ENGINEERING THE FUTURE OF EMBEDDED SYSTEMS

Advanced Prototyping | IoT Logic Systems | Robotics | Hardware Research

EXPLORE RESEARCH REQUEST CONSULTATION

Core Competencies

R&D Capability Matrix

Specialized engineering domains with active laboratory research and production-grade prototyping capabilities.

ACTIVE LABORATORY

Embedded Systems

Microcontroller-based system design, firmware development, and real-time operating system (RTOS) implementation. Proficiency in ARM Cortex, AVR, and PIC architectures.

  • → Microcontroller Programming (C/C++)
  • → RTOS Integration (FreeRTOS)
  • → Peripheral Interface Design
  • → Power Optimization
  • → Hardware-Software Co-design
ACTIVE LABORATORY

IoT Infrastructure

Cloud-connected device ecosystems with edge computing, protocol implementation, and secure data transmission. Integration with AWS IoT, Azure IoT Hub, and private MQTT brokers.

  • → MQTT/CoAP Protocol Stack
  • → Edge Computing Architecture
  • → Sensor Network Topology
  • → Cloud Integration (AWS/Azure)
  • → Security & Encryption
RESEARCH TRACK

VLSI Research

Digital circuit design, FPGA implementation, and ASIC verification. Expertise in Verilog/VHDL hardware description languages and synthesis toolchains.

  • → Digital Logic Design
  • → FPGA Prototyping (Xilinx/Altera)
  • → Verilog/VHDL Development
  • → Timing Analysis
  • → Test Bench Development
ACTIVE LABORATORY

Robotics

Autonomous navigation systems, robotic manipulator control, and sensor fusion for mobile platforms. Integration with ROS (Robot Operating System) for advanced applications.

  • → Path Planning & SLAM
  • → Autonomous Navigation
  • → Robotic Arm Kinematics
  • → Motor Control Systems
  • → Computer Vision Integration

Methodology

Systems Engineering Workflow

PHASE 01

Requirement Analysis

System specification documentation, constraint identification, feasibility assessment, and technical requirement gathering.

PHASE 02

Circuit Simulation

SPICE-level circuit modeling, component selection, power analysis, and signal integrity verification using industry-standard EDA tools.

PHASE 03

PCB Design

Multi-layer board layout, impedance-controlled routing, thermal management, and design rule checking (DRC) validation.

PHASE 04

Firmware Development

Embedded software architecture, driver development, protocol implementation, and hardware abstraction layer (HAL) design.