SIM-T Device Predict Seizures, Tested in Mumbai Hospital

Raunak Dhoot, a Grade 11 student from Dhirubhai Ambani International School, Mumbai, has developed a groundbreaking wearable device, SIM-T (Seizure Identification Mechanism in Toddlers), designed to predict and detect epileptic seizures in children under seven. This innovative project represents four years of dedicated effort, combining advanced technology with a commitment to social impact.   

 
The device recently underwent clinical testing at a leading hospital in Mumbai under the guidance of a renowned neurologist. The trials, conducted with young patients from underprivileged backgrounds, validated SIM-T’s ability to predict seizures through real-time monitoring, offering promising insights for refining its functionality and expanding its reach.

Motivated by a personal connection to the challenges faced by a young child with epilepsy, Raunak leveraged his skills in electronics, coding, 3D design, and machine learning to create SIM-T. The device not only detects seizures but also includes predictive capabilities that could transform epilepsy management.
Speaking about his experience, Raunak Dhoot said, “Testing SIM-T in a hospital setting has been a humbling experience. It reaffirmed my belief in the power of technology to create meaningful change, especially for underserved communities.”  

Raunak’s work has already garnered national recognition, including awards at the Initiative for Research and Innovation in STEM (IRIS) National Fair. He has also secured a provisional patent for SIM-T, with a utility patent application underway, signaling the device’s potential for broader application in healthcare.

 
Mentorship has been a key factor in SIM-T’s development. Clinical expertise ensured that the device was rigorously tested under real-world conditions, while guidance from Dr. Sonal Chandratre, MD, CPE, and Chief Medical Officer at Ascension St. Elizabeth Hospital, helped shape its patient-focused design and usability.

Raunak’s journey has been deeply shaped by OMOTEC (On My Own Technology), a research and innovation lab that serves as a dynamic makerspace for young innovators. With access to cutting-edge tools, expert mentorship, and a collaborative environment, Raunak was able to experiment, build multiple prototypes, and conduct rigorous trial testing to refine SIM-T into a practical and impactful solution.

“At OMOTEC, we foster a culture of hands-on innovation, where students like Raunak can push boundaries, iterate their designs, and bring real-world solutions to life” said Reetu Jain, Co-Founder of OMOTEC. “Raunak’s work exemplifies the values we aim to instill in our students—creativity, problem-solving, and a drive to make a positive impact on society.”  

With epilepsy affecting millions worldwide, SIM-T has the potential to revolutionize seizure management for children. As Raunak continues to refine the device, he remains committed to ensuring its accessibility and effectiveness for families in need.