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Visualization
3D Monitoring Platform is a 3D visualization system of KENGIC that displays the running status of the device accurately. The system can not only synchronize monitoring of field devices based on field configuration, but also simulate device signal input for stress testing and detailed optimization of project solutions.
The core of the 3D monitoring platform is based on the simulation of the physical engine, it performs model synchronization actions based on the equipment operation feedback signal to collect at the same time container position information for double verification to achieve 3D display and fast fault alarm synchronized with the data source (field device or analog input).
In addition, the system can also count the installation, replacement, maintenance, running time, error times and other information of on-site moving and wearing parts, and compare it with the theoretical design upper limit, promptly remind the parts and areas that need to be checked/replaced in time to improve on-site fault handling response and daily maintenance efficiency and generate statistical reports.
There’s a 3D model and configuration management system that cooperates with the platform. By uploading device models and component size biding configuration on the management system, dynamic combination of components can be achieved. The 3D scene and configuration of the monitoring platform adopts hot update mode. According to the account used for login, the corresponding scene and device model data of the account in the configuration management system can be obtained. The scene configuration and the size/operating parameters of a certain model can be changed through the background and upload it to the configuration management system so that corresponding solution scenes can be iterated quickly to speed up the test efficiency and the number of each part in the scene can be bound automatically to the part material number.
Through simulation, the system can find the optimization points or bottlenecks of the solution in advance and can quickly iterate the optimization verification. It can also quickly display the fault location and early display and statistical abnormal data when the actual field equipment is used, speeding up on-site problem discovery and optimized speed to prevent parts and areas that are frequently exposed to problems from being ignored and overloaded.
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