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Observing patterns of classroom connectivity: Protocol development and implementation

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Title: Dissertation Defense Author: Stephen J. Pape Last modified by: Vehbi A Sanalan Created Date: 4/22/1998 4:47:08 PM Document presentation format – PowerPoint PPT presentation

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Title: Observing patterns of classroom connectivity: Protocol development and implementation


1
Observing patterns of classroom connectivity
Protocol development and implementation
  • Stephen J. Pape, University of Florida, Sukru
    Kaya, Karen E. Irving, Vehbi Sanalan, Douglas T.
    Owens, The Ohio State University
  • The research reported here was supported by the
    Institute of Education Sciences, U.S. Department
    of Education, through Grant R305K050045 to The
    Ohio State University.  The opinions expressed
    are those of the authors and do not represent
    views of the U.S. Department of Education.

2
Additional Authors
  • L. Abrahamson, Better Education Foundation
  • S. Granade, Wilkes Community College,
  • Sedat Ucar, Cukurova University, Adana, Turkey
  • Additional Research Team
  • Frank Demana, The Ohio State University
    Christie Boscardin, Joan Herman, Hye Sook Shin
    UCLA, CRESST Mike Kositzke, Project
    Administrative Assistant, OSU
  • Ugur Baslanti, University of Florida
  • TI Navigator slide adapted from a presentation by
    Eileen Shihadeh, Texas Instruments

3
Changing roles for teachers include
  • Thinking beyond skills-based conceptions
  • Setting norms for discourse
  • Fostering mathematical and scientific reasoning
  • Using problem solving and inquiry to support
    knowledge construction
  • Developing mathematical and scientific competence
    more broadly defined
  • Using formative as well as summative assessment
  • Differentiating instruction

4
Context -- Classroom Connectivity in Promoting
Mathematics and Science Achievement
  • Interdisciplinary research project
  • National Sample of Algebra I and Physical Science
    teachers
  • Classroom connectivity technology
  • Professional DevelopmentSummer Institute T3
    conference follow-up
  • Randomized assignment, cross-over design with
    control group provided treatment during year 2
  • Mixed methodology

5
5-Apr-15
The TI-Navigator Connected Classroom
The TI-Navigator System allows the teacher to
  • Create a collaborative learning environment
  • Engage in formative assessment by way of
    immediate feedback
  • Enhance classroom management of TI graphing
    technology
  • Quick Poll provides teacher understanding by
    receiving impromptu feedback

5
6
Prior Research on Connected Classrooms
(Roschelle, Penuel, Abrahamson, 2004)
  • Students
  • Increased student engagement student
    understanding interactivity
  • Improved classroom discourse
  • Knowledge of classmates learning
  • Teachers
  • Improved pre- and post- assessment of student
    learning
  • Increased awareness of student difficulties
  • Improved questioning

7
Owens , Demana , Abrahamson, Meagher, Herman
(2004)
8
The Potential of the Connected Classroom Includes
  • Multiple interconnected representations
  • Conceptual development supported through
    activity-based learning experiences
  • Immediate, anonymous formative assessment
  • Public displays of class knowledge
  • Teacher identified critical junctures

9
The Potential of the Connected Classroom Includes
  • Classroom discourse
  • Explanations and justifications
  • Focus on process
  • Strategic behavior as object of discourse
  • Changing classroom atmosphere making possible
  • Increased motivation/engagement
  • Positive dispositions toward mathematics and
    science

10
Theoretical Perspectives for Observation Protocol
Include
  • Goal orientation of motivation social cognitive
    view of learning (e.g., Ames, 1992 Ames
    Archer, 1988 Blumenfeld, 1992 Meece, 1991)
  • Classroom context that promote involvement
    (Turner et al., 1998, 2002)
  • Classroom discourse practices (Cobb, Boufi,
    McClain, Whitenack, 1997 Meyer Turner, 2002
    Nathan Knuth, 2003 Turner, et al., 1998 Wood,
    1999)
  • Contexts that support mathematical understanding
    (Fennema, Sowder, Carpenter, 1999)

