LISA ChatGPT
Well-being and mental health are fundamental components of children's development and their educational success. Yet, more than one in four children face challenges such as neurodevelopmental and learning disorders (like Specific Learning Disorder, Autism Spectrum Disorder, Attention deficit hyperactivity disorder, etc.), mood disorders (like anxiety, depression), or emotional and behavioral disorders.
In the absence of detection and intervention, these challenges often lead to severe consequences for the child and those around them: lack of interest, dropping out, bullying, violence, suicidal actions...
The LISA research-action program provides educational stakeholders with tools to identify, understand, and collaborate, to support each child, both in and outside of school, based on their strengths and needs. Co-constructed by teachers, families, researchers, clinicians, and other educational actors, LISA develops a community, a training program, and a digital platform.
LISA is originally developed and prototyped in France, initiated by iféa, a network of innovative schools, and the Learning Planet Institute. LISA is developed Under the supervision of its scientific committee, including Ariel B. Lindner, Bennett L. Leventhal, Richard Delorme, Bruno Falissard, Caroline Huron, Yasser Kazhaal, and others; a dedicated team including Anirudh Krishnakumar, Naima Page, Kseniia Konischeva, Arno Klein, and others; and key partner institutions including the Child Mind Institute, INSERM U1284, CléPsy, and the Robert Debré Hospital in Paris.
The project has received support from the French government to be deployed in 200 schools within the Académie de Créteil, Académie de Paris, Académie de Versaille, and the Mission laïque française.
LISA aims to provide stakeholders in the education of children and adolescents with evidence-based, actionable, and accessible training and guidance in the process of identifying and supporting their unique strengths and needs. As part of this effort, LISA is building a database of resources, Lisapedia.
While all Lisapedia content will be carefully written, reviewed, and validate by a scientific and editorial committee, this page represents a technological proof of concept of combining structured knowledge from field experts with generative AI to draft content, which can then be reviewed and edited by experts.
THIS CONTENT IS DISPLAYED HERE FOR DEMONSTRATION PURPOSES ONLY. IT IS NOT INTENDED TO BE USED AS A REFERENCE. SOME CONTENT MAY BE IRRELEVANT, OR EVEN OUTRIGHT FALSE. IF YOU SUSPECT A MEDICAL CONDITION, IMMEDIATLY REFER TO A TRAINED PROFESSIONAL.
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I am a 12th grade math teacher. I am looking for suggestions on how to support my student according to their strengths and needs. You are a child and adolescent psychiatrist. Your role is to provide guidance to a 12th grade math teacher on how to support student according to their strengths and needs. My student has been assessed for the following dimension: Mathematics - cognitively and mechanically performing mathematical operations: Math, or arithmetic, is the ability to manage numerical and/or quantitative ideas, both conceptually and in graphical representations. Mathematical skills evolve over time, beginning using numbers for the concrete counting of objects, evolving into the appreciation that numbers can represent various constructs such as quantity, time, space, etc., that can be manipulated through mathematical operations. Success with math can be confounded by writing difficulty as "imprecise" presentation of numbers leads to errors. <h3><slot data-nx-ref="value-0"></slot></h3> <slot data-nx-ref="value-0-desc"></slot> <h3><slot data-nx-ref="value-50"></slot></h3> <slot data-nx-ref="value-50-desc"></slot> <h3><slot data-nx-ref="value-100"></slot></h3> <slot data-nx-ref="value-100-desc"></slot> His/her profile is as follows: Mathematical operations and processes disrupted by excessive speed and/or meticulousness: Overly precise, unnecessary use of numbers to express thoughts and ideas of quantity, time, and space. This level of precision consumes cognitive resources and time, making it difficult to efficiently and effectively use mathematical operations to practically solve problems. Similarly, excessively rapid mathematical operations lead to lack of precision and time-consuming errors or other disruptions. Create a guide that I can use and share to best support my student. The guide MUST have the following structure: 1. Overview of the challenges associated with this profile Present this section as a markdown table with 2 columns: - Challenges, - How they manifest. 2. Efficient, evidence-based strategies to support this student In this section, include 3 to 5 strategies. Each strategy must have: - A title, - A brief description and why it is efficient, - Specific implementation steps, - Parameters to monitor and adjust. Present this information in a markdown table with 4 columns. Each strategy must be sustainable and easy to implement in the classroom, and lead to this student nurturing his strengths and building resilience. 3. Do and don'ts List common mistakes to avoid and best practices to follow when supporting this student. Present this information in a markdown table with 2 columns. 4. Further reading and research List resources that can help me learn more about this profile, as well as a choice of keywords to use in my own research. Be concise and use simple language. Prefer using bullet points and/or markdown tables instead of long text paragraphs.
1. Overview of the Challenges Associated with this profile
| Challenges | How They Manifest |
|---|---|
| Overly meticulous | Student spends excessive time on perfecting simple mathematical operations, even when the high precision level is unnecessary. |
| Rapid calculations | The speed at which the student performs calculations often leads to errors. These take time to identify and correct. |
| Efficient problem solving | Due to meticulousness and rapidity, efficiently solving practical problems through mathematical operations is a challenge. These habits can lead to errors and time-consuming disruptions, affecting productivity. |
2. Efficient, Evidence-based Strategies to Support this Student
| Strategy Title | Description & Efficiency | Implementation Steps | Parameters to Monitor and Adjust |
|---|---|---|---|
| Controlled Speed | This strategy involves helping students slow down to prevent unnecessary errors caused by speed. | (1) Provide a set amount of time for problems to encourage slowing down. (2) Use exercises like Sudoku to practice controlled speed. (3) Remind student to take more time to reduce errors. | Monitor the frequency of errors due to speed. Adjust more time for assignments if needed. |
| Pertinent Precision | Teach the student to recognize when high precision is necessary vs. when it's not. | (1) Use estimation exercises. (2) Discuss real-life examples where precision matters and where it doesn't. (3) Practice efficient rounding off techniques. | Monitor the student's grasp of what level of precision is appropriate for different types of problems. |
| Encourage Practicality | Encourage the student to develop a practical approach to problem-solving. | (1) Assign tasks requiring problem-solving skills (2) Discuss real-life mathematical applications (3) Encourage group learning to broaden perspectives. | Observe and measure the development of problem-solving skills and adjust the difficulty level of problems as necessary. |
3. Do's and Don'ts
| Do's | Don'ts |
|---|---|
| Do be supportive and patient as the student works through their challenges. | Don't rush the student or pressure them to be faster. |
| Do provide practical examples and real-life applications of mathematics. | Don't focus exclusively on abstract mathematical problems. |
| Do encourage controlled speed and applying appropriate precision. | Don't criticize the student for being meticulous or quick. |
4. Further Reading and Research
- Mind for Numbers: How to Excel at Math and Science (Even If You Flunked Algebra)
- Why Do Math: Mathematics in everyday life
- Overly meticulous and rapid calculations: Finding the balance
Keywords for your own research:
Mathematics Education, Learning Strategies, Precision & Speed in Mathematics, Mathematical Anxiety, Mathematical Resilience, Adaptive Teaching in Mathematics, Maths Problem-solving Skills.