Engineering Intelligence into Every System We Build
At Smart Integrated Systems, our technologies span the full spectrum of space, wireless, and intelligent electronics engineering from CubeSats to custom antennas, from biomedical sensing to embedded AI systems. We combine deep technical expertise with modern design methodologies to deliver advanced, resilient, and high-performance systems tailored for the realities of Egypt, the Middle East, and Africa.
CubeSat Platforms & Subsystems
We build modular, flight-ready CubeSat platforms and subsystems including:
- Electrical Power Systems (EPS) with MPPT and battery management
- On-Board Computers (OBC) with real-time task scheduling and telemetry
- Telemetry, Tracking & Command (TTC) units with UHF/VHF/S-band capability
- Payload support for imaging, environmental sensors, and onboard AI
- All subsystems are designed for low power, high reliability, and modular expansion.
Advanced Embedded Electronics
Our engineering team develops robust embedded systems for harsh environments and critical missions.
Capabilities include:
- Microcontroller and SoC design (ARM Cortex, STM32, RISC-V)
- Low-power designs with deep sleep & watchdog integration
- Custom PCBs for real-time sensing and actuation
- Edge AI platforms with integrated neural processing & Fault-tolerant logic for mission-critical operations
- We deliver embedded systems that work reliably in orbit, deserts, disaster zones, and mobile platforms.
Antenna & Electromagnetics Engineering
We design bespoke antennas and RF front ends for space and terrestrial communication, including:
- Reflectors and helical antennas for CubeSat missions
- Patch antennas for GNSS and telemetry
- Monopole, dipole, and quadrifilar helix for deployable systems
- Embedded and conformal antennas for compact platforms
- Custom radiation patterns and gain optimization u
- Antenna arrays and beamforming support for advanced project
Our antenna designs are simulation-driven and mission-optimized for high performance.
Wireless & IoT Communication Systems
Our engineering team develops robust embedded systems for harsh environments and critical missions.
Capabilities include:
- Microcontroller and SoC design (ARM Cortex, STM32, RISC-V)
- Low-power designs with deep sleep & watchdog integration
- Custom PCBs for real-time sensing and actuation
- Edge AI platforms with integrated neural processing & Fault-tolerant logic for mission-critical operations
- We deliver embedded systems that work reliably in orbit, deserts, disaster zones, and mobile platforms.
Biomedical & Health Engineering Platforms
We develop electronics and communication infrastructure to support remote healthcare delivery, medical sensing, and emergency response, including:
- Wearable vital signs monitoring (temperature, SpO₂, heart rate)
- Telemedicine-ready data transmission modules
- Portable diagnostic hardware integrated with satellite or RF comms
- Low-power electronics for mobile clinics and off-grid care environments
Modeling-Based Systems Engineering (MBSE)
We apply simulation-first and model-driven development practices across all design stages:
- Systems modeling with MATLAB/Simulink, SysML, and STK
- Multiphysics simulation of power, thermal, and RF systems
- Digital twin development for space and terrestrial platforms
- Performance prediction, trade-off analysis, and failure modeling
This approach accelerates development, reduces cost, and improves reliability across all projects.
Bespoke Engineering and R&D
We offer complete engineering design services — from concept to deployment — across various disciplines:
- Custom payloads and sensors
- Specialized enclosures and mechanisms for deployable systems
- Application-specific CubeSat and RF platforms
- End-to-end prototyping, testing, and system validation
- University and lab co-development projects
Every system we build is tailored, nothing off the shelf unless it serves the mission.
Innovation Engineered for the Real World
Our technologies are not just cutting-edge they are mission-tested, region-adapted, and designed to solve real problems. Whether it’s powering a CubeSat, connecting a remote clinic, or enabling AI at the edge, Smart Integrated Systems delivers intelligent engineering from orbit to Earth.