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<li> Authored 7 successful government research proposals resulting in 10 million USD of R&D funding include Phase I, II, and III program types </li>
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<li><b>Principle Investigator</b> for Navy program N203-149: High Dynamic Range Microwave Photonic Link for LightRIDR System and Navair program N202-099: NOHP-Neuromorphic Optoelectronic Hybrid Processor </li>
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<li><b>Principle Investigator</b> for 1) Navy program N203-149: High Dynamic Range Microwave Photonic Link for LightRIDR System and 2) Navair program N202-099: NOHP-Neuromorphic Optoelectronic Hybrid Processor </li>
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<li><b>Lead Engineer</b> for Army program A20B-T004-0271: Massively Parallel Photonic Artificial Neural Network Accelerator </li>
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<li><b>Photonic Engineer</b> SOCOM program S211-003: Wideband and Analog Radio Frequency Fingerprinting At a Distance, for Navy Phase III SBIR N112-170: Future Advanced Satellite Communication (SATCOM) Technologies (FAST) SATCOM Pre-Planned Product Improvement (P3I) for Navy Multiband Terminal (NMT), NASA program Z2.02-5311: HPSC-compatible Neuromorphic Photonic Coprocessor, and Strategic Capabilities Office SCO 213-003: Photonic AI Processor</li>
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<li><b>Photonic Engineer</b> for 1) SOCOM program S211-003: Wideband and Analog Radio Frequency Fingerprinting At a Distance, 2) Navy Phase III SBIR N112-170: Future Advanced Satellite Communication (SATCOM) Technologies (FAST) SATCOM Pre-Planned Product Improvement (P3I) for Navy Multiband Terminal (NMT), 3) NASA program Z2.02-5311: HPSC-compatible Neuromorphic Photonic Coprocessor, and 4) Strategic Capabilities Office SCO 213-003: Photonic AI Processor</li>
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<li> Authored 7 successful government research proposals resulting in <b>10 million USD</b> of R&D funding include Phase I, II, and III program types </li>
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<li> Designed integrated photonic testing facilities. </li>
<li>Developed novel integrated photonic analog processers to mitigate interference within wireless systems. Critical for more efficient commericial communications and maintaining communication within defense enviroments.</li>
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<li>Developed novel optical architectures for improved RF performance: Balanced Cancellers and Hybrid Cancellers. Resulting in 1000x noise performance improvement. </li>
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<li>Designed, Simulated, Fabricated, and Characterized Passive Silicon, Active Silicon, Silicon Nitride, and Indium Phosphide PICs.</li>
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<li>Trained in Lithography and Packaging specfic to integrated photonics (see thesis appendix for recipes.)
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<li>Contributing developer of Lab Automation Software.</li>
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<li>Authored 6+ sucessful research grants resulting in over 1 million USD in funding.</li>
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<li>Authored 2 book chapters and 30+ journal papers within the field of microwave and neuromorphic photonics. </li>
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<li>Reviewer for IEEE, JLT, PTL</li>
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<li>
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Programmed a cloud-based web app using Flask and JavaScript aimed at storing, visualizing, and tracking temperature and humidity
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of each drug container to estimate the degradation of the drug.
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</li>
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<li>
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Created an alert system to send notifications and emails when the parameters exceed the threshold.
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</li>
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<li>
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<b>Tools:</b> Python, Flask, JavaScript
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<b>Tape Out Lead :</b> Indium Phosphide (HHI/JePPIX), Passive Silicon (ANT), Silicon Nitride (LioniX), and Active Silicon (AMF)
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</li>
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</ul>
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</div>
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<span>July 2018 - Nov 2018 | Ahmedabad, India</span>
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