Role:
Head of Research and Development Team
Projects and Activities in
monitoring
Projects and Activities in
Monitoring
Project No. 3
Raya Unified Monitoring, Control & Management System
What challenges does this project solve: Over the years, Raya developed dozens of specialized solutions, devices, and industrial products across various sectors—industrial automation, agriculture, banking, smart-city, safety, and IoT.
However, despite this wide ecosystem, there was no unified platform to manage, control, monitor, configure, support, and update all these systems from one place.
The Raya Unified Monitoring System was created to solve exactly this gap.
It brings together all Raya products and solutions (36+ systems) into a single centralized platform, enabling users worldwide to:
* configure each device,
* monitor real-time status,
* diagnose and resolve faults,
* deploy updates,
* and deliver true remote support to customers.
This system eliminates previous issues such as tool fragmentation, lack of a unified panel, difficulty in supervising hundreds of devices, and inconsistent management workflows.
What challenges did I face during development:
Building such a large multi-layered system came with numerous technical and architectural challenges:
* Integrating 36 different solutions, each with its own protocols, sensors, data formats, and communication models
* Designing three distinct user-role systems with completely different access and operational requirements
* Creating a fully unified UI/UX despite extreme diversity in device types and use-cases
* Designing a future-proof architecture scalable for upcoming Raya solutions
* Managing large volumes of logs, data streams, configurations, and analytics
* Standardizing and documenting communication protocols with high precision
* Extensive development time due to the scale and complexity of each subsystem
Eventually, the platform became the central home of all Raya solutions—scalable, unified, stable, and ready for global deployment.
Goals (Features):
The main goal was to build a central command center for all Raya solutions—a platform that:
* supports all 36 existing solutions and any future systems without architectural changes
* provides unified remote monitoring, control, configuration, updates, and support
* defines three clear user-access levels:
– end-users
– Raya partners and corporate clients
– Raya internal technical/support/operations teams
* offers a consistent UI/UX d* esigned for different products without confusing users
* drastically improves global support response time and service quality
This platform is effectively the core hub connecting customers, partners, and Raya’s technical operations.
Goals (Features):
The main goal was to build a central command center for all Raya solutions—a platform that:
* supports all 36 existing solutions and any future systems without architectural changes
* provides unified remote monitoring, control, configuration, updates, and support
* defines three clear user-access levels:
– end-users
– Raya partners and corporate clients
– Raya internal technical/support/operations teams
* offers a consistent UI/UX d* esigned for different products without confusing users
* drastically improves global support response time and service quality
This platform is effectively the core hub connecting customers, partners, and Raya’s technical operations.
Project No. 3
Raya Unified Monitoring, Control & Management System
What challenges does this project solve: Over the years, Raya developed dozens of specialized solutions, devices, and industrial products across various sectors—industrial automation, agriculture, banking, smart-city, safety, and IoT.
However, despite this wide ecosystem, there was no unified platform to manage, control, monitor, configure, support, and update all these systems from one place.
The Raya Unified Monitoring System was created to solve exactly this gap.
It brings together all Raya products and solutions (36+ systems) into a single centralized platform, enabling users worldwide to:
* configure each device,
* monitor real-time status,
* diagnose and resolve faults,
* deploy updates,
* and deliver true remote support to customers.
This system eliminates previous issues such as tool fragmentation, lack of a unified panel, difficulty in supervising hundreds of devices, and inconsistent management workflows.
What challenges did I face during development:
Building such a large multi-layered system came with numerous technical and architectural challenges:
* Integrating 36 different solutions, each with its own protocols, sensors, data formats, and communication models
* Designing three distinct user-role systems with completely different access and operational requirements
* Creating a fully unified UI/UX despite extreme diversity in device types and use-cases
* Designing a future-proof architecture scalable for upcoming Raya solutions
* Managing large volumes of logs, data streams, configurations, and analytics
* Standardizing and documenting communication protocols with high precision
* Extensive development time due to the scale and complexity of each subsystem
Eventually, the platform became the central home of all Raya solutions—scalable, unified, stable, and ready for global deployment.
