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BlackByte ransomware will now stash your data in the cloud | TechRadar

Stolen files sent to the cloud and into a Mega folder....


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Optical Fibers vs Copper

Data Transmission via Copper:

Operation

Copper cables are used to transmit data through electrical signals. These signals propagate along the cables, carrying information from one point to another. Copper is an excellent conductor, allowing signals to travel at relatively high speeds. However, transmission performance can be affected by distance and external interference, such as electromagnetic radiation from other devices.

Data Transmission via Optical Fibers:

Operation

Optical fibers transmit data using light signals. Light travels through the fibers by continuous reflections, maintaining signal quality unaffected by external interference. This property allows optical fibers to offer high transmission speeds and long-distance transmission without losses.

Performance Comparison

Speed

  • Copper: Data transmission speed via copper is limited, especially over long distances. DSL connections can offer speeds up to 100 Mbps, but actual speeds may be lower due to interference and distance from the central switch.

  • Optical Fibers: Optical fibers support speeds reaching and exceeding 1 Gbps, making them ideal for demanding applications like 4K video streaming and online gaming. Speed remains stable regardless of distance.

Reliability and Stability

  • Copper: The reliability of copper connections can be affected by interference and external factors such as weather conditions. The quality of the cable and connections also plays a role in connection stability.

  • Optical Fibers: Optical fibers are highly reliable as they are unaffected by electromagnetic interference. This ensures a stable connection even in environments with high noise levels.

Transmission Distance

  • Copper: The performance of copper cables decreases with distance. Over long distances, signal quality degrades, requiring amplifiers to maintain the connection.

  • Optical Fibers: Optical fibers can transmit data over much longer distances without losses, making them ideal for long-distance networks, such as international communication cables.

Advantages and Disadvantages

Copper

Advantages:

  • Lower initial cost.
  • Wide availability and familiar technicians.
  • Satisfactory performance over short distances.

Disadvantages:

  • Limited speed and transmission distance.
  • Sensitivity to interference.
  • Higher maintenance requirements.

Optical Fibers

Advantages:

  • Very high transmission speeds.
  • Great reliability and stability.
  • Ability to transmit over long distances without losses.

Disadvantages:

  • Higher initial material and installation cost.
  • Requires specialized equipment and technical knowledge for installation.

Conclusion

The choice between copper and optical fibers depends on the user’s needs and budget. While copper remains an affordable and easy solution, optical fibers offer superior performance and reliability, making them the best choice for those seeking high speeds and stability. Personally, I prefer optical fibers for their unparalleled quality and future potential.

Registered User:: chris7
Posted: 28/07/24 07:36:47
Views: 110 Answers: 1
What is WPA3? and how it works

What is WPA3 ?

WPA3 (Wi-Fi Protected Access III) is the latest security standard for wireless networks, developed by the Wi-Fi Alliance. It was introduced as a replacement for WPA2 to address the security weaknesses that were discovered in WPA2. WPA3 provides stronger security by using the latest encryption algorithms, such as Advanced Encryption Standard (AES) in Galois/Counter Mode (GCM) and Elliptic Curve Diffie-Hellman (ECDH) for secure key exchange.

WPA3 also introduces two new security features:

  • Simultaneous Authentication of Equals (SAE) for improved protection against offline dictionary attacks.
  • Opportunistic Wireless Encryption (OWE) for improved protection against eavesdropping.

WPA3 is backward compatible with WPA2, so devices that support WPA3 can connect to networks that are still using WPA2, but the connection will be made at the lower WPA2 security level.

WPA3 vs WPA2

WPA3 (Wi-Fi Protected Access III) is the latest security standard for wireless networks, and it's developed by the Wi-Fi Alliance as a replacement for WPA2.

WPA2 (Wi-Fi Protected Access II) is the previous security standard for wireless networks, it was introduced in 2004 and it's widely used.

The main differences between WPA3 and WPA2 are:

  • Encryption: WPA3 uses the latest encryption algorithms, such as Advanced Encryption Standard (AES) in Galois/Counter Mode (GCM) and Elliptic Curve Diffie-Hellman (ECDH) for secure key exchange, while WPA2 uses AES in Counter Mode with CBC-MAC (CCM) for encryption and Temporal Key Integrity Protocol (TKIP) or AES-based CCMP for integrity.

  • Security Features: WPA3 introduces two new security features:

    • Simultaneous Authentication of Equals (SAE) for improved protection against offline dictionary attacks.
    • Opportunistic Wireless Encryption (OWE) for improved protection against eavesdropping.
  • Backward compatibility: WPA3 is backward-compatible with WPA2, meaning that devices that support WPA3 can connect to networks that are still using WPA2, but the connection will be made at the lower WPA2 security level.

In summary, WPA3 provides stronger security by using the latest encryption algorithms and introducing new security features. It is recommended to use WPA3 if possible, but WPA2 is still considered to be secure and can be used if WPA3 is not supported.

Simultaneous Authentication of Equals (SAE)

Simultaneous Authentication of Equals (SAE) is a feature of the WPA3 security standard for wireless networks. It is designed to improve the security of wireless networks by providing protection against offline dictionary attacks.

Traditionally, wireless networks use a shared key (or password) to authenticate devices that are trying to connect to the network. This shared key is used to encrypt the data being transmitted over the network, but it can also be used to authenticate devices that are trying to connect. However, if an attacker can obtain the shared key, they can use it to authenticate themselves and gain access to the network.

SAE is a new authentication mechanism that uses a different approach. Instead of using a shared key, SAE uses a cryptographic key exchange algorithm to establish a unique session key between the client and the access point. This session key is used to encrypt the data being transmitted over the network. The key exchange process is designed to be resistant to offline dictionary attacks, which means that an attacker cannot simply try a large number of potential shared keys in order to gain access to the network.

In summary, SAE is a more secure method for wireless authentication that is resistant to offline dictionary attack, and it's one of the key features of WPA3 standard.

Opportunistic Wireless Encryption (OWE)

Opportunistic Wireless Encryption (OWE) is a feature of the WPA3 security standard for wireless networks. It is designed to improve the security of wireless networks by providing protection against eavesdropping.

OWE aims to improve the security of open wireless networks, which are networks that do not use any form of encryption. OWE allows a device to encrypt its wireless communications automatically even when connecting to an open network. By doing so, it makes it more difficult for an attacker to intercept and read the communications of other devices connected to the network.

OWE works by using a Diffie-Hellman key exchange algorithm to establish a unique session key between the client and the access point. This session key is used to encrypt the data being transmitted over the network.

In summary, OWE is a way to add encryption to open wireless networks, this makes it more difficult for an attacker to intercept and read the communications of other devices connected to the network. And it's one of the key features of WPA3 standard.

Advanced Encryption Standard (AES)

Advanced Encryption Standard (AES) is a widely used symmetric encryption algorithm that is considered to be highly secure. It was developed by the U.S. National Institute of Standards and Technology (NIST) and is specified in the Federal Information Processing Standards (FIPS) publication 197. It is used to encrypt sensitive data such as credit card numbers, personal information, and government classified information.

AES uses a fixed block size of 128 bits and supports key sizes of 128, 192, or 256 bits. It operates on a fixed number of rounds, determined by the key size, and uses a complex substitution-permutation network (SPN) structure to encrypt and decrypt data.

AES can be used in different modes of operation such as Electronic Code Book (ECB), Cipher Block Chaining (CBC), Counter (CTR), and Output Feedback (OFB). ECB is the simplest mode, but it has known security weaknesses, for this reason, other modes like CBC and CTR are recