Enthusiastic Electronics and Communication Engineer specializing in Hardware Design, VLSI architectures, and Internet of Things (IoT) ecosystems. Proven experience in driving hardware prototyping, automated micro-controller instrumentation, and real-time sensor array operations. Skilled at training engineering squads and bridging basic embedded circuits with dynamic IoT analytical dashboards.
Smart-Hydro: Automated Crop Monitoring for Hydroponic Farming
Designed and launched an automated IoT telemetry engine tracking critical hydroponic vectors like temperature, ambient humidity, liquid nutrients, moisture, and UV light dynamics. Integrated real-time relays, safety systems (gas/fire interception matrices), and customized dashboards for remote automation overrides.
Performance and Analysis of 6T SRAM (VLSI Structure)
Engineered a complete transistor-level 6T SRAM cell assembly from scratch inside Cadence Virtuoso. Carried out comprehensive Design Rule Checks (DRC), Layout Versus Schematic (LVS) verifications, alongside rigorous pre-layout and post-layout transient simulations to track Static Noise Margin (SNM) and power draw.
Safe House Security & Automation System
Developed an advanced automated residential fortification grid integrating 360-degree radar detection matrices, obstacle-evading lasers, fire monitoring sensors, and automated LDR ambient illumination switching linked directly via cellular wireless loops.
IoT & Robotics Instructor
Instructed student cohorts in embedded C scripting paradigms, schematic analysis, circuit board layout strategies, and digital component logic simulation models.