Industrial Monitoring
Access Control
Problems
Due to various factors such as closed factory management, complex surroundings, and employee movement, theft and break-ins frequently occur in factories.
Access control solution provides video surveillance, alarm system, perimeter security, access control, one-stop management system, facilitating safer factory environment and improving efficiency manage.
Solution
1. Control people coming in and out
Control who comes in and out by registering information and faces of employees, customers, partners,… from the management center. With a storage capacity of 100,000 people, extremely fast recognition speed < 0.2s and accuracy up to 99%. Look up and search the history of people entering and leaving easily and quickly


2. Manage incoming and outgoing vehicles
Control vehicles entering and exiting by registering license plate numbers for employees, customers, partners, etc. from the management center. With highly accurate and fast license plate recognition


3. Fence monitoring and warning
- Warn when fences are breached and protect large areas
- According to real-time object
- Low false alarm rate, high efficiency


4. Car parking
The Car Parking software system is a smart solution designed for efficient, safe, and modern parking lot management. It enables automatic vehicle entry and exit control via license plate recognition or magnetic cards, while accurately tracking parking time and calculating fees in real time. Users can check available parking spaces, reserve spots in advance, and make cashless payments directly through the mobile app. The system also integrates surveillance cameras and alert mechanisms to enhance security and prevent fraud. It helps reduce congestion at parking areas, optimize operations, and minimize staffing costs. This solution is ideal for shopping malls, office buildings, airports, hospitals, and modern residential complexes.


Monitor equipment in the factory
Problems
The temperature in the electrical cabinet needs to be monitored regularly to ensure safety and efficiency. High temperatures and poor contact connections can cause increased resistance and system damage. According to NETA standards, it is necessary to compare the device temperature with the environment or neighboring locations and promptly handle if the difference is large. Currently, temperature monitoring at electrical cabinets is mainly manual and intermittent, so it is necessary to integrate temperature data into SCADA and CBM systems to improve operational management and efficiency.

Solution
- Automatic continuous monitoring and temperature alerts
- Integrate existing monitoring and warning systems
- Connect the SCADA system according to IEC 60870-5-104 master/slave protocol
- Displayed on the Web interface or via mobile application (Android/IOS)
- Detailed identification of monitoring objects
- Set warning thresholds according to Vietnamese standards, international standards (IEC/TCVN) or specific standards
- Change alarm threshold according to operating load current
- Export report: According to selected frequency, trend charts by day, week, month, year
- Monitor oil level
- Monitor operating parameters: Current, pressure, capacity, power factor…
- Monitor any location on electrical equipment
- Humidity monitoring


Conveyor temperature monitoring
Problems
- The conveyor belt has a large length and uses many rollers.
- When the rollers jam, causing friction, causing the roller and conveyor belt temperature to reach burning temperature.
- The rubber conveyor belt will be a flammable substance for the coal transported above, causing a large fire.
- The fire suppression system or surveillance camera only detects when a FIRE HAS OCCURRED (smoke appears).
- Do not warn of FIRE HAZARD, to PREVENT FIRE.



Distributed temperature sensing technology
The Distributed Temperature Sensing Solution (DTS) is a solution that connects to a distributed fiber optic cable (FireFiber) and determines temperature and distance data at thousands of points along the length of the cable. The temperature along the fiber optic cable is determined by the optoelectronic device. The solution helps measure temperature CONTINUOUSLY (or DISTRIBUTED) along the length of the fiber optic cable, rather than measuring temperature at discrete, predetermined points like other solutions. Solution to help detect fire risks at conveyors, pipes, boilers…

Suitable for
the problem
Cable tray, Cable tunnel, Cable trench, High voltage cable, Conveyor belt, Coal conveyor, Coal dump, Oil tank, Gas tank, Oil pipeline, Gas pipeline

Low investment
costs
Continuous temperature determination. Easy installation and design

Low warranty and operating costs
Simple system, no moving parts. The device has a long life

Smart
warnings
Manage the operating status of cameras. Alerts via text messages about real-time system problems help the system work continuously
Principles



DTS solution optimizes temperature anomaly detection. The conventional method is affected by fluctuations in ambient temperature and fails to detect abnormalities, but the new method can detect abnormalities with a threshold of 2.7°F (1.5°C).
Mechanism

- Install DTS fiber optic cables along the length of the conveyor belt.
- Automatically measure and monitor temperature along the length of the conveyor belt.
- If there is any abnormal temperature increase of a section or area compared to normal or other points, AUTOMATICALLY WARN the suspected abnormal location to the operating staff for inspection.
- This helps provide early warning BEFORE A FIRE OCCURS, PREVENT THE HAZARD OF FIRE.
- High precision: eliminate ambient temperature, accuracy +-1 C.
- DTS fiber optic cables are suitable for working in harsh environments: dust, noise, vibration like a conveyor belt, so they are very durable.
- DTS fiber optic cables are easy to replace, connect when broken and are very durable.
- An EXTREMELY EFFECTIVE solution for conveyor belts
Benefit