Role: Head of Research and Development Team
2025
Year of Design
1 months
Duration from Design to Implementation
100%
Project Progress
Project No. 2
Shahr Bank Infrastructure Monitoring System
What challenges does this project solve:
Shahr Bank’s infrastructure includes hundreds of operational sites and critical equipment such as UPS units, security systems, ATMs, racks, communication equipment, and emergency power systems.
Before this platform was deployed, the condition of these devices was monitored only through periodic physical inspections — a slow, costly, and manpower-dependent method.
This system eliminates the bank’s major challenge: the lack of real-time visibility and absence of a unified view of dispersed infrastructure. It enables 24/7 monitoring, instant alerts, risk detection, and proactive maintenance across all locations.
What challenges did I face during development:
Building a monitoring platform for a banking network required strict adherence to advanced security standards. Key challenges included:
* Complete isolation of the banking network from the internet, requiring full on-premises development without online services or external libraries
* designing secure hardware and software aligned with banking cybersecurity policies
* ensuring stable communication between multiple bank branches with varying infrastructure conditions
* managing high data traffic and guaranteeing error-free message delivery
* full deployment on internal networks due to the prohibition of cloud-based services
Additionally, due to the wide geographical distribution of Shahr Bank branches and service centers, several practical challenges existed:
* long response times for on-site inspections
* high operational and maintenance costs
* delayed or inaccurate reporting from branches
* unexpected UPS shutdowns or ATM failures without timely notification
By addressing all these challenges, the system transformed the bank’s infrastructure monitoring from a manual, reactive process into a smart, integrated, real-time monitoring platform.
Goals (Features):
The primary goal was to build a comprehensive monitoring platform for all infrastructure equipment within the bank — a system that can:
* collect and analyze real-time data from UPS units, alarm systems, ATMs, power systems, and network devices
* issue precise and immediate alerts for faults, low voltage, battery failures, alarm triggers, and ATM malfunctions
* reduce support and on-site maintenance costs
* provide centralized control and remote command capabilities
* generate management reports and failure/consumption trends
* enhance overall reliability and security of banking infrastructure
By consolidating all device data into a single centralized dashboard, the system allows the bank to act before failures occur.
Role:
Head of Research and Development Team
Goals (Features):
The primary goal was to build a comprehensive monitoring platform for all infrastructure equipment within the bank — a system that can:
* collect and analyze real-time data from UPS units, alarm systems, ATMs, power systems, and network devices
* issue precise and immediate alerts for faults, low voltage, battery failures, alarm triggers, and ATM malfunctions
* reduce support and on-site maintenance costs
* provide centralized control and remote command capabilities
* generate management reports and failure/consumption trends
* enhance overall reliability and security of banking infrastructure
By consolidating all device data into a single centralized dashboard, the system allows the bank to act before failures occur.
Project No. 2
Shahr Bank Infrastructure Monitoring System
What challenges does this project solve:
Shahr Bank’s infrastructure includes hundreds of operational sites and critical equipment such as UPS units, security systems, ATMs, racks, communication equipment, and emergency power systems.
Before this platform was deployed, the condition of these devices was monitored only through periodic physical inspections — a slow, costly, and manpower-dependent method.
This system eliminates the bank’s major challenge: the lack of real-time visibility and absence of a unified view of dispersed infrastructure. It enables 24/7 monitoring, instant alerts, risk detection, and proactive maintenance across all locations.
What challenges did I face during development:
Building a monitoring platform for a banking network required strict adherence to advanced security standards. Key challenges included:
* Complete isolation of the banking network from the internet, requiring full on-premises development without online services or external libraries
* designing secure hardware and software aligned with banking cybersecurity policies
* ensuring stable communication between multiple bank branches with varying infrastructure conditions
* managing high data traffic and guaranteeing error-free message delivery
* full deployment on internal networks due to the prohibition of cloud-based services
Additionally, due to the wide geographical distribution of Shahr Bank branches and service centers, several practical challenges existed:
* long response times for on-site inspections
* high operational and maintenance costs
* delayed or inaccurate reporting from branches
* unexpected UPS shutdowns or ATM failures without timely notification
By addressing all these challenges, the system transformed the bank’s infrastructure monitoring from a manual, reactive process into a smart, integrated, real-time monitoring platform.
