Final year seminar topic for electronics students: The impact of artificial intelligence on robotics.

Introduction

Robots are becoming an integral part of our daily lives, with applications ranging from manufacturing to healthcare. As technology advances, the capabilities of robots continue to grow, making them more versatile and efficient. This has sparked interest in the field of robotics among engineering students, who are always looking for innovative projects to showcase their skills and knowledge. In this project, we will explore a final year seminar topic for electronics students related to robots.

Problem Statement

One of the main challenges in robotics is designing robots that can perform tasks autonomously and efficiently. The existing systems often rely on pre-programmed instructions or remote control, limiting their ability to adapt to changing environments. This can be a major drawback in applications where real-time decision-making is required, such as search and rescue operations or environmental monitoring. Therefore, there is a need to develop a system that enables robots to operate independently and intelligently.

Existing System

The current state-of-the-art in robotics involves using sensors and actuators to collect and process information from the environment. This information is then used to control the movement and functionality of the robot. While this approach has proven to be effective in many scenarios, it has several limitations. For example, robots may struggle to navigate complex terrain, avoid obstacles, or interact with objects in a meaningful way. Additionally, the reliance on remote control or pre-defined instructions can hinder the robot’s ability to adapt to unforeseen circumstances.

Disadvantages

Some of the main disadvantages of the existing system include:

• Limited autonomy: Robots may require constant human intervention to perform tasks.
• Lack of adaptability: Robots may struggle to handle unexpected situations or environments.
• Complex programming: Developing and debugging software for robots can be time-consuming and challenging.
• High cost: Building and maintaining a robot with advanced capabilities can be expensive.

Proposed System

To address these shortcomings, we propose a new system that leverages artificial intelligence and machine learning techniques to enable robots to operate more autonomously and intelligently. This system will enable robots to learn from their interactions with the environment and make decisions in real-time based on the data they collect. By incorporating these advanced capabilities, robots will be able to adapt to changing conditions and perform tasks more efficiently.

Advantages

Some of the key advantages of the proposed system include:

• Improved autonomy: Robots will be able to operate independently, reducing the need for human intervention.
• Enhanced adaptability: Robots will be able to learn from their experiences and adjust their behavior accordingly.
• Efficient decision-making: Robots will be able to make informed decisions in real-time based on the data they collect.
• Cost-effective: By reducing the reliance on remote control and pre-defined instructions, the proposed system will help lower the overall cost of robot development.

Features

The key features of the proposed system include:

1. Sensor fusion: Integrating multiple sensors to provide robots with a comprehensive view of their environment.
2. Machine learning algorithms: Using algorithms to enable robots to learn from their interactions and improve their performance over time.
3. Real-time decision-making: Allowing robots to make decisions autonomously and quickly based on the data they collect.
4. Adaptability: Enabling robots to adapt to changing conditions and perform tasks more efficiently.

Conclusion

In conclusion, the field of robotics is evolving rapidly, with new advancements enabling robots to perform increasingly complex tasks. By developing a system that leverages artificial intelligence and machine learning, we can enable robots to operate more autonomously and intelligently. This will open up new opportunities for applications in various industries, from manufacturing to healthcare. As engineering students, it is essential for us to stay at the forefront of these developments and continue to push the boundaries of what is possible with robotics. This final year seminar topic for electronics students is just one example of how we can contribute to the field and make a difference in the world of robotics.