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https://github.com/imumi17/autism-prediction-using-machine-learning
This project focuses on the prediction of Autism using machine learning techniques, aiming to assist in early detection and intervention.
https://github.com/imumi17/autism-prediction-using-machine-learning
artificial-intelligence autism autism-spectrum-disorder machine-learning
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This project focuses on the prediction of Autism using machine learning techniques, aiming to assist in early detection and intervention.
- Host: GitHub
- URL: https://github.com/imumi17/autism-prediction-using-machine-learning
- Owner: imumi17
- Created: 2024-08-17T05:40:36.000Z (3 months ago)
- Default Branch: master
- Last Pushed: 2024-08-17T05:59:37.000Z (3 months ago)
- Last Synced: 2024-08-17T06:46:21.496Z (3 months ago)
- Topics: artificial-intelligence, autism, autism-spectrum-disorder, machine-learning
- Language: Jupyter Notebook
- Homepage:
- Size: 0 Bytes
- Stars: 0
- Watchers: 1
- Forks: 0
- Open Issues: 0
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Metadata Files:
- Readme: README.md
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README
# Autism Prediction Using Machine Learning
## Introduction
Autism Spectrum Disorder (ASD) is a complex neurodevelopmental condition characterized by challenges in social interaction, communication, and repetitive behaviors. Early diagnosis and intervention are crucial for improving outcomes for individuals with ASD. This project focuses on the prediction of Autism using machine learning techniques, aiming to assist in early detection and intervention.
## History of Autism
Autism was first described in the early 20th century by Dr. Leo Kanner in 1943. His seminal paper identified a group of children who displayed distinct behavioral patterns, which he referred to as "autistic disturbances of affective contact." Around the same time, Dr. Hans Asperger described a similar condition, later known as Asperger's Syndrome. Over the years, the understanding of Autism has evolved, and it is now recognized as a spectrum disorder, encompassing a wide range of symptoms and abilities.
## Impact and Severity of Autism
Autism affects individuals differently, with varying degrees of severity. Some individuals with Autism may lead independent lives, while others may require significant support. The impact of Autism extends beyond the individual to families, caregivers, and society. Challenges associated with Autism include difficulties in communication, social interactions, and sensory processing. These challenges can lead to social isolation, educational barriers, and limited employment opportunities.
Autism is often accompanied by other conditions such as intellectual disabilities, anxiety, and epilepsy. The lifelong nature of the disorder means that individuals with Autism may require ongoing support and interventions.
## Controllability of Autism
Autism is not a curable condition, but it is manageable. Early diagnosis and intervention are key to improving outcomes for individuals with Autism. Behavioral therapies, educational interventions, and support services can help individuals develop essential skills and enhance their quality of life. The goal of intervention is not to "cure" Autism but to support individuals in reaching their full potential.
## Project Overview
This project aims to develop a machine-learning model capable of predicting the likelihood of Autism in individuals based on specific features. The prediction model is intended to assist healthcare professionals and researchers in early detection and intervention.
## Dataset
The dataset used in this project includes features that are commonly associated with Autism. The dataset was preprocessed to handle missing values, normalize features, and split into training and testing sets.
## Methodology
1. **Data Preprocessing:** Cleaning and preparing the dataset for analysis.
2. **Feature Selection:** Identifying the most relevant features for predicting Autism.
3. **Model Selection:** Evaluating various machine learning models, including Logistic Regression, XGBClassifier, and Support Vector Machines (SVM).
4. **Training and Testing:** Splitting the dataset into training and testing sets to evaluate model performance.
5. **Evaluation:** Using metrics such as accuracy to assess the performance of the models.## Results
The machine learning model achieved 80-85% accuracy in predicting Autism. These findings suggest that machine learning can be a valuable tool in the early detection of Autism.
## Conclusion
The prediction of Autism using machine learning has the potential to assist in early diagnosis and intervention, ultimately improving outcomes for individuals with Autism. While the model developed in this project shows promise, further research and validation are necessary to ensure its reliability and effectiveness in real-world applications.
## Future Work
Future improvements could include:
- Expanding the dataset to include more diverse populations.
- Incorporating additional features related to genetic and environmental factors.
- Exploring deep learning techniques to enhance model accuracy.
- Collaborating with healthcare professionals to validate the model in clinical settings.