinking questions. |
Category 3 | Students solve given problems with an intermediate level of cognition and analysis. |
Category 4 | Students solve given problems with a deeper level of analysis and reasoning. |
Category 5 | Students ignore distracting information and extract only accurate information to make a necessary inference. Students must formulate their own rational equation to arrive at a conclusion. |
In lieu of test scores, the ratings of the questions can used to assess learning outcomes.[5] Analyzing a student's ability to rate other student's questions can be used to determine the student's level of critical thinking skills. The process of rating questions from their peers allows the students to think about the content in a deeper way.[6]
Praxis
SMILE is intended for a wide range of educational settings. Not only is SMILE is content-agnostic, the pedagogical model behind SMILE is to encourage the student to make critical inquiries--the hard work, the investigation--instead of being told the answers by an educator. Many successful implementations of SMILE are implemented by teachers incorporating SMILE two to three times a week. [7] To address the rapidly advancing technological age, SMILE effectively allows schools and teachers to flip the classroom.[8]
SMILE in Elementary Classrooms
SMILE can be used by students in an elementary classroom. Students create questions which are then solved and rated by peers. The entire process is controlled and monitored by a teacher with an activity management application. [9]
In the learning process, students proceed through stages of Make Your Question, where students create multiple choice questions. Solve Questions aggregates the questions and sends them back to students to solve and rate on a five-point scale. See Results allows students to see the their score. [9]
The teacher has multiple features at his or her disposal. The Activity Flow window allows the teacher to activate the various stages of the activity. The Student Status window displays the current status of each student. The Scoreboard displays individual student’s responses. The Question Status window displays metadata about the question. The Question window displays the question itself and its predetermined correct answer. The Top Scorers window displays which student achieved the highest score and which question received the highest ratings. The Save Questions button allows the teacher to save the data from a given exercise to the server.[9]
SMILE in Math Classrooms
SMILE takes advantage of mobile devices to increase participation, engagement, and collaboration from the students. Students are creating their own math questions, including using the device's camera to take pictures of their questions. All participants have access to the questions during and after class. [10]
In a typical SMILE activity, students go through several phases of learning. They are: Introduction and device exploration, Prompt for problems, Student grouping and generating questions, Question generation, Question solving, Result review, Reflection, and Repetition and enrichment. Song, Kim, and Karimi describe this in their 2012 paper, Inquiry-based Learning Environment Using Mobile Devices in Math Classroom. [10]
SMILE in Participatory Action Research
SMILE can be used in participatory action research to engage participants in critical thinking and community engagement while eventually deriving solutions that are locally relevant. [11]
During the question generation process, participants can capture images from textbooks or take photos of environmental issues to address. Once the questions are generated, they are aggregated and redistributed to the participants. The participants then go through a period of reflection, response, evaluation, and verification. [11]
The process enables the participants to think beyond simple health-relevant facts. Also, SMILE leverages the collective construction of inquiries, leading to more reliable and accurate depiction of the reality as a whole. They are able to distinguish facts from opinions, verify sources, analyze cause and effect, determine faulty generalizations, and avoid oversimplification. [11]
By empowering the participants to co-evaluate and reflect their own phenomena, the external researcher's role is simply to facilitate conversation.[11] Examining the questions and answer choices generated by participants help researchers uncover important insights. [11]
Technology
SMILE Plug creates an ad-hoc network which enables students to engage in SMILE activities and exchange inquiries with peers in their classrooms or their own school.[2] Participants in the SMILE Plug model must be physically present and connected to the ad-hoc SMILE WiFi network. A SMILE Plug router contains the SMILE server software, KIWIX, Khan Academy Lite, various open education resources including open education textbooks, and four different coding language school programs.[1]
SMILE Global enables students around the world to exchange their inquiries regardless of their location.[2] People who are interested in a particular topic (e.g., for example, 'health'), they can search the keyword and also create their own questions, respond to existing questions, or comment on questions and answer.[11] The SMILE Global server is accessible in the cloud.[1]
Both SMILE Plug and SMILE Global allow students to incorporate multimedia components in their questions: SMILE Plug uses images, and SMILE Global uses images, audio and video.[2]
Cost
The cost of implementing a SMILE activity depends on the infrastructure available in the school, but at minimum costs: $80 per mobile phone (one for every 2-3 students), $300 for a notebook laptop computer, and $100 for a local router.[2]
Because of the ubiquitous nature of mobile devices, the low barrier to entry, and the modular growth potential, mobile devices provide a low-cost, high-reward alternative to the traditional computer lab model.[12]
In many cases, business leaders provided local telecom network infrastructure and equipment such as mobile devices and computers, while local educational administrators facilitated the participation of local schools and offered teacher workshops. University staff conducted research on strategies to enhance the model within the local context and NGO partners provided localized knowledge, program oversight, and project coordination. This approach brings together many stakeholders, without exhausting the limited resources of any one sector.[2]
In 2012, the SMILE team partnered with Marvell to create SMILE Consortium.[13]
SMILE Plug on Raspberry Pi
In 2016, the SMILE Plug was implemented on a Raspberry Pi 3. The Plug will boot in under a minute when plugged into USB power. In developing countries with limited access to electricity, a USB battery pack is recommended. The Plug, designed for use in areas of no internet connectivity. The router provides a local WiFi access point. Students and teachers with mobile devices, tablets, laptops, and computers can connect to the Plug.
