Top Deep Learning Project Ideas for Final Year Engineering Students [2023]
“Unlock Your Potential with Cutting-Edge Deep Learning Projects for Engineering Students with Advanced Skills”” TensorFlow, Keras, PyTorch, and More.”
“Unlock Your Potential with Cutting-Edge Deep Learning Projects for Engineering Students with Advanced Skills”” TensorFlow, Keras, PyTorch, and More.”
By participating in our deep learning projects, students will gain proficiency in popular deep learning frameworks, knowledge of neural networks and their architectures, hands-on experience with various deep learning tasks, understanding of the latest industry trends and applications, problem-solving skills, data pre-processing and model training techniques, analytical and critical thinking skills, and the ability to apply deep learning to real-world problems.
This project aims to build a deep-learning model for identifying plant species from images. The model will use Convolutional Neural Networks (CNNs) and transfer learning techniques to achieve high accuracy. Python and libraries such as TensorFlow, Keras, and Scikit-learn will be used for model development, and Flask, HTML, and CSS for web application deployment. The dataset will be obtained from various sources, and the model’s performance will be compared to traditional machine learning algorithms such as SVMs and RFs. The proposed model has the potential to improve plant species identification accuracy for conservation and biodiversity monitoring.
Plant Growth Recommendation System based on Weather Conditions and Soil Patterns using Machine Learning and Deep Learning Techniques
Abstract:
This project aims to develop a plant growth recommendation system that utilizes machine learning and deep learning techniques to suggest suitable plants based on weather conditions and soil patterns. The system will use a dataset consisting of weather data, soil properties, and plant growth information to train a machine-learning model.
Algorithms used:
Various machine learning algorithms such as Decision Trees, Random Forest, and Support Vector Machines will be used to predict the plant growth performance under different weather and soil conditions. Deep Learning techniques such as Convolutional Neural Networks (CNNs) and Recurrent Neural Networks (RNNs) will also be employed to improve the prediction accuracy.
The proposed plant growth recommendation system has the potential to provide valuable insights to farmers and gardeners for improving crop yield and plant growth.
Abstract:
This project proposes to develop a heart disease prediction system using machine learning and deep learning techniques. The system will use a dataset consisting of various features such as age, sex, blood pressure, and cholesterol levels, to train a model that can accurately predict the risk of heart disease in patients.
Algorithms used:
Logistic Regression, Decision Trees, Random Forest, and Support Vector Machines will be employed to identify the most significant features that contribute to the risk of heart disease. Deep Learning techniques such as Convolutional Neural Networks (CNNs) and Recurrent Neural Networks (RNNs) will also be used to improve prediction accuracy.
The development of the deep learning model will be carried out using Python programming language and various open-source libraries such as TensorFlow, Keras, and PyTorch. The final model will be deployed as a web application using Flask, HTML, and CSS for user interaction and interface.
The proposed tumor segmentation model has the potential to assist radiologists in accurately identifying and localizing breast tumors, which can aid in early diagnosis and treatment of breast cancer.
The proposed driver fatigue prediction system has the potential to improve road safety by preventing accidents caused by driver fatigue or drowsiness. The system can be used by fleet operators, long-distance drivers, and individuals to monitor their driving behavior and take necessary breaks to prevent accidents.
The system will include an alert system that will trigger an alarm or vibration when signs of fatigue or drowsiness are detected. The alert system will be integrated into the driver’s dashboard, and the system will be able to work in both day and night conditions.
Develop deep-learning models for fire detection using surveillance cameras in public places. The proposed system will use Convolutional Neural Networks (CNNs) to detect fire in real time by analyzing video feeds from surveillance cameras.
The dataset used for this project will consist of videos and images of fires, along with normal video feed from public places. The model will be trained using various deep-learning architectures such as YOLOv4, Faster R-CNN, and SSD.
The proposed fire detection system has the potential to improve public safety by detecting fires early, reducing response times, and minimizing the damage caused by fires in public places.
To provide faster responses to the queries of the customers, it is necessary to build chatbots that serve most of the requirements of customers. A chatbot is a conversational agent capable of emulating human interactions. The purpose of this project is to implement a chatbot for a college website in order to make it more accessible, convenient and to enhance user experience. Some of the features it is not limited to, it provides concise answers to the user’s queries, also necessary links to information regarding course content, and extracurricular activities as well as directions to various locations on campus as per the user’s requirement.
The proposed predictive maintenance system has the potential to reduce maintenance costs and minimize downtime by predicting potential failures before they occur. This system can be used by manufacturers, power plants, and other industries that rely on heavy-duty generators to ensure their equipment is always running efficiently.
The dataset used for this project will consist of sensor data collected from generators over time, including temperature, pressure, vibration, and current readings. The data preprocessing phase will involve data cleaning, normalization, and feature engineering to prepare the data for deep learning models.
The proposed hand gesture recognition system has the potential to improve accessibility and ease of use for various applications, such as gaming, virtual reality, and home automation. This system can be used by individuals with limited mobility or dexterity to control devices and applications using hand gestures.
The dataset used for this project will consist of images and videos of hand gestures, including common hand gestures used for control, such as swiping, pinching, and pointing. The data pre-processing phase will involve data cleaning, augmentation, and feature extraction to prepare the data for deep learning models.
We offer training in both offline and online
Browse the available project options: Visit the Project Academy website and browse the available deep learning projects. Each project page will provide an overview of the project, including the topics covered, the duration, and the prerequisites. Once you have decided on a project, you will need to fill out an application form.
Programming skills: Proficiency in programming languages such as Python is essential for working on deep learning projects. Familiarity with deep learning frameworks such as TensorFlow and PyTorch is also important.