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Cognitive apprenticeship Prasanth.P. According to Collins, Brown, & Newman, Cognitive apprenticeship focuses on “learning-through- guided-experience on.

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Presentation on theme: "Cognitive apprenticeship Prasanth.P. According to Collins, Brown, & Newman, Cognitive apprenticeship focuses on “learning-through- guided-experience on."— Presentation transcript:

1 Cognitive apprenticeship Prasanth.P

2 According to Collins, Brown, & Newman, Cognitive apprenticeship focuses on “learning-through- guided-experience on cognitive and metacognitive skills and processes”,

3 Traditional apprenticeship focuses on the physically concrete craft or trade

4 Cognitive apprenticeship is a theory of the process where a master of a skill teaches that skill to an apprentice.

5 The model is aimed primarily at teaching the problem-solving processes that experts use to handle complex tasks.

6 This theory holds that masters of a skill often fail to take into account the implicit processes involved in carrying out complex skills when they are teaching novices.

7 Cognitive apprenticeship focuses on cognitive and metacognitive skills and processes. The framework for designing learning environment describes four dimensions: context, methods, sequence, and sociology.

8 Cognitive apprenticeships are intended to enable apprentices to learn strategies and skills in the context of their application to realistic problems, within a culture focused on and defined by expert practice

9 To combat these tendencies, cognitive apprenticeships “…are designed, among other things, to bring these tacit processes into the open, where students can observe, enact, and practice them with help from the teacher…cognitive

10 this model is supported by Albert Bandura's (1997) theory of modeling, which posits that in order for modeling to be successful, the learner must be attentive, must have access to and retain the information presented, must be motivated to learn, and must be able to accurately reproduce the desired skill.Albert Bandura

11 Cognitive scientists maintain that the context in which learning takes place is critical (e.g., Godden & Baddeley, 1975)

12 Collins, Duguid, and Brown (1989) argue that cognitive apprenticeships are less effective when skills and concepts are taught independent of their real-world context and situation.

13 By using processes such as modelling and coaching, cognitive apprenticeships also support the three stages of skill acquisition described in the expertise literature: the cognitive stage, the associative stage, and the autonomous stage. [3][4] In the cognitive stage, learners develop declarative understanding of the skill. In the associative stage, mistakes and misinterpretations learned in the cognitive stage are detected and eliminated while associations between the critical elements involved in the skill are strengthened. Finally, in the autonomous stage, the learner’s skill becomes honed and perfected until it is executed at an expert level. [5] autonomous [3][4] [5]

14 Like traditional apprenticeships, in which the apprentice learns a trade such as tailoring or woodworking by working under a master teacher, cognitive apprenticeships allow the master to model behaviors in a real-world context with cognitive modeling.tailoring woodworking

15 By listening to the master explain exactly what she is doing and thinking as she models the skill, the apprentice can identify relevant behaviors and develop a conceptual model of the processes involved. The apprentice then attempts to imitate those behaviors with the master observing and providing coaching. Coaching provides assistance at the most critical level – the skill level just beyond what the learner/apprentice could accomplish by herself.

16 Vygotsky (1978) referred to this as the Zone of Proximal Development and believed that fostering development within this zone leads to the most rapid development VygotskyZone of Proximal Development

17 The coaching process includes additional modeling as necessary, corrective feedback, and reminders, all intended to bring the apprentice’s performance closer to that of the master’s. As the apprentice becomes more skilled through the repetition of this process, the feedback and instruction provided by the master “fades” until the apprentice is, ideally, performing the skill at a close approximation of the master leve

18 Teaching methods Collins, Brown, and Newman developed six teaching methods rooted in cognitive apprenticeship theory and claim these methods help students attain cognitive and metacognitive strategies for "using, managing, and discovering knowledge". [2] The first three (modeling, coaching, scaffolding) are at the core of cognitive apprenticeship and help with cognitive and metacognitive development. The next two (articulation and reflection) are designed to help novices with awareness of problem-solving strategies and execution similar to that of an expert. The final step (exploration) intends to guide the novice towards independence and the ability to solve and identify problems within the domain on their own. The authors note, however, that this is not an exhaustive list of methods and that the successful execution of these methods is highly dependent on the domain. [ CollinsBrownmetacognitive [2] [

19 Modelling Modelling is when an expert, usually a teacher, within the cognitive domain or subject area demonstrates a task explicitly so that novices, usually a student, can experience and build a conceptual model of the task at hand. For example, a math teacher might write out explicit steps and work through a problem aloud, demonstrating her heuristics and procedural knowledge. Modeling can include modeling of expert performance or processes in the world. conceptual modelheuristicsprocedural knowledge

20 Coaching[edit source | editbeta]edit sourceeditbeta Coaching involves observing novice task performance and offering feedback and hints to sculpt the novice's performance to that of an expert's. The expert oversees the novice's tasks and may structure the task accordingly to assist in the novice's development.

21 Scaffolding[edit source | editbeta]edit sourceeditbeta Instructional scaffolding is the act of putting into place strategies and methods to support the student's learning. These supports can be teaching manipulatives, activities, and group work. The teacher may have to execute parts of the task that the student is not yet able to do. This requires the teacher to have the skill to analyze and assess student abilities in the moment. Instructional scaffolding

22 Articulation[edit source | editbeta]edit sourceeditbeta Articulation includes "any method of getting students to articulate their knowledge, reasoning, or problem-solving process in a domain" (p. 482). [1] Three types of articulation are inquiry teaching, thinking aloud, and critical student role. Through inquiry teaching (Collins & Stevens, 1982), teachers ask students a series of questions that allows them to refine and restate their learned knowledge and to form explicit conceptual models. Thinking aloud requires students to articulate their thoughts while solving problems. Students assuming a critical role monitor others in cooperative activities and draw conclusions based on the problem- solving activities. Articulation is described by McLellan [8] as consisting of two aspects: separating component knowledge and skills to learn them more effectively and, more common verbalizing or demonstrating knowledge and thinking processes in order to expose and clarify them. [1] [8]

23 Reflection[edit source | editbeta]edit sourceeditbeta Reflection allows students to "compare their own problem-solving processes with those of an expert, another student, and ultimately, an internal cognitive model of expertise" (p. 483). [1] A technique for reflection could be to examine the past performances of both expert and novice and to highlight similarities and differences. The goal of reflection is for students to look back and analyze their performances with a desire for understanding and improvement towards the behavior of an expert. [1]

24 Exploration[edit source | editbeta]edit sourceeditbeta Exploration involves giving students room to problem solve on their own and teaching students exploration strategies. The former requires the teacher to slowly withdraw the use of supports and scaffolds not only in problem solving methods, but problem setting methods as well. The latter requires the teacher to show students how to explore, research, and develop hypotheses. Exploration allows the student to frame interesting problems within the domain for themselves and then take the initiative to solve these problems.

25 Principles 1) Cognitive apprenticeship encourages reflection on differences between novices and expert performance 2) Cognitive apprenticeship encourages the development of self-monitoring and correction skills required for the problem solver to alternate among different cognitive activities 2) Sequencing: Tasks are sequenced to reflect the changing demands of learning: increasing complexity, increasing diversity, and global before local skills 3) Sociology: With exploiting cooperation and the culture of expert practice, cognitive apprenticeship extends situated learning to diverse settings so that students learn how to apply their skills in varied context with intrinsic motivation.

26 ) Condition of learning The appropriate target knowledge for an ideal learning environment is to include four categories of expert knowledge: domain knowledge, heuristic strategies, control strategies, and learning strategies. The learning setting focuses on the four content categories with situated cooperative problem solving.

27 Role of facilitator The facilitator’s role involves modeling, coaching, and scaffolding to help students acquire an integrated set of cognitive and metacognitive skills through processes of observation, and of guided and supported practice.

28 ) Instructional strategies 1) Modeling that involves an expert’s carrying out a task so that student observe and build a conceptual model of the processes required to accomplish the task 2) Coaching that consists of observing student’s performance and offering hints, scaffolding, feedback, modeling, reminders, and new tasks 3) Scaffolding provided by the teacher to help the student carry out a task 4) Articulation that gets students to articulate their knowledge, reasoning, or problem-solving processes in a domain 5) Reflection that enables students to compare their own problem- solving processes with those an expert, peer, and an internal cognitive model of expertise. 6) Exploration as a method of teaching sets general goals for students and that encourages students to focus on particular subgoals of interest to them.

29 (g) Assessment method Performance-based assessment

30 (a) Goals and preconditions Problem solving in a real world environment Learning of processes that experts use in complex environments

31 (b) Principles 1. Classroom learning pulls the content out of its real life context. 2. Learning requires understanding and application in a real world setting.

32 (c) Condition of learning 1. Present learning in a situated environment (real world). 2. Content should be presented from simple to difficult.

33 Instructional strategies 1. Content: Teach heuristic, as well as textbook knowledge. Heuristic knowledge could be considered trade or context specific information. 2. Situated learning: Teach knowledge and skills in the way that they would be useful in the real world. 3. Model and explain: Demonstrate real world application and explain to the learner why you are doing a task. 4. Coaching: Allow the learner to do a task and give them immediate feedback about their performance. 5. Articulation: Have the learner provide rationale for their actions. 6. Reflection: Have students review their performance and analyze. There are four levels that Collins suggests:

34 a. imitation – doing like the master teacher b. replay – critiquing video of a performance c. abstracted replay – tracing an experts movements and comparing them to the learner’s movements d. spatial reification – tracing the movement of the body through space.

35 7. Exploration: Allow learner to try out different solutions and trace the outcomes. 8. Sequence: Present information from easy to complex content and from general to specific skills. There are three ways to think about this sequencing: a. Increase complexity b. Increase diversity (of examples or situations) c. Move from general to specific skills (Collins calls them Global to Local skills). (g) Assessment method Learner can problem solve and complete processes within the real world domain of the apprenticeship.


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