The Plug requires a microSD card which acts as the hard drive and local repository of the offline resources. In order to update the SMILE Plug, one will swap out the previous microSD card with a newer microSD card with updated resources.
SMILE Global and Natural Language Processing
In 2017, SMILE Global will interface with a natural language processing API. The SMILE team has prepared a databank of questions pre-categorized according to the question quality rubric. The API will return a rating for each question that is submitted on SMILE Global. The immediate response and feedback will give students a chance to make improvements to their questions in real time.
Projects
SMILE has reached over 25 countries, including North America, India, Argentina, Mexico, Costa Rica, Colombia, Nepal, China, Uruguay, Indonesia, South Korea, South Africa, Sri Lanka, Pakistan, and Tanzania.[2]
Argentina
Students used SMILE to think critically about what it means to be an engaged citizen in their community, generating questions for their peers about such potential moral dilemmas as homelessness, suicide, stealing, and school bullying and violence. One student addressed the increasing incidence of suicide locally and asked their peers for the major cause. This revealed additional benefits of SMILE—not only is it a tool for managing student learning and assessment, it also facilitates discussions of issues that students see as important.[2]
In 2012, the Ministry of Education in Buenos Aires looked into modifying the cell phone prohibition use in the classroom, in effect since 2006. In addition to using SMILE, educators can now create executable programs on mobile devices to help facilitate learning in the classroom. [14]
SMILE workshops on Music, Language Arts, and Mathematics was implemented in Misiones and Talarin August 2011. By using an exploratory learning pedagogy, students were able to compose songs. The power of mobile devices to reach the last mile and the last school is most evident where electricity and internet access is not guaranteed. [15]
In rural settings, desktop computers may be too cumbersome and have too high of an overhead. Mobile phones and tablets, on the other hand, are portable and battery-powered, making for a flexible mobile-learning environment. One of the keys in deploying mobile technology is a focus on bringing the desired content with a strong pedagogical foundation. [16]
Chile
Due to the centralized nature of Chile, it is harder for education to reach the poorest areas of the country. The concept of a mobile classroom, or "pocket school," connected and tied together by a network of mobile phones, is an attempt to take advantage of the resources already available in the most underserved communities. [17]
Indonesia
Students were asked to generate math questions covering a wide range of topics, from triangle angle sum theorem, to fractions, areas and diameters. Teachers were surprised at the students’ enthusiasm. They were also surprised at the students’ ability to adopt the technology by themselves and to train each other and even their teachers.[2]
South Korea
SMILE Global was tested with medical students at Chungbuk National University. Criteria for high-quality questions, criteria rubrics, and examples of high- and low-quality questions were discussed with students first. This initial overview seemed to be important in promoting deep inquiry. As the students were already very experienced in using technology, they spent 60% of their time on the inquiry-making task.[2]
Results and Learnings
Studies suggest that SMILE could be implemented relatively easily in a wide range of classroom settings; it was adopted by students relatively quickly; and it increased the use of inquiry-based pedagogies.[2]
As students evaluated each other’s questions and understood which ones got higher ratings, over time they developed questions that were more conceptually difficult and of higher quality.[2]
Relationships between students and teachers changed during the SMILE workshops. Teachers were not simply transmitting information to students; rather, students were drawing on written or digital resources to formulate their own questions. The teachers played important roles in guiding students through the solutions to difficult questions, correcting any mistakes, and elaborating on student-generated questions.[2]
