The signal sources within the system are uniformly placed in the machine room, forming a resource pool for unified management and control. Through the ASTEROID Intelligent Control Collaboration System, functions such as separation of operator and machine, large screen splicing, matrix switching, KVM seat management and control, and environmental control can be realized.

The system offers different products for light compression and deep compression. Within a domain, light compression products are used to support visually lossless image quality, low-latency transmission, and display. Across domains, deep compression products are employed to enable easy sharing of massive signals.

The system achieves separation of operator and machine, allowing each operator to independently control multiple business servers within their permission scope using a single set of mouse and keyboard. This simplifies the equipment in the office area, reduces heat dissipation, lowers noise and radiation, and optimizes the working environment for operators.

The operator station provides a floating OSD (On-Screen Display) menu, allowing operators to perform common operations such as signal control, signal pushing, and audio/USB transmission management using a mouse, enabling flexible and autonomous business processing. Additionally, the system offers an advanced OSD menu, through which operators can set up quick keys, control the large screen, monitor system status, and access other advanced functions.

Operators can facilitate USB data transfer at their seats, conveniently connecting and using devices such as USB flash drives, USB cameras, Ukey, USB printers, and more. The system offers both built-in and external transmission methods, taking into consideration user convenience and security options to the fullest extent.

The system aligns with business management processes and implements hierarchical permission management through a permission management mechanism, forming a detailed permission list. It supports collaboration among multiple users at operator seats, allowing operators to quickly push signals to others, facilitating convenient and efficient signal sharing.

The system supports fully visual scheduling and control, allowing administrators to monitor the status of the tiled large screen in real-time and operate it quickly and accurately, thereby improving scheduling efficiency. The system supports various operations such as windowing, overlaying, roaming, screen splitting, scaling, moving, picture-in-picture, logo insertion, background image setting, scrolling subtitles, and more.

The system supports IP streaming media access, enabling seamless code stream integration with IPC cameras, mainstream security platforms, and others. It can display these streams on the tiled large screen and operator seats, effortlessly achieving resource sharing among streaming media systems such as security surveillance.