Camera Thermal Control Integration Architecture
SDK-Based Control Layer
About
The system communicates with FLIR thermal cameras through the Nexus SDK, which provides native C/C++ functions via nexussdk.dll. This layer handles device discovery, control commands, video stream access, and sensor data retrieval.
Abstract
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Modular Communication Protocols
About
Supports multiple communication standards including TCP/IP, Pelco-D, and proprietary FLIR protocols. Ensures compatibility with a wide range of command and video distribution platforms.
Abstract
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Modular Communication Protocols
About
Supports multiple communication standards including TCP/IP, Pelco-D, and proprietary FLIR protocols. Ensures compatibility with a wide range of command and video distribution platforms.
Abstract
test
Video Stream Integration
About
RTSP or encoded video streams are routed through internal video decoders or third-party display systems (e.g., ECDIS, video wall, browser UI). Stream management can be scaled for single or multi-camera views.
Abstract
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Video Stream Integration
About
RTSP or encoded video streams are routed through internal video decoders or third-party display systems (e.g., ECDIS, video wall, browser UI). Stream management can be scaled for single or multi-camera views.
Abstract
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Event Processing & Alarm Routing
About
Events triggered by the thermal camera (motion, intrusion, temperature thresholds) are routed to a monitoring engine. Actions can be configured to trigger alerts, reposition cameras, or activate other system components.
Abstract
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Event Processing & Alarm Routing
About
Events triggered by the thermal camera (motion, intrusion, temperature thresholds) are routed to a monitoring engine. Actions can be configured to trigger alerts, reposition cameras, or activate other system components.
Abstract
test
Sensor Fusion Layer (Optional)
About
The system can integrate with external sources such as radar (ARPA), AIS targets, or EO/IR feeds. This allows features like “slew-to-cue,” where the camera automatically turns to focus on a target identified by another sensor.
Abstract
test
Sensor Fusion Layer (Optional)
About
The system can integrate with external sources such as radar (ARPA), AIS targets, or EO/IR feeds. This allows features like “slew-to-cue,” where the camera automatically turns to focus on a target identified by another sensor.
Abstract
test
Application & UI Layer
About
A front-end application (desktop or web-based) enables user interaction. It visualizes the camera feeds, status indicators, PTZ controls, map overlays, and system events—all customizable through the UI logic.
Abstract
test
Application & UI Layer
About
A front-end application (desktop or web-based) enables user interaction. It visualizes the camera feeds, status indicators, PTZ controls, map overlays, and system events—all customizable through the UI logic.
Abstract
test
Sensor Fusion Layer (Optional)
About
The system can integrate with external sources such as radar (ARPA), AIS targets, or EO/IR feeds. This allows features like “slew-to-cue,” where the camera automatically turns to focus on a target identified by another sensor.
Abstract
test