Prevent fire
Reduced damage
After burning, the smoke will have huge consequences. Preventing fires helps SAVE ECONOMY and TIME.
High precision
Measure points continuously, 24/7, accurately indicating the location of fire risk.
Data is compiled by hour, day, season, year over a long period of time, so predictions can be made using A.I

Simple installation, simple operation, simple replacement
Just install the cable along the conveyor belt.
When it is necessary to replace conveyor parts, easily lift the cable out to replace and then insert it.
In case the cable breaks, it is easy to connect the cable like connecting an optical cable with a hand tool, simple operation.

General integration
into Platform A.I
Unified management on the same platform. Supports multiple conveyors with a total length of one line: 10km.
Temperature monitoring in electrical cabinets
Problems
The temperature in the electrical cabinet needs to be strictly controlled to avoid serious hazards. When the temperature is too high, electronic components can fail, reduce their lifespan and cause a short circuit or fire. The performance of the device also decreases due to increased resistance, leading to energy loss. Temperature differences can cause condensation, dampen components, and create conditions for mold and corrosion. To ensure safety, it is necessary to install a cooling system, use insulation materials and periodically check, as well as apply temperature monitoring technology.


Solution


Camera solutions mounted in electrical boxes to detect and warn of abnormal temperatures are an effective measure in temperature management. Thermal cameras can continuously monitor important areas inside electrical cabinets and send alerts as soon as it detects temperatures exceeding safe thresholds. This system not only helps detect potential problems early, prevent problems before they become serious, but also helps maintain stable and safe operation of the electrical system. Using thermal cameras combined with smart monitoring technologies can record data and analyze temperature trends over time, thereby providing more effective prevention and maintenance measures.
Measure water and fuel levels, read meter readings
Problems
Monitoring meter readings and measuring water levels is difficult due to high accuracy requirements and complex conditions. Access to measuring equipment in remote or difficult-to-reach locations, combined with the effects of inclement weather, reduces the accuracy and efficiency of data collection. Continuous monitoring to detect small fluctuations also requires advanced technology and skilled personnel, and this lack can cause errors, waste of resources and risk of incidents.


Solution
AI camera mounting solution to read meter readings and water level gauges helps increase accuracy and reduce human errors. The system operates continuously, collects data in real time and sends warnings when there are abnormalities. AI also analyzes data, predicts trends and suggests preventive measures, making management more effective, reducing risks and saving time and human resources.
1. Automatically read meter readings
Clock indicators

On/off

Electronic clock

Ministry of directives

2. Measure water or gasoline levels

- The edge processing cluster includes:
– Camera system (IP, PTZ, Analog…): Is a system of cameras for direct and peripheral vision placed near the water level with the task of collecting image data from the water level. It does not depend on basic parameters such as viewing angle, chipset, lens (focal length), infrared range, H265 compression standard, IP technology… It only needs to meet the requirements of 2 parameters: resolution and video streaming.
– Control cabinet: Includes devices such as solar panels, batteries, LED displays, AI video processors, LCD screens and signal transceivers. The control cabinet collects image data from the camera, then analyzes and processes the data to get the lake water level, then sends the data to the management server via data transmission methods.
– Wireless transmitter: Responsible for transmitting processed data to the center via the transmission medium
- Wireless signal receiver: Is the medium for transmitting data from the control cabinet to the center. The transmission channel can be the internet, other IoTs protocols such as Lora, sigfox…. Depending on the installation location and deployment environment.
- Management system – Monitoring and operation center: The monitoring and operation center is a place to store and manage data such as captured images, water levels over time due to… So that the manager can grasp and easily monitor real-time
UAV (Maintenance monitoring of wind power, solar power, ...)
Problems
The inspection and maintenance of energy systems such as wind, solar and traditional transmission lines are challenging. Current processes are time-consuming, costly and pose significant risks to personnel. With difficult terrain, complex weather conditions and stringent periodic inspection requirements, manual monitoring methods can no longer meet the demands for accuracy, speed and safety. In addition, delays in detecting faults can lead to serious losses in productivity and operating costs.


Solution
Our UAV solution for monitoring and maintaining energy infrastructure helps optimize the entire inspection, operation and maintenance process. With flexible flight capabilities, high-quality video recording and data analysis using artificial intelligence, UAVs enable rapid detection of damage, dirt, cracks or hot spots on wind turbines, solar panels and transmission lines. The solution not only shortens inspection time, reduces risks to personnel but also brings superior accuracy, helping businesses promptly handle and maintain system performance effectively. This is a new step forward in automating and modernizing maintenance work in the renewable energy and power transmission industry.
