What is the difference between wired and wireless classrooms

While digital signals have the advantage in display resolution, analog signals are more forgiving, Bell said, as they are somewhat more tolerant of interference. As a result, wiring is more challenging in digital situations, especially when unshielded wire is being used. Facility personnel may begin their requirement-gathering a year or more before funding is available to begin construction and two or three years before projects are completed.

Bell is experiencing this challenge now, with 3-D seen as a possible next big advance in educational technology. Ease-of-use is another major goal for higher education clients. At a project-management level, the many parties involved in technology decisions in college and university settings also can pose challenges for contractors. To begin, contractors need to understand whether an information technology IT department, an audiovisual department or some other entity will manage the project.

As audiovisual requirements are increasingly dependent on Internet-based networking, IT professionals are assuming greater audiovisual responsibilities. Contractors need to be aware of all the parties involved because who is managing different technology components can differ between departments.

One particular niche could develop as audiovisual systems begin to branch into broader building-control designs. If you need help with wireless design for your school, contact us here to schedule time to talk to a wireless design engineer at no charge. Related Articles. Managed WiFi Solutions. MSPs Contact Us. Stay up to date with SecureEdge. Our SD-WAN orchestrator centrally manages branch office connections for reliable and secure application delivery.

Set acceptable performance metrics, automatically optimize and load-balance application delivery, and easily monitor WAN performance.

Different network views enable visibility the way you prefer. Extend network monitoring with automated notifications and alerts for proactive management. Wireless today is the first access technology in the educational market. It allows students, teachers and staff members to access the network from any place at any time as the main access choice for class and campus.

A stable wireless connection supporting video and educational content without interruption is mandatory. Unstable wireless connections create lack of focus and affect class progress.

As wireless in class is mandatory, wireless availability in libraries, recreational areas and outdoor spaces is an integral part of the whole education network.

Despite the wireless standard evolution that improves overall performance, there are still technical limitations that mean a skilled technician is required to implement a stable wireless network. The main reasons for wireless problems are interference between radio channels, external wireless sources not under IT control, and a lack of Access Point AP signal strength. In a dynamic environment like a school building or campus, there is the need for continuous network monitoring and skilled IT resources to maintain the installation under control and provide a valuable wireless service.

The Allied Telesis No Compromise Wi-Fi solution ensures reliable, high-performance Wi-Fi connections everywhere they are needed, minimizing the need for human intervention. By analyzing signal coverage gaps and Wi-Fi access point interference, Autonomous Wave Control AWC automatically delivers a high-quality wireless experience. Reduce your dependency on skilled network engineers and enjoy lower operating costs. Just register the APs in the management system, plug in the power and the new AP is ready for use.

Allied Telesis Autonomous Wave Control AWC is an advanced network technology that utilizes Artificial Intelligence AI to deliver significant improvements in wireless network connectivity and performance while reducing deployment and operating costs. All APs that are members of the same blanket operate on the same channel. AWC-CB is an intelligent controller that manages interference and client access. Together with a traditional Multi Channel approach, it provides a complete wireless access solution for any environment.

In any modern network, a large part of the used bandwidth is composed of video streams. Within a school, a campus or a university, there are mainly two different types of streams, each with different impacts on network performance. Student security and protection in the school is part of the whole education offering.

Surveillance capability is one of the ways to increase family and student trust in a specific school and to attract new students. In any video surveillance implementation , all the cameras and video management systems rely on the network infrastructure to transport video.

The traffic generated by the surveillance cameras is almost constant during the day. Although this traffic must be planned for, once the network links are sized, it usually does not cause any management concerns. The key part of the installation is powered by Power over Ethernet PoE with power consumption that depends on multiple factors such as camera type and accessories. In the network design phase, the access switches connected with the IP cameras must be able to provide enough power to drive all the attached cameras.

Video is also widely used for lessons, remote learning and as a resource for the students outside of school hours. The traffic generated by this kind of video is less predictable, and if a whole class is streaming at the same time, traffic spikes can occur.

To be effective, the video service must be available without delay or image degradation. Any problems can cause distraction and consequently a loss of student attention. The network design needs to be capable of absorbing traffic spikes without affecting other users or resources.

Another source of traffic is video streaming from other sources such as YouTube, which often are not part of the educational offering, but are still accessed using the school network.

This traffic is largely unpredictable and is often not part of the school services, so it must be controlled to prevent disruption to high-priority services. Typically, this is achieved by allocating the video streams a low priority so they can be discarded if congestion occurs and there is higher priority traffic to be transmitted.

We can help identify and prioritize critical education applications to ensure teaching progresses uninterrupted. Xirrus helps provision wireless capacity where it is needed—from dorms, to offices, to lecture halls—with a range of performance-scaled solutions. And Xirrus solutions support the unique requirements of higher education—particularly in terms of device density, application visibility, and the ability to scale on demand.

Xirrus wireless solutions seamlessly support the massive proliferation of mobile devices, with onboarding services to automate the process of bringing new devices and users onto the campus wireless network. Xirrus ensures these devices access the network with a quality end user experience. No other vendor future-proofs your Wi-Fi network for a long lifespan like Xirrus. Programmable radios allow you to adapt the Wi-Fi infrastructure over time as the client base evolves.

Modular APs allow you to upgrade your network without replacing any equipment. Xirrus distributes intelligence across the network into each Access Point, eliminating the single point of failure and performance bottleneck of centralized controllers.

Application Control prioritizes critical applications over recreational usage. Xirrus solutions are the industry's first to integrate next generation application recognition and control at the network edge in every AP. Application Control ensures educational applications are prioritized to ensure a reliable user experience.

Xirrus implements multi-level security for comprehensive wireless network protection. Each Access Point integrates a stateful firewall. Xirrus Application Control enables application detection and application policy control on the network. It's a BYOD world. Students today learn as much with laptops, tablets, and phones as they do with beakers and books, and technology won't stand still.

You need a Wi-Fi system that can keep up with the times.