Your search keyword '"Joyce Massicotte"' showing total 5 results

1. Automatic Assessment of Students’ Engineering Design Performance Using a Bayesian Network Model

Author

Joyce Massicotte, Wanli Xing, Guanhua Chen, Charles Xie, Jie Chao, Xudong Huang, and Chenglu Li

Subjects

Computer science, business.industry, Teaching method, 05 social sciences, Learning analytics, 050301 education, Bayesian network, Educational data mining, Computer Science Applications, Education, Bayesian statistics, Formative assessment, Engineering education, ComputingMilieux_COMPUTERSANDEDUCATION, 0501 psychology and cognitive sciences, Software engineering, business, Engineering design process, 0503 education, 050107 human factors

Abstract

Integrating engineering design into K-12 curricula is increasingly important as engineering has been incorporated into many STEM education standards. However, the ill-structured and open-ended nature of engineering design makes it difficult for an instructor to keep track of the design processes of all students simultaneously and provide personalized feedback on a timely basis. This study proposes a Bayesian network model to dynamically and automatically assess students’ engagement with engineering design tasks and to support formative feedback. Specifically, we applied a Bayesian network to 111 ninth-grade students’ process data logged by a computer-aided design software program that students used to solve an engineering design challenge. Evidence was extracted from the log files and fed into the Bayesian network to perform inferential reasoning and provide a barometer of their performance in the form of posterior probabilities. Results showed that the Bayesian network model was competent at predicting a student’s task performance. It performed well in both identifying students of a particular group (recall) and ensuring identified students were correctly labeled (precision). This study also suggests that Bayesian networks can be used to pinpoint a student’s strengths and weaknesses for applying relevant science knowledge to engineering design tasks. Future work of implementing this tool within the computer-aided design software will provide instructors a powerful tool to facilitate engineering design through automatically generating personalized feedback to students in real time.

Published

2020

2. How Does Augmented Observation Facilitate Multimodal Representational Thinking? Applying Deep Learning to Decode Complex Student Construct

Author

Guanhua Chen, Joyce Massicotte, Charles Xie, Xudong Huang, Ji Shen, Chenglu Li, and Shannon Sung

Subjects

Computer science, business.industry, media_common.quotation_subject, Deep learning, General Engineering, Qualitative property, Science education, Education, Human–computer interaction, Perception, Mental representation, Augmented reality, Artificial intelligence, Haptic perception, business, Transfer of learning, media_common

Abstract

In this paper, we demonstrate how machine learning could be used to quickly assess a student’s multimodal representational thinking. Multimodal representational thinking is the complex construct that encodes how students form conceptual, perceptual, graphical, or mathematical symbols in their mind. The augmented reality (AR) technology is adopted to diversify student’s representations. The AR technology utilized a low-cost, high-resolution thermal camera attached to a smartphone which allows students to explore the unseen world of thermodynamics. Ninth-grade students (N = 314) engaged in a prediction–observation–explanation (POE) inquiry cycle scaffolded to leverage the augmented observation provided by the aforementioned device. The objective is to investigate how machine learning could expedite the automated assessment of multimodal representational thinking of heat energy. Two automated text classification methods were adopted to decode different mental representations students used to explain their haptic perception, thermal imaging, and graph data collected in the lab. Since current automated assessment in science education rarely considers multilabel classification, we resorted to the help of the state-of-the-art deep learning technique—bidirectional encoder representations from transformers (BERT). The BERT model classified open-ended responses into appropriate categories with higher precision than the traditional machine learning method. The satisfactory accuracy of deep learning in assigning multiple labels is revolutionary in processing qualitative data. The complex student construct, such as multimodal representational thinking, is rarely mutually exclusive. The study avails a convenient technique to analyze qualitative data that does not satisfy the mutual-exclusiveness assumption. Implications and future studies are discussed.

Published

2020

3. Developing Instructional Design Agents to Support Novice and K-12 Design Education

Author

Corey Schimpf, Xudong Huang, Charles Xie, Zhenghui Sha, and Joyce Massicotte

Published

2020

4. Learning and teaching engineering design through modeling and simulation on a CAD platform

Author

Jie Chao, Charles Xie, Saeid Nourian, Corey Schimpf, and Joyce Massicotte

Subjects

Engineering drawing, General Computer Science, Computer science, 05 social sciences, 0211 other engineering and technologies, General Engineering, 050301 education, CAD, 02 engineering and technology, computer.software_genre, Science education, Education, Modeling and simulation, Computer Aided Design, Engineering design process, 0503 education, computer, 021106 design practice & management

Published

2018

5. Solarize Your School

Author

Corey Schimpf, Jie Chao, Craig Beaulieu, Charles Xie, Joyce Massicotte, Xudong Huang, and Jeff Lockwood

Subjects

Engineering, Engineering management, Environmental education, business.industry, Energy (esotericism), Computer software, Educational technology, Computer-Assisted Instruction, business, Natural resource, Experiential learning

Published

2018