Role: Head of Research and Development Team
2025
Year of Design
2 months
Duration from Design to Implementation
100%
Project Progress
Project No. 1
ShahrNet Monitoring System – Shahr Bank
What challenges does this project solve:
Before this platform was implemented, the security and operational status of ShahrNet centers was completely local and required physical visits. To check alarms, fire systems, or UPS units, support teams had to travel to each location — while these kiosks were widely scattered across the city. Even the smallest alarm meant significant time, cost, and operational disruption.
This system solved the bank’s major challenge: transforming all ShahrNet alarm, fire-safety, and UPS monitoring from a local, stand-alone model into a centralized, real-time online system.
Now, the control center can view all statuses, errors, and alarms instantly and remotely — without dispatching technicians.
What challenges did I face during development:
The biggest challenge was the online integration of alarm systems — devices originally designed only for local use. Connecting them to a centralized platform required protocol redesign and engineering adjustments.
In the case of UPS units, another issue was unexpected shutdowns during critical moments, which made real-time monitoring essential.
A major technical challenge came from banking security policies: the system had to run on fully isolated internal networks, with zero internet access.
This meant every module, library, and infrastructure component had to be developed completely offline, significantly increasing the complexity of the project.
Overall, the system had to achieve three goals simultaneously:
strict cybersecurity compliance, always-on connectivity, and full compatibility with banking standards — each of which posed serious engineering challenges.
Goals (Features):
The main objective of this project was to build a unified monitoring platform for all ShahrNet branches — a system that can:
* establish secure and stable communication between ShahrNet kiosks and the central monitoring center
* report real-time status of alarm systems, fire panels, and UPS units
* receive control commands from the center and apply them to on-site equipment
* log abnormal behaviors and raise immediate alerts
* provide a reliable infrastructure for high-security banking environments
With this architecture, operational support became significantly easier, human error was reduced, and the overall security level of banking equipment increased substantially.
Role:
Head of Research and Development Team
Goals (Features):
The main objective of this project was to build a unified monitoring platform for all ShahrNet branches — a system that can:
* establish secure and stable communication between ShahrNet kiosks and the central monitoring center
* report real-time status of alarm systems, fire panels, and UPS units
* receive control commands from the center and apply them to on-site equipment
* log abnormal behaviors and raise immediate alerts
* provide a reliable infrastructure for high-security banking environments
With this architecture, operational support became significantly easier, human error was reduced, and the overall security level of banking equipment increased substantially.
Project No. 1
ShahrNet Monitoring System – Shahr Bank
What challenges does this project solve:
Before this platform was implemented, the security and operational status of ShahrNet centers was completely local and required physical visits. To check alarms, fire systems, or UPS units, support teams had to travel to each location — while these kiosks were widely scattered across the city. Even the smallest alarm meant significant time, cost, and operational disruption.
This system solved the bank’s major challenge: transforming all ShahrNet alarm, fire-safety, and UPS monitoring from a local, stand-alone model into a centralized, real-time online system.
Now, the control center can view all statuses, errors, and alarms instantly and remotely — without dispatching technicians.
What challenges did I face during development:
The biggest challenge was the online integration of alarm systems — devices originally designed only for local use. Connecting them to a centralized platform required protocol redesign and engineering adjustments.
In the case of UPS units, another issue was unexpected shutdowns during critical moments, which made real-time monitoring essential.
A major technical challenge came from banking security policies: the system had to run on fully isolated internal networks, with zero internet access.
This meant every module, library, and infrastructure component had to be developed completely offline, significantly increasing the complexity of the project.
Overall, the system had to achieve three goals simultaneously:
strict cybersecurity compliance, always-on connectivity, and full compatibility with banking standards — each of which posed serious engineering challenges.
Role: Head of Research and Development Team