Teachers need an initial training period and some follow-up mentoring so they can facilitate questions.[2] Tailoring the content of the trainings to the local environment is crucial. Without putting the benefits of SMILE into the local context, teachers and students will find no compelling reason to adopt the pedagogy. [18]
Finally, local education officials must be on board. SMILE worked best when officials, along with civil society organizations, universities, and local businesses, worked together to bring it to classrooms and supported different elements of its implementation.[2]
Challenges
School and country contexts highly influence students’ initial abilities to form deep questions. In the developing world, many teachers lack adequate teacher training. Their training is often limited to content, rather than pedagogical practices. In some cases, when teachers were asked to use new technology before they were comfortable with it, their discomfort led them to stifle students’ questions. Cultural norms governing relations between adults and students, and socialization into situational authority roles, may also inhibit student questioning.[2]
SMILE was more difficult to implement in areas where rote memorization pedagogies were typical. Some students found it hard to generate their own questions, given their previous classroom experiences with rote memorization activities.[2]
Additionally, students with little experience manipulating smart phones took longer to understand and use the technology, but eventually adjusted after exploration.[2]
References
- 1 2 3 4 5 "Project Overview, Stanford Mobile Inquiry-based Learning Environment". Office of Innovation & Technology, Stanford GSE. Retrieved 27 September 2016.
- 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 Buckner, Elizabeth; Kim, Paul. "Integrating technology and pedagogy for inquiry-based learning: The Stanford Mobile Inquiry-based Learning Environment (SMILE)". doi:10.1007/s11125-013-9269-7.
- ↑ "Stanford Mobile Inquiry-based Learning Environment (SMILE) - PATENT". Stanford University Office of Technology Licensing. Retrieved 27 September 2016.
- ↑ "Our Vision". Seeds of Empowerment. Retrieved 27 September 2016.
- ↑ "SMILE (Stanford Mobile Inquiry-based Learning Environment) - Paul Kim". UNESCO. Retrieved 19 October 2016.
- ↑ "How to Help Mobile Education Go Global". KQED MindShift. Retrieved 19 October 2016.
- ↑ "SMILE, Your Kid is Learning". Education Writers Association. Retrieved 19 October 2016.
- ↑ "Dr. Paul Kim: "It's time to flip the classroom"". wise ed review, Qatar Foundation.
- 1 2 3 Seol, Sunmi; Sharp, Aaron; Kim, Paul (2011). "Stanford Mobile Inquiry-based Learning Environment (SMILE): using mobile phones to promote student inquires in the elementary classroom" (PDF). Proceedings of the 2011 International conference on frontiers in education: Computer science & computer engineering: 270–276.
- 1 2 Song, Donggil; Kim, Paul; Karimi, Arafeh (2012). "Inquiry-based Learning Environment Using Mobile Devices in Math Classroom" (PDF). Proceedings of the Association for Education Communications and Technology, 2012. Kentucky: 386–392.
- 1 2 3 4 5 6 Kim, Paul; An, Ji-Young (2016). "New Evaluation Vector through the Stanford Mobile Inquiry-Based Learning Environment (SMILE) for Participatory Action Research". Healthcare Informatics Research. 22 (3): 164–171.
- ↑ "Dr. Paul Kim: "Es hora de voltear el aula"". Fundación Telefónica. Retrieved 19 October 2016.
- ↑ "Marvell and Stanford create SMILE Plug cloud computer, SMILE Consortium to get companies and devs to build a better education system". engadget. Retrieved 16 October 2016.
- ↑ "El celular se usa cada vez más en clase para estudiar". Clarin Propietario Arte Gráfico Editorial Argentino S.A. Retrieved 19 October 2016.
- ↑ "Los teléfonos móviles son una herramienta increíble". Infotechnology.com. Retrieved 19 October 2016.
- ↑ "Los smartphones van al colegio". LA NACION. Retrieved 19 October 2016.
- ↑ "Allô, la "smart classe" ?". Le Monde. Retrieved 19 October 2016.
- ↑ "SMILE - Stanford Mobile Inquiry-based Learning Environment". Swiss Contribution. Retrieved 19 October 2016.