We played a pivotal role in the design and development of an advanced Electro-Optical Infrared (EOIR) system tailored for Light Utility Helicopters. This mission-critical project involved a suite of high-performance interface cards, each custom-designed for seamless video and payload integration across the airborne system.

We developed a compact, rugged, FPGA-based serial data converter tailored for Indian Naval Ships. This system converts data from the MIL-STD-1553B bus to Serial Communication. Built using a Xilinx FPGA, it captures critical Navigation (NAV) and Meteorological (MET) data from radar systems and converts it for display or downstream processing. This design ensures seamless data translation between legacy military systems and modern serial interfaces.

This high-performance communication bridge is designed for robust naval communication needs. It’s an FPGA-based serial data transmitter that supports the transmission of serial data through PCIe to UART bridge. Additionally, it handles 4-channel MIL-1553B to Serial Communication conversion. This system enables modern processing units to interface with traditional defense communication protocols seamlessly.

An end-to-end IoT-based vehicle tracking system, compliant with AIS140 standards. The design features the ST Microelectronics microcontroller, GSM and GNSS/IRNSS modules. The system enables live tracking, along with monitoring key vehicle parameters. Designed for fleet management and transport safety, this smart tracker supports real-time updates, location history, and integration with government-approved tracking platforms.

This ultra-compact personal tracking device is embedded inside an ID card form factor. Designed for security and personnel monitoring, the system is built around a microcontroller and a module that combines GSM and GPS capabilities. It provides real-time location tracking and can be used in schools, factories, defense zones, or emergency services where personnel safety and monitoring are crucial.

A smart IoT medical interface device designed to collect data from diagnostic equipment and transmit it over the internet via Wi-Fi or GSM. This system integrates a microcontroller, Wi-Fi module, and 4G GSM module. It's capable of secure and reliable data transmission from medical devices to cloud platforms, aiding in remote diagnostics, telemedicine, and centralized patient monitoring.

We developed an advanced IoT-based Ambient Monitoring System designed to maintain and assess indoor and outdoor air quality. Powered by the NXP microcontroller, the system integrates multiple gas sensors, including NH₃, CO & CH₄, H₂S to detect harmful odors and pollutants. Additionally, it uses the sensors to monitor temperature, humidity, luminosity, and air quality, making it highly suitable for industrial, smart city, and public infrastructure applications.

This IoT-based BLE-enabled solution was designed to modernize public sanitation infrastructure. The Cabin Monitoring System provides live status updates on toilet occupancy, tracks footfall, and sends cleanliness alerts directly to a central server. It also features self-temperature control, a water level alert system, and audio notifications through a real-time tablet-based PA system. Built using the NXP microcontroller, all components communicate wirelessly over Bluetooth Low Energy (BLE) for seamless data integration and remote monitoring.

We created a suite of BLE-enabled sensor modules for vehicle telematics, including Tire Pressure Monitoring Sensors (TPMS), door sensors, and temperature & humidity sensors, enabling smart vehicle diagnostics and efficient fleet management.

We developed an innovative home automation solution featuring Wi-Fi controlled motorized blinds, designed for smart living spaces. This system allows users to remotely operate window blinds using a smartphone or dedicated remote control over a secure Wi-Fi connection.