Have you ever taken a plane for traveling or working? Nowadays, there are many ways to get around, such as trains, bicycles, taxis, airplanes, etc. As a fast and convenient way, taking a plane is the best choice for people who need to go to remote places in a short time. However, how can airport staff work efficiently to handle large amounts of passenger information? In this article, we will present the challenges in air traffic control systems and explore the magic of the IP KVM solution.

What are challenges in airport traffic control systems?

As we know, there are always many flights in large airports, and a large amount of passenger data that needs to be handled. In the process, staff will face many challenges.

Redundant devices and occupied space

To support a large operation and management system, each workstation needs to be equipped with an isolated computer, keyboard, mouse, and monitor, which easily occupies too much space. That’s why the operation console is crowded, and the wiring is cluttered. A narrow working environment is not comfortable for the staff.

Expensive costs

Too many redundant devices can cost a lot of money. Also, they can easily lead to an increase in the cost of electricity due to uninterrupted operation. What’s worse, these additional devices need many operators to manage them, and this will increase labor costs.

Cross-system operation is inconvenient

Air traffic controllers need to physically switch between different devices, delaying decision-making time.

Isolated information islands

The data from the tower, area control center, approach control, and A-CDM cannot be shared in real-time, making it easy to make mistakes.

Inconsistency of resolution

Computers and monitors may support different resolutions, which can easily make the interruption of data transmission. For example, a computer or server supports resolution up to 4K@60Hz, but that isn’t supported by the monitor.

Failure recovery is inefficient

It is difficult to find the fault quickly because there are too many devices. Some devices in remote places need the staff to spend more time troubleshooting.

What can IP KVM technology bring to ATC systems?

Space and management optimization

With IP KVM technology, hardware devices like servers or computers can be located in other places instead of the narrow tower to improve space utilization. Additionally, the heat and noise can also be isolated from the ATC tower. And in the tower, fewer peripheral devices are needed, which can reduce desktop clutter, providing the staff with a clean and safe work environment.

Enhanced security

IP KVM technology can separate the consoles and servers from the workstations, which can protect the system and sensitive data, reducing potential security vulnerabilities and enhancing the security of ATC systems.

Improved efficiency

With the help of IP KVM technology, the workflow can be simplified and the operators can easily and conveniently operate and manage many servers and other devices without over-reliance on physical devices and additional cables.

Convenient remote access

IP KVM technology allows operators to remotely access multiple airport locations from the center, which can improve flexibility and scalability. This feature ensures the continuous operation. In addition, the staffs can enjoy real-time remote access with ultra-low latency.

Optimizing visualization

In an IP KVM system, various devices, such as KVM switches and KVM extenders, perform their functions effectively. To provide a superior visual experience, these devices usually support high resolutions, such as 4K resolution.

Cross-Platform & Cross-Location Workflows

With an IP KVM operation system, the operators can achieve efficient teamwork and simplify the workflow.

Highly-Recommended IP KVM Matrix Extenders

As we know, IP KVM extenders are essential tools used in the management system. A KVM extender consists of a transmitter and a receiver. They can work together to extend the transmission distance of the signals. To ensure your IP KVM system performs optimally, you should select the right extenders.

Kinan IP KVM matrix extenders have space-saving designs and support ultra-high resolutions, multiple interfaces, optical fiber transmission, etc. When used in a matrix system, they support one-to-one, one-to-many, many-to-one, and many-to-many signal transmission modes for flexible device control and collaboration.

For example, Kinan KFP286K supports resolution up to 3840 x 2160@60Hz, low-latency video transmission, and transmission rate up to 480Mbit/s. In addition, it supports point-to-point connection and matrix connection.

Conclusion

The complicated air traffic control system can become easy and simple with IP KVM matrix devices. From this article, you can easily know that IP KVM matrix devices can optimize the air traffic control system by optimizing space utilization, enhancing security, supporting convenient remote access, optimizing visualization, and simplifying workflows.