Precision Monitoring for High-Risk Operations
Precision Monitoring for High-Risk Operations
With years of experience delivering LiDAR solutions in high risk environments, we were tasked with assessing advanced camera systems for harsh mining conditions. The result: laser-like precision, seamless PLC integration, and a user-friendly design.
With years of experience delivering LiDAR solutions in high risk environments, we were tasked with assessing advanced camera systems for harsh mining conditions. The result: laser-like precision, seamless PLC integration, and a user-friendly design.
Precision Monitoring for High-Risk Operations
With years of experience delivering LiDAR solutions in high risk environments, we were tasked with assessing advanced camera systems for harsh mining conditions. The result: laser-like precision, seamless PLC integration, and a user-friendly design.
At MPX we work closely with our clients to develop solutions for high-risk operational environments, where safety and precision are critical. For this project, we were asked to conduct an office-based feasibility study to evaluate the accuracy and reliability of new camera systems to be used in harsh mining environments. The aim was to enable cameras to achieve laser-like precision while integrating seamlessly with PLCs (Programmable Logic Controllers) and other key systems. This integration would deliver automated alerts and intervention capabilities to prevent incidents before they occur, enhancing both safety and operational efficiency.
While MPX has successfully delivered numerous operational and safety-critical LiDAR projects, cameras present a more flexible alternative for certain applications. Unlike lasers, cameras allow non-engineers to easily set up and adjust monitoring zones, reducing complexity and saving time. Additionally, cameras provide a broader field of view and capture visual data for analysis and incident review, offering greater flexibility and coverage in high-risk environments.
Body Part in Danger Zone
The camera detects body parts entering a designated danger zone, triggering real-time alerts showcasing its ability to identify potential safety breaches with laser-like precision. We can then integrate the outputs from the cameras with PLCs to trigger preventative actions.
How We Would Implement It
On a mine site, this solution can prevent machinery energisation if personnel are detected in restricted areas. This real-time response safeguards workers, reduces downtime, and ensures compliance with safety protocols, making it a valuable tool for high-risk operations.
Object Detection
This demonstrates the camera being capable of detecting objects in designated danger zones, automatically triggering alerts and actions to address potential hazards. The system integrates with control systems and conventional technology platforms to raise alerts in order to activate remediation actions.
How We Would Implement It
The potential solution can detect misplaced tools or equipment left behind after maintenance, preventing potential drop hazards. It can also trigger alerts when vehicles or machinery enter restricted zones, helping to avoid collisions and unauthorised activity.
Oversized Objects
This highlights the camera being capable of detecting oversized objects in real time. The system accurately identified objects exceeding predefined size limits, showcasing its ability to monitor and flag potential hazards quickly.
How We Would Implement It
This technology can identify oversized objects, such as large rocks or debris, that exceed safe handling limits in mining operations. By detecting these hazards early, it prevents equipment damage, blockages, and delays, contributing to safer and more efficient workflows.
At MPX we work closely with our clients to develop solutions for high-risk operational environments, where safety and precision are critical. For this project, we were asked to conduct an office-based feasibility study to evaluate the accuracy and reliability of new camera systems to be used in harsh mining environments. The aim was to enable cameras to achieve laser-like precision while integrating seamlessly with PLCs (Programmable Logic Controllers) and other key systems. This integration would deliver automated alerts and intervention capabilities to prevent incidents before they occur, enhancing both safety and operational efficiency.
While MPX has successfully delivered numerous operational and safety-critical LiDAR projects, cameras present a more flexible alternative for certain applications. Unlike lasers, cameras allow non-engineers to easily set up and adjust monitoring zones, reducing complexity and saving time. Additionally, cameras provide a broader field of view and capture visual data for analysis and incident review, offering greater flexibility and coverage in high-risk environments.
Body Part in Danger Zone
The camera detects body parts entering a designated danger zone, triggering real-time alerts showcasing its ability to identify potential safety breaches with laser-like precision. We can then integrate the outputs from the cameras with PLCs to trigger preventative actions.
How We Would Implement It
On a mine site, this solution can prevent machinery energisation if personnel are detected in restricted areas. This real-time response safeguards workers, reduces downtime, and ensures compliance with safety protocols, making it a valuable tool for high-risk operations.
Object Detection
This demonstrates the camera being capable of detecting objects in designated danger zones, automatically triggering alerts and actions to address potential hazards. The system integrates with control systems and conventional technology platforms to raise alerts in order to activate remediation actions.
How We Would Implement It
The potential solution can detect misplaced tools or equipment left behind after maintenance, preventing potential drop hazards. It can also trigger alerts when vehicles or machinery enter restricted zones, helping to avoid collisions and unauthorised activity.
How We Would Implement It
This technology can identify oversized objects, such as large rocks or debris, that exceed safe handling limits in mining operations. By detecting these hazards early, it prevents equipment damage, blockages, and delays, contributing to safer and more efficient workflows.
Oversized Objects
This highlights the camera being capable of detecting oversized objects in real time. The system accurately identified objects exceeding predefined size limits, showcasing its ability to monitor and flag potential hazards quickly.
At MPX we work closely with our clients to develop solutions for high-risk operational environments, where safety and precision are critical. For this project, we were asked to conduct an office-based feasibility study to evaluate the accuracy and reliability of new camera systems to be used in harsh mining environments. The aim was to enable cameras to achieve laser-like precision while integrating seamlessly with PLCs (Programmable Logic Controllers) and other key systems. This integration would deliver automated alerts and intervention capabilities to prevent incidents before they occur, enhancing both safety and operational efficiency.
While MPX has successfully delivered numerous operational and safety-critical LiDAR projects, cameras present a more flexible alternative for certain applications. Unlike lasers, cameras allow non-engineers to easily set up and adjust monitoring zones, reducing complexity and saving time. Additionally, cameras provide a broader field of view and capture visual data for analysis and incident review, offering greater flexibility and coverage in high-risk environments.
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Body Part in Danger Zone
The camera detects body parts entering a designated danger zone, triggering real-time alerts showcasing its ability to identify potential safety breaches with laser-like precision. We can then integrate the outputs from the cameras with PLCs to trigger preventative actions.
How We Would Implement It
On a mine site, this solution can prevent machinery energisation if personnel are detected in restricted areas. This real-time response safeguards workers, reduces downtime, and ensures compliance with safety protocols, making it a valuable tool for high-risk operations.
Object Detection
This demonstrates the camera being capable of detecting objects in designated danger zones, automatically triggering alerts and actions to address potential hazards. The system integrates with control systems and conventional technology platforms to raise alerts in order to activate remediation actions.
How We Would Implement It
The potential solution can detect misplaced tools or equipment left behind after maintenance, preventing potential drop hazards. It can also trigger alerts when vehicles or machinery enter restricted zones, helping to avoid collisions and unauthorised activity.
Oversized Objects
This highlights the camera being capable of detecting oversized objects in real time. The system accurately identified objects exceeding predefined size limits, showcasing its ability to monitor and flag potential hazards quickly.
How We Would Implement It
This technology can identify oversized objects, such as large rocks or debris, that exceed safe handling limits in mining operations. By detecting these hazards early, it prevents equipment damage, blockages, and delays, contributing to safer and more efficient workflows.