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EPGY Final Presentation

EPGY Final Presentation. Mike, Ruhi, Monisha, Masa Stanford University ED 391. Presentation Overview. Review Background Critical Evaluation ABCD Framework Demo of EPGY Software Demo of Proposed Changes Recommendations. EPGY Background. EPGY: Educational Program for Gifted Youth

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EPGY Final Presentation

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  1. EPGY Final Presentation Mike, Ruhi, Monisha, Masa Stanford University ED 391

  2. Presentation Overview • Review Background • Critical Evaluation • ABCD Framework • Demo of EPGY Software • Demo of Proposed Changes • Recommendations

  3. EPGY Background • EPGY: Educational Program for Gifted Youth • Started in late 1980s by Stanford Philosophy Professor Patrick Suppes • Enrolls ~ 3000 students/year, growing • Provides courses to “gifted” children, mostly in high school math and sciences • Most students take the courses at home • Pros and cons of Stanford affiliation • Pros • excellent, researched-based core approach • Stanford brand recognition is golden • Cons • difficult to raise money to polish courses • academic environment leads to inefficiencies everywhere

  4. Project Background • EPGY would like to address the school market more aggressively • Interested in Title 1 funds for low-income schools => less motivated kids • Project focus • software’s and program’s appropriateness for: • less motivated kids • group setting

  5. Critical Evaluation:Marin Country Day School • Principal was actively opposed to students taking EPGY courses • Instituted fifth grade math club to combat trend of students taking EPGY courses • Eighth grade algebra teacher said students memorized algorithms without learning deeply • she had to deconstruct kids’ ideas of what being good at math means • . . . but when she saw a specific student’s experience, interaction w/ a tutor, she liked it

  6. ABCD Framework • Audience • Behavior • Conditions • Degree

  7. Audience • Focus on who the learners are • K-7 students (Top 15% percent) • Five local schools (Title 1 and Affluent) • 10 to 20 students per classroom • After school program/supplemental • Heterogeneous • courses through computer-based software

  8. Behavior • The new capability the learner will have after the instruction • Mastery of skill and knowledge • Engagement in the learning process • Capable of working with CD Rom software • Self motivated

  9. Conditions • After listening to the lecture online the student will be able to calculate and find the solution for each of the problems for that section. • 1 to 1 ratio for computers • 10 to 1 ratio for students to tutor • Lectures, drills, quizzes, and homework

  10. Degree • Complete and pass all quizzes • Assessed at 80% to 85%

  11. EPGY demo • Lecture • Sample questions • Features • Redesign

  12. Redesign

  13. Recommendations • Program Strengths • Program Challenges • Suggested Software Improvements • Suggested Program Improvements

  14. Program Strengths • Students are clearly engaged and learning • Students are motivated, for various reasons • Learning and improving skills • Peer interactions and “community” feel • Desire to stand out and feel special • Adaptive technology based on mathematical algorithm keeps pace with students • Students are able to work with moderate level of independence • Follows all State standards, and goes beyond

  15. Program Challenges • Tension in promoting individual self-paced progress within a group setting • Scalability is difficult to achieve; at least 1:10 tutor-to-students ratio required • Possibility that students may forge past school’s course offerings • Principal buy-in and/or parent support is required for success of program • Reduced perception of importance of program because it’s after school

  16. Suggested Software Improvements Demonstrated software improvements • Better course management system, so users can navigate more easily • Progress indicator • Use more appealing multimedia tools (animation, etc.) to reach broader audience • Utilize virtual conference software for assistance • Student monitoring system Additional software improvements • Present concepts in multiple ways to appeal to differing learning styles • Improve software adaptability to hone in on particular areas of student weakness • Test for true understanding, not pattern recognition

  17. Suggested Program Improvements • Improve coordination with what’s happening during the school day in math • Create virtual or physical “clusters” of students at same level so that common issues can be addressed efficiently • Offer live lecturettes to supplement students’ understanding • Opportunities to “walk thru thinking process,” possibly through class participation • Integrate reflections and celebrations on what students are learning • Better ergonomics to allow pencil-paper work

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