Experience
Tubaldi Lab
January 2024 - Present
Since January 2024, my role as a Machine Learning Researcher at Tubaldi Lab, University of Maryland, has immersed me in cutting-edge research at the intersection of machine learning and medical imaging. One of my key projects involves the precise segmentation of the Aorta, employing advanced models such as V-NET, U-NET, SSL, and Uncertainty-informed Prototype Consistency Learning. This work is crucial for enhancing the accuracy of medical diagnostics, and through rigorous development and testing, I achieved impressive accuracies of 95%, 94.75%, 93%, and 97% respectively. This project not only demonstrates my ability to navigate complex machine learning landscapes but also highlights my contribution to potentially life-saving medical research.
In addition to my work in medical imaging, I have also been instrumental in the development and optimization of an advanced 3D-printed robotic gripper for UR-3E robots. This innovative project leverages predictive capabilities to assess object pressure, volume, and dimensions, thereby enhancing the robot's handling efficiency and adaptability. Currently, under construction and training, this robotic gripper stands as a testament to my skills in marrying machine learning with practical robotics applications. The project embodies my commitment to pushing the boundaries of what is possible in robotics, aiming to create more intelligent, capable, and efficient robotic systems.
AD Kitchen
September 2022 - July 2023
With a dedication to precision and professionalism, I meticulously crafted agreement documents and authorization letters, ensuring they served as the robust foundation of our business relationships and operations. This attention to detail was pivotal in securing a significant 300-person client, marking a crucial expansion of our client base and enhancing our business prospects. Additionally, I managed daily report generation and maintained continuous communication with clients, crucial for the seamless operation of our site processes. My unwavering commitment to precision, effective communication, and excellence not only solidified my reputation but also played a critical role in building trust with our clients, laying a solid foundation for our organization's future growth and success.
Aditya Aluminium
May 2022 - July 2022
I implemented precise programming to optimize the movement of the ingot casting conveyor belt, synchronizing it seamlessly with the stacking belt. This enhancement significantly improved operational efficiency. Additionally, I took on the responsibility of operating and maintaining the ABB Robotic arm at the cast house station, ensuring its smooth performance.
Furthermore, I played a pivotal role in spearheading the conceptualization of an efficient integrated logistical robot, which brought innovative strategies to the finished goods yard. This initiative contributed to enhanced operations and productivity, showcasing my commitment to driving efficiency and innovation in our processes.
STAR
August 2020 - September 2020
I undertook the development of intricate circuitry to support the functioning of an octagonal Static Thrust Test Pad and Flight Recovery System, specifically designed to meet the rigorous demands of high-powered rocketry applications. This endeavor required a meticulous approach to circuit design, ensuring that the systems could operate efficiently and reliably during testing and recovery processes.
In this project, I leveraged advanced tools such as Proteus and Raspberry Pi to implement a set of complex projects. One of the noteworthy achievements was enabling the Static Thrust Test Pad to accommodate the testing of up to eight rockets simultaneously. This not only demonstrated my technical expertise but also showcased my ability to adapt and innovate, addressing the specific requirements of rocketry testing.
Furthermore, a key aspect of this undertaking was prioritizing safety. I achieved this by designing and integrating a comprehensive Flight Recovery System. This system was intricately engineered to enhance safety measures during rocket testing and recovery operations. It not only served as a testament to my electronic circuit design skills but also highlighted my proficiency in seamlessly integrating various components into a cohesive and reliable system.
In summary, my involvement in the development of the circuitry for the Octagonal Static Thrust Test Pad and Flight Recovery System was marked by meticulous attention to detail, innovative problem-solving, and a steadfast commitment to safety, all of which significantly contributed to the success of these high-powered rocketry applications.