Which of the Following Enterprise Wireless Deployment

There are several different types of enterprise wireless deployments, each with its own advantages and disadvantages. Infrastructure-based deployments use an access point (AP) to provide centralized control over the network.

This allows for greater scalability and security but can be expensive to deploy since it requires additional hardware.

Mesh networks allow for distributed control by using multiple nodes that all communicate with one another wirelessly, eliminating the need for a central AP.

However, this type of deployment can be difficult to manage due to its complexity and lack of centralized control. Ad hoc networks rely on peer-to-peer connections between devices without any infrastructure in place; while these are simple to set up they offer limited functionality and range compared to other options.

Finally, hybrid deployments combine elements from two or more of the above models in order to get the best combination of features available in each model.

When it comes to enterprise wireless deployments, there are a few different choices. Businesses can choose from an on-premises solution, cloud-based solutions, or hybrid solutions.

On-premises solutions allow businesses to have complete control over their wireless networks and provide the fastest speeds due to having servers and routers located in close proximity.

Cloud-based solutions provide businesses with more scalability but may require them to sacrifice some speed for cost savings. Hybrid solutions combine both onsite and cloud components allowing for greater flexibility depending on the network needs of the business.

Each type of deployment has its own benefits so weighing those pros and cons is important when making a decision about which option best suits your organization’s needs.

Design and Deployment of Enterprise WLANs

Which of the Following Enterprise Wireless Configuration Strategies Best Keeps Public Wireless Access Separate from Private Wireless Access?

The best strategy for keeping public wireless access separate from private wireless access is to use a multi-SSID configuration. This type of setup allows you to configure multiple SSIDs on the same physical network, with each one having its own authentication and encryption parameters.

By setting up two different SSIDs – one for private users and another for public users – it becomes easier to control who has access to which networks, as well as the security settings applied to them.

Additionally, using this method also allows you to create separate policies and firewall rules that apply only to the public or private network, further enhancing security while still allowing visitors secure wireless internet access.

Which Type of Networking Technology is Used to Share an Internet Connection Wirelessly between Two Mobile Devices?

The type of networking technology used to share an Internet connection wirelessly between two mobile devices is Wi-Fi Direct. Wi-Fi Direct allows for a direct connection between two compatible devices without the need for a router or access point, making it easy and convenient to use.

It supports speeds up to 250 Mbps and can be used with any device that has this technology enabled, such as smartphones, tablets, laptops and other mobile devices.

With the help of Wi-Fi Direct, users can quickly connect their phones or tablets directly to each other in order to stream media content or send files back and forth without needing additional hardware or relying on traditional networks like cellular data plans.

Which Type of Wireless Network Does Not Use a Wireless Access Point?

A wireless network that does not use a wireless access point is known as an ad-hoc network. This type of network allows two or more devices to communicate directly with each other without the need for a central hub, such as an access point. Ad-hoc networks are useful in situations where there is no available infrastructure, such as in a remote area or on the go.

They can also be set up quickly and easily, making them ideal for temporary or emergency connections.

Which Technologies are Used by the 802.11 Ac Standard to Increase Network Bandwidth?

802.11ac is the latest iteration of Wi-Fi technology, and it uses a variety of technologies to increase network bandwidth. The main feature that increases network speeds is increased channel bonding, which allows for more data to be sent over multiple channels at once.

Additionally, 802.11ac employs MU-MIMO technology, which makes use of multiple antennas in order to send and receive data simultaneously on different channels.

Finally, beamforming helps boost signal strength by focusing radio waves towards devices instead of broadcasting them indiscriminately throughout an area. Together these features make up the power behind 802.11ac and are responsible for its unparalleled speed compared to earlier versions of Wi-Fi standards.

Identifies Relative Strength of a Radio Signal at the Receiver.

Receiving a strong radio signal is important for both the quality of sound and reception. To identify the relative strength of a radio signal at the receiver, many modern radios have a signal strength meter that measures received power in dBm (decibel-milliwatts). This type of measurement gives an indication as to how well the antenna is performing and whether or not there are any obstructions affecting its ability to receive signals.

By knowing this information, one can then adjust their antenna placement accordingly in order to get better reception.


In conclusion, enterprise wireless deployments can be a complex but necessary process. Depending on the size and scope of the organization’s needs, it may be beneficial to work with an IT consultant or service provider who is experienced in setting up these types of systems to ensure that everything is properly configured and secured.

By taking into account factors such as scalability, security measures, user experience, and cost considerations when making decisions about which type of deployment will best suit their business needs, companies can maximize their return on investment while providing reliable access for employees.