11
Theoretical Perspectives for Observation Protocol
Include
  • Contexts that support SRL (DeCorte, Verschaffel,
    Eynde, 2000 Pape, 2005 Perry VandeKampe,
    2000)
  • Formative Assessment (Bell Cowie, 2001 Black
    Wiliam, 1998)
  • Analytic Social Scaffolding (Nathan, 2003)
  • Environmental scaffolding of strategic behavior
    (Pape, Bell, Yetkin, 2003)

12
Purpose of Presentation
  1. To describe the process of developing and
    piloting the CCMS Classroom Observation
    Protocol-Algebra I
  2. To discuss future implementation strategies

13
Observation Protocols Examined
  • Professional Development Observation Protocol
    (Horizon Research, 2004)
  • OPAL Observing Patterns of Adaptive learning
    (Patrick, et al., 1997)
  • Oregon Mathematics Leadership Institute Classroom
    Observation Protocol (RMC Research Corporation,
    2005)
  • Reformed Teaching Observation Protocol (RTOP)
    (Arizona Collaborative for Excellence in the
    Preparation of Teachers, 2000)

14
OPAL Method of Protocol Development
  • Goal to investigate associations between
    teacher behaviors and practices and their
    students perceptions of the motivational climate
    of those classrooms (p. 1)
  • Format narrative running record
  • 9 categories Task, Authority, Recognition,
    Grouping, Evaluation, Time, Social, Help-Seeking,
    Messages

15
OPAL Training
  • Project team familiar with literature
  • Observation protocol based on literature
  • Phase 1
  • View videotapes record running records
  • Team discussion of observations
  • Consensus building on important points of
    observation
  • Third person review comment
  • Phase 2
  • Pair observations of summer school write
    running records
  • Compare field notes
  • Third person review comment

16
CCMS Protocol Development
  • Extensive review of literature including
  • Classroom discourse processes
  • Classroom contexts that promote self-regulated
    learning
  • Classroom contexts that increase student
    motivation
  • Formative assessment practices
  • Classroom observation protocols
  • Focuslist of instructional practices that
    support
  • Mathematical understanding
  • Self-regulation
  • Positive dispositions
  • Generate list of instructional strategies with
    descriptions

17
Three-day Training for Research TeamDay One
  • Reviewed constructs to establish understanding
  • Viewed videotape scripted lesson
  • Pairs compared lesson scripts identifying
    similarities and differences
  • Initial ratings discussion of ratings
  • Generated positive and negative evidence for
    constructs
  • Revised protocol based on discussion

18
Three-day Training for Research TeamDay Two
Three
  • Day Two Classroom visit
  • Day Three Viewed videotaped class
  • Groups observed, scripted, rated lesson
  • Independently indicated ratings
  • Groups discuss ratings, discrepancies, and
    evidence for ratings
  • Revise observation protocol

19
Training (Phase 2) Inter-rater Reliability
  • Initial focus calibration and construct
    clarification
  • 3-4 observers visit class, script, rate
    observation
  • Record individual ratings without discussion
  • Discussion toward consensus with rationale for
    ratings
  • Final revisions deleted/clarified unreliable
    categories

20
Research Team Considerations and Data Collection
Decisions
  • Given focus on communication camera focused on
    teacher in relation to students
  • Evidence for ratings from observed behavior vs.
    inferences from self-report data
  • Three column format time, behavior, analytical
    notes
  • Observers consistency of ratings reliability
    number of observers

21
Inter-rater Reliability
  • Inconsistent constructs, in terms of large
    variability around the consensus score, included
  • Multiple Answers
  • S-to-T S-to-S discourse
  • Initiate-Respond-Evaluate (IRE)
  • Multiple Representations
  • Processes
  • Autonomy
  • Assessment, Knowledge, Community Centeredness
  • In addition, one rater consistently higher than
    others one rater consistently lower than others

22
Changes to Protocol during Development
  • Feedback during training incorporated to
    elaborate and clarify constructs
  • Low reliability constructs revised
    clarification, elaboration, and modification
  • Constructs Deleted
  • Difficulty of providing evidence e.g.,
    modifying tasks to control challenge, strategy
    application, teacher knowledge
  • Relevance to research e.g., conversational
    turns, wait time

23
CCMS Observation Protocol Classroom Context Form
  1. Background Information Date of observation
    Location (City, State) Observer Observation
    duration
  2. Classroom artifacts Classroom rules and slogans
    Classroom displays (including graded work)
    Instructional materials
  3. Classroom layout Provide a labeled map of the
    classroom. Physical arrangement of context in
    terms of specific tasks.
  4. Scripting the Observation Specific, objective
    descriptions three column format (1) time (2)
    running log stated objectively (3) Reflections,
    theoretical connections, observer notes.

