Debris search and rescue snake

Me

My name is Burhan Yasin Köse, a 17-year-old high school student with a deep passion for electronics and computers since my early childhood. I was introduced to the world of computers at the age of 2 and became even more intrigued with electronics after stumbling upon an ad in 2016. As of 2020, my interest expanded to include software development, leading me to undertake numerous projects in this field. Among these projects, the most recent one I created is the snake robot project, designed specifically for emergency situations like natural disasters, where it serves the purpose of detecting and aiding people trapped under rubble.

Project

The snake robot boasts a range of features that contribute to its effectiveness. Equipped with 4K cameras, it provides detailed information about the wreckage and the condition of those trapped. Additionally, its design enables easy maneuverability through debris, mimicking the movements of a snake to effortlessly navigate tight spaces.

Thanks to an array of sensors integrated into the robot, it can accurately assess the status of individuals trapped under debris. These sensors measure vital parameters such as heart rate and body temperature, providing valuable information about their condition.

Controlling the snake robot is achieved through a remote control, granting the ability to move it forward, backward, right, and left. Furthermore, the robot's sensors enable autonomous movement, allowing it to independently navigate beneath debris to assess the condition of trapped individuals.

Key Features of My Project:

Manual Mode: The robot can be controlled by simple commands (forward, backward, left, right) from the user.

Autonomous Mode: Leveraging artificial intelligence and sensor technologies, the robot can operate independently, ensuring safe and effective performance in rescue operations and challenging reconnaissance environments.

High-Resolution Camera: The robot is equipped with a 4K camera capable of capturing detailed footage of the wreckage, aiding in the analysis of potential strategies for debris removal.

Fast and Precise Movements: The robot exhibits high-speed and accurate movements, enabling efficient operation even in difficult terrain conditions.

Enhanced AI Capabilities: Automatic sensors contribute to the robot's efficient artificial intelligence, allowing it to understand the status of the debris and adapt accordingly. These sensors also provide valuable information about the victims' conditions.

Emergency Rescue: The robot serves a critical role in emergency rescue activities. Operating in automatic mode, it analyzes collected data to assist in emergency response efforts.

To successfully implement this project, I am in need of PCB assembly and 3D printing services. Partnering with PCBWay would be a significant advantage for my project, as their support will facilitate the successful realization of the hardware and software components essential for its development. Moreover, the knowledge and experience gained from this project will contribute to the creation of even more ambitious endeavors in the future.

My ambition as a mechatronics engineer drives my continuous pursuit of knowledge and exploration of various projects. Through my journey, I have developed a strong affinity for embedded systems, particularly Arduino, PIC microcontrollers, Raspberry Pi, and PLCs. I consistently engage with these subjects by reading articles and books, keeping myself up to date and sharpening my skills.

Among the projects I have undertaken, the handmade snake robot stands out as a testament to my passion and dedication to electronics and robotics. This innovative creation addresses the pressing issue of rescuing individuals trapped under debris in the aftermath of natural disasters.

The snake robot project centers around the utilization of Arduino microcontrollers and servo motors as core components. However, its purpose extends far beyond mere components. This project aims to provide assistance to rescue teams, facilitating the retrieval of people buried under debris. By integrating various sensors, the robot can monitor the well-being of trapped individuals, including their pulse, body temperature, and the air quality surrounding them.

The snake robot's design takes into account the harsh conditions present within wreckage sites. With highly sensitive cameras, the robot gains enhanced visibility under debris, enabling more effective action and response.

Communication plays a vital role in this project. Equipped with speakers and microphones, the snake robot can establish communication with stranded individuals, expediting rescue efforts and ensuring swift response.

The snake robot project serves as a remarkable example of innovation and creativity, applicable not only to rescue teams in natural disasters but also to industrial settings. Its adaptability allows for further development and customization to address emergencies such as fires and urgent medical services. Completing this project required a high level of technical expertise, providing me with a valuable opportunity to showcase my skills in this field.

Sponsorship

To further develop and promote my project to a broader audience, I am seeking sponsorship from PCBWay. Their support would enable me to advance the project's capabilities and reach, making a significant impact. I express my gratitude to PCBWay for their assistance in the past, particularly with PCB and 3D printing services, which played a crucial role in the successful completion of my snake robot project. Their commitment to providing quality and affordable solutions has been invaluable, and I extend my heartfelt thanks for their continuous support.