Company Filing History:
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Years Active: 2016-2025
Title: Innovations by Deep Bera
Introduction
Deep Bera is an accomplished inventor based in Bengaluru, India. He has made significant contributions to the field of medical technology, particularly in ultrasound and cardiac monitoring. With a total of 2 patents, his work showcases innovative solutions aimed at improving healthcare outcomes.
Latest Patents
One of Deep Bera's latest patents is an "Ultrasound transducer unit with friction guiding function." This invention features a transducer unit designed to enhance the user experience by incorporating a friction guiding function. The unit includes a vibration generating mechanism at the tissue contact area and is capable of sensing the sliding direction across a tissue surface. This technology allows for controlled vibration adjustments to optimize friction levels, thereby guiding users toward target locations effectively.
Another notable patent is the "Method and apparatus for classifying cardiac arrhythmia." This invention utilizes electrocardiogram (ECG) signals to classify different types of cardiac arrhythmias. The method involves converting ECG beats into symbols and identifying the corresponding arrhythmia class. This innovative approach aims to improve the accuracy of cardiac monitoring and diagnosis.
Career Highlights
Deep Bera has worked with prominent companies in the technology sector, including Samsung Electronics and Koninklijke Philips Corporation. His experience in these organizations has contributed to his expertise in developing cutting-edge medical devices and technologies.
Collaborations
Some of Deep Bera's notable coworkers include Raghavendra Bobbi Shankarnarayana Bhatta and Rangavittal Narayanan. Their collaboration has likely fostered an environment of innovation and creativity in their respective projects.
Conclusion
Deep Bera's contributions to medical technology through his patents reflect his commitment to advancing healthcare solutions. His innovative inventions have the potential to significantly impact patient care and monitoring.