24
CCMS Observation Protocol Observation Rating
Form
  • Classroom context summary
  • Tasks manner in which teachers structure tasks
    and learning activities
  • Structural Content, procedures (explicit
    implicit), materials, participation structure,
    and products of task
  • Psychological Student /or teacher affect assoc
    with the task, level of challenge and press,
    instructional support

25
CCMS Classroom Observation Protocol (cont)
  • Teacher Designed Questions
  • Lower-Order Questions require recalling and
    stating known facts, carrying out a simple
    algorithm or procedure
  • Procedural, knowledge, comprehension questions
  • Higher-Order Questions require manipulation of
    information, transform information, synthesize,
    generalize, explain, hypothesize
  • Justification, classification, comparison,
    exploration/extension, application, analysis,
    synthesis, evaluation questions

26
CCMS Classroom Observation Protocol (cont)
  • Sociomathematical norms ways in which teachers
    and students interact within classroom
  • Teacher press for student involvement ways
    teacher ensures increases involvement
  • Teacher press for elaboration, explanation,
    justification ways teacher pushes students to
    elaborate to make reasoning explicit includes
    uptake of correct incorrect responses
  • Soliciting multiple answers or solution methods
  • Scaffolding teacher support such as modeling,
    questioning analytic social scaffolding
  • Learning strategies explicit discussion of
    techniques for learning
  • Performance orientation focus on the
    outcome/products showing competence
  • Mastery orientation focus on understanding,
    learning skills with meaning

27
CCMS Classroom Observation Protocol (cont)
  • Classroom Discourse -- Relative proportion or
    focus on
  • Teacher-to-student teacher-initiated
    interaction
  • Student-to-teacher student-initiated
    interaction
  • Student-to-student interaction
  • Initiation-Response-Evaluation (IRE)
  • Classroom management procedures
  • Use of multiple representations
  • Collective argumentation two or more students
    contribute to establish a claim
  • Student discussion of understanding

28
CCMS Classroom Observation Protocol (cont)
  • Formative Assessment teacher behaviors targeted
    toward gathering data from students and making
    instructional decision accordingly
  • Educational goals associated with instructional
    decisions
  • Rules and facts
  • Communication
  • Application
  • Evaluation
  • Mathematical processes

29
CCMS Classroom Observation Protocol (cont)
  • Knowledge Construction
  • Individually vs. group constructed
  • Holder of knowledge degree to which teacher or
    students are authority of knowledge construction
  • Depth of knowledge superficial vs. central
  • Technology Use overall use quick poll screen
    capture learn check student inquiry/data
    aggregation activity center TI presenter
    graphing calculator TI viewscreen Overhead
    projector Computer Other

30
CCMS Classroom Observation Protocol (cont)
  • Instructional Practices
  • Traditional/Teacher-centered
  • NCTM Standards-based, cognitively active
    environment, student-centered
  • Inquiry, problem-based learning, discovery
    learning
  • How People Learn
  • Learner-centeredness
  • Assessment-centeredness
  • Knowledge-centeredness
  • Community-centeredness

31
Update/Implementation/Future Work
  • To date, 2 years of observations have been
    conducted (approx. 15 per Algebra I cohort 5
    per Physical Science cohort)
  • Observations will be used to triangulate
    self-report data
  • Teacher Practices and Beliefs Survey
  • Student Perceptions of Instruction Survey
  • Implementation rating from Telephone Interviews
  • Planned Analyses
  • Differences between Algebra I and Physical
    Science teaching
  • Changes to protocol to analyze Physical Science
    instruction
  • Purposefully chosen cases examined and elaborated
  • Examine classroom instruction in relation to
    development of student dispositions and SRL
  • Conduct in-depth ethnographies of instruction
    with classroom connectivity technology during
    years 3 4
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