I’ve worked as a senior Embedded Systems Programmer and Electronic Circuit Designer with over 10 years of industrial experience. I have held the position of founder and CEO at ‘Cyber Physical Pioneers (Metable)’ since 2023. I contribute as a visiting lecturer in the department of computer engineering at IUST. I also serve as a Technical Consultant at Iran Small Industries and Industrial Park Organization (ISIPO). Additionally, my research currently spans two prestigious laboratories: the Cyber-Physical Systems (CPS) Laboratory at IUST and the Reliable and Durable IoT Applications and Networks Laboratory (RADIAN) at Sharif University. My research interest include:
Ali Javadi
Room 120,
School of Computer Engineering,
Iran University of Science and Technology (IUST),
Narmak, Tehran, Iran.
+(98)9032528234
ceo[AT]metable[Dot]ir
Cyber Physical Pioneers (Metable) Company was founded with a clear mission: to develop intelligent and cyber-physical systems. Shortly after its establishment, it gained recognition as a knowledge-based company by introducing Iran’s first Internet of Things platform, known as PATRIIoT.
I take great pride in having served as a lecturer in various courses, including the Computer Architecture Laboratory at IUST. It’s an honor to contribute to students’ learning experiences and share my passion for computer architecture. Teaching allows me to bridge theory and practice, fostering a deeper understanding of this dynamic field.
I have provided technical consultancy services at Semnan ISIPO. I also served as a member of the Board of Trustees at this Business Clinic for two years.
I am a Ph.D. student under the supervision of Dr. Amir Mehdi Hosseini Monazzah at IUST. My major is computer architecture, and my research area focuses on in-memory processing. Additionally, I serve as a visiting lecturer at IUST.
I completed my Master’s degree in Computer Architecture at Iran University of Science and Technology (IUST). Under supervision of Dr. Amir Mahdi Hosseini Monazzah, my thesis centered on introducing FACT as a solution using reinforcement learning algorithms to enhance task offloading destination determination. This approach resulted in a remarkable 19.04% improvement in task hit ratio and reduced task lateness compared to other methods.
I earned my Bachelor’s degree in Computer Software Engineering from Semnan University. During my time there, my thesis, titled "Vehicle Collision Prevention System," was honored as the best project at Semnan university. I wore multiple hats — I was both a BA student and a teacher assistant. Additionally, I served as a workshop lecturer, teaching topics related to ARM architecture and robotics, etc.
If you look forward to seeing my up to date list of publications, you can check my google scholar page.
Explore my essential skills graphically! These bars represent my vital abilities, showcasing a snapshot of what I bring to the table.
The automated vending machine is an innovative product featuring a modern redesign and flawless performance. Developed in collaboration with the Infinitibox team, it boasts numerous features, including shopping cart delivery, product reservations, and more. Technically, it can control up to 100 motors, has dual displays for integration with various POS systems, and offers an advanced, user-friendly product selection process through smart lighting.
This image showcases an operational solar panel angle control board. The board is designed for self-control via an angle sensor, which can also be remotely managed by the server. It supports four different types of angle sensors, each with an impressive accuracy of 0.01 degrees. Additionally, the board has the capability to drive various DC motors. I developed this project for the company ‘Fanavar Hamrah Houshmand Ofoq (Farscada).'
Danab project represents an intelligent irrigation system equipped with a multitude of sensors and actuators. These components measure critical environmental factors such as temperature, humidity, and soil moisture. When these factors fall below specified thresholds, the actuator receives commands from a central server to automatically open or close water valves, allowing precise control over the pump. The Communication between system components occurs seamlessly using LoRa or LoraWAN technology. Additionally, Danab has the potential to reduce water consumption in agriculture by up to 30%.
This image depicts a smart car tracking project with the ability to connect to an Engine Control Unit (ECU). The system tracks the vehicle, detects its location, conducts diagnostics, reports any detected faults, records user data, and has the capability for long-term remapping.
This image depicts a tensile Hydraulic testing machine project. The machine applies tension to a steel bar and calculates Fy until the bar fractures. It serves as a valuable tool for destructive testing of rebars in construction.
One of the innovative devices developed is Namak, the world’s first electronic librarian. Commissioned by the Secretariat for Development and Promotion of Books in Semnan Province, Iran, Namak boasts numerous features for the automatic delivery and receipt of books. These include automatic scanning of received books, customer identification using national ID cards, and a user-friendly book selection mechanism. For more information about this product, please visit the provided link.
Our smart smoke sensor is an advanced, multifunctional device designed to enhance home automation and safety. It features the ability to control infrared (IR) and radio frequency (RF) devices, automatically learning and adapting to different remote controls. Equipped with sensors for temperature, humidity, light, and smoke detection, it provides comprehensive environmental monitoring. The device also includes an audible alarm system for immediate alerts. Connected to the internet via the MQTT protocol, it seamlessly transmits data to ensure real-time updates and remote management.
The smart lighting system is a versatile controller designed for NeoPixel LEDs and SPI-based chipsets. It offers both manual operation through a web panel and automatic control via dedicated software. The hardware processes video signals, dynamically converting them into ambient lighting commands. With over 100 special effects, multiple LED outputs, and a built-in effects engine, this system seamlessly integrates hardware and software to create stunning lighting effects for any environment.