Wifi Name Generator: So are you looking for a fun Wi-Fi name for your router? Then this article is more helpful for you. Here I am going to share the total, funny, creative, best, good, hilarious wireless router names for you. 


Simon Sinek Net Worth: $100 Million

Simon Sinek's Income / Salary:

Per Year: $20 Million

Per Month: $2 Million

Per Week: $500,000

Per Day:Per Hour: Per Minute:Per Second:
$70,000$3,000$50$1.00

Since you arrived on this page at Simon Sinek Earned:


When we install a WiFi network at home, there are those of us who fear the big question: What name are you going to give it? Ok, that does not refer to a pet that we just adopted, but the name of our WiFi is also important.

Where and how to change the name of your Network

Change the name of our WiFi network To change both the password and the name (SSID) of our WiFi network, the first thing we must do is connect to the administration page of our router. This will depend a lot on each router and each case, but as a general rule, the IP address to access the router’s control panel is usually 192.168.1.1. In this way, we would place this IP address in our web browser (Internet Explorer, Google Chrome, Safari, Firefox …) and through the username and password that we will find on the back of our router, we can change these parameters.

What is WiFi?

WiFi is a technology that allows wireless connection between electronic devices, computers, smartphones, tablets, televisions, game consoles, etc. Wi-Fi is a brand of the Wi-Fi Alliance or Wi-Fi Alliance, the organization that promotes this technology and that is responsible for certifying all products that comply with the established standards of interoperability.

A technology that arose from the need to establish a way of wireless connection that was compatible with different devices. Therefore, the goal of the Alliance was to design a brand that would make it easier to promote wireless technology and ensure compatibility between devices.

Types of Wifi

Different types of Wi-Fi are known, according to the standards they use for their identification and that can be distinguished into two categories:

  • 2.4 GHz band. Here are the IEEE 802.11b, IEEE 802.11g, and IEEE 802.11n standards, whose handling is international and allows speeds of 11 Mbit / s, 54 Mbit / s, and 300 Mbit / s respectively. However, it is the type that counts the most interference, since the 2.4 GHz band is also used by Bluetooth and other wireless systems.
  • 5GHz band. The new type of Wifi, known as WIFI 5, applies the IEEE 802.11ac standard and is handled on a completely new channel free of interference, so, despite being a recent technology and having the disadvantage of 10% Less throw distance, it is considered extremely convenient given its stability and speed.

 

how wifi work digram

Standards certified by the Wi-Fi Alliance

There are several types of WiFi-based on an IEE 802.11 standard. that the Alliance itself certifies and that consists of a series of wireless standards created by the Institute of Engineers and Electronics (IEEE). Among the most important standards, it is worth highlighting:

  • IEE 802.11: In a way, it is the base standard for wireless network communications. It does not go back to the end of the 90s and it allowed transferring data at 1Mbps.
  • IEE 802.11a: It is the first revision that was made on the base standard and operates in the 5 GHz frequency band with a maximum speed of 54 Mbps.
  • IEE 802.11b: It had a great acceptance when it began to operate in the 2.4GHz band, since it reduced the attenuation in the air, a problem with the previous standard, and thus eliminated a lot of interference. The transmission speed it offered was set at 11 Mbit / second, but its main problem was indoor coverage.
  • IEEE 802.11g: the next standard still did not go beyond the 2.4GHz bandwidth, equaling the theoretical maximum transmission speed of 54 Mbit / sec to the IEE 802.11a standard, and greatly improved indoor coverage and exteriors with respect to the IEE 802.11b standard.
  • IEE 802.11n: Also known as WiFi 4. Its arrival was a before and after in wireless connections, thanks to the implementation of MIMO networks in the WiFi standard. Although these antennas were present in equipment with the IEEE 802.11g standard, the truth is that this caused them to be normalized thanks to the advantages of this technology, which, in addition to being compatible with previous standards, achieved transfer speeds of between 150 and 600 Mbps. In addition, indoor and outdoor coverage reached up to 120 and 300 meters respectively.
  • IEEE 802.11ac: Also known as WiFi 5 or WiFi Gigabit, it is an improvement to the IEEE 802.11ny standard that was approved in 2014. This standard achieved high speeds, theoretically up to 1.3Gbit / s, thanks to beamforming technology to focus radio signals and can use up to a maximum of four antennas.
  • IEEE 802.11ah: This revision is also known under the name of HaLow, Improves WiFi when working in a spectrum below 1 GHz to offer greater range and connectivity with lower power consumption. Ideal for IoT devices, which need great range, but not necessarily great wireless speed.
  • IEE 802.11ax: Also known as WiFi 6 and designed to operate in the 2.4 and 5 GHz spectrum. In addition to using MIMO and MU-MIMO, this new standard introduces OFDMA to improve overall spectral efficiency and offer higher performance. It is compatible with the previous protocols and offers a theoretical maximum speed of 10 Gbps.

Types of security in WiFi connections

The security of the WiFi is variable, mainly based on the encryption that applies to communications between the router and wireless adapters. There are several options, and they can be divided into safe and unsafe due to their technical characteristics:

  • WEP (Wired Equivalent Privacy): This type of encryption dates back to 1999. At that time it was the most widely used in the world, but of course, its use has been decreasing over the years. Upon arrival, many flaws and security holes were discovered, which meant that it had to be improved over time. Although the main bugs and holes were fixed, the truth is that it is unreliable and easy to exploit encryption.
  • WPA (WiFi Protected Access): WPA was the answer to the main flaws and vulnerabilities of WEP. The keys used by WPA are 256 bits, unlike the 128 bits used by WEP, although it is not the only improvement since it incorporates the verification of content and integrity of messages to prevent them from being intercepted and the use of the key protocol temporary TKIP, which helps a router to be easily attacked like WEP.

wpa

  • WPA2: The main difference with WPA is the use of AES, which performs block encryption to allow longer and more secure keys, and the implementation of CCMP, which is an improved encryption protocol that replaces TKIP.
  • WPA3: Incorporates 192-bit encryption instead of 129-bit, which makes the encryption more secure and difficult to break. This makes it more secure even with weaker passwords, therefore the same key is more vulnerable to brute force attacks in WPA2 than in WPA3. It also has a new way to configure and connect devices to the network without the need for a screen or physical buttons, etc.

Advantages and disadvantages of WiFi networks

Wireless connectivity is becoming more and more widespread and it has undoubtedly made our life completely changed. We live in a technological era in which we live connected and that is, in large part, due to the large number of WiFi connections that we can access wherever we go. However, although these types of connections offer certain advantages, we can also find certain disadvantages.

Among the main advantages that WIFI offers us, it is worth highlighting:

  • Wireless connectivity: Undoubtedly one of the main advantages that WiFi offers us is that it is a type of wireless connectivity. Therefore, the physical connection by cables is not necessary, so we avoid having to fill our house or office with cables from all sides.
  • Convenience: The fact that it is wireless connectivity does not also offer great comfort and freedom. That is, we can go from one place to another with our computer, tablet, or mobile and remain connected without this posing any problem. The range is usually more than sufficient in most homes, although there are numerous options to extend the range of WiFi if necessary.
  • Cost: Not having to use wiring and devices such as hubs or similar, makes a WiFi network have a much lower cost than wired networks.
  • Compatibility: The WiFi Alliance ensures full compatibility between devices, therefore, it allows us to use WiFi technology with full compatibility anywhere in the world.

Now, they also offer certain disadvantages or disadvantages with respect to wired networks:

  • Speed: In the case of using a WiFi connection, there are numerous factors that can affect the speed of our connection in the device used for the connection, something that with the cable is much less likely unless we use exaggerated lengths or very low cables quality.
  • Latency: It is another of the main problems that we can find in this type of wireless connection. WiFi connections are more prone to certain lags, especially when we want to stream high-resolution multimedia content or play online. In addition, there are certain external agents that can negatively affect our connection.
  • Interferences: WiFi networks can be affected by certain interferences, which will mean a lower performance of them. Certain electronic devices and appliances can generate waves that interfere with those of this type of wireless network, but, in addition, there are certain elements such as walls or doors that can also cause the signal to reach certain corners of the house.
  • Micro- cuts: All these types of aspects that can negatively influence a WiFi network can cause certain cuts in our connection. On certain occasions, they may not affect what we are doing, but in certain cases, it can be a big problem.

How to control every detail of your WiFi

The quality of a WiFi network depends on several factors that, on the other hand, can be difficult to control. The characteristics of the router, its location, its orientation, the network configuration … all these factors determine the speed and quality of the signal, which ultimately translates into the quality of the Internet connection, and determines to what extent we make the most of our network. This TP-Link software offers us just that, all the details related to Wi-Fi.

We can find third-party software dedicated to the analysis and optimization of a WiFi network, both professional solutions and oriented to the particular field. This TP-Link software, as you will see in the screenshot that accompanies the article, allows you to configure a heat map of a WiFi network, in which we can know the signal strength in great detailIn this way, we can diagnose possible problems and, obviously, solve them by relocating the router, modifying the orientation of its antennas, and others.

In addition, it also offers us more interesting details in the professional field, such as the analysis of download and uploads traffic from the different access points of the same wireless connection. Thus, we not only have software for the optimization of the WiFi network, but also for the monitoring of the activity,  especially the Internet access from points without cables.

Statistics tp link

Reviewing in greater detail the new TP-Link software we find, as you can see in the following screenshot, with a panel dedicated to the statistics of use of the WiFi network.

Statistics tp link

In this previous one, with detailed graphs, we can appreciate an analysis of traffic and clients connected to the WiFi network. Again, we are talking about professional-oriented functions. In any case, the option proposed by TP-Link is reminiscent of Google OnHub software, another interesting option for managing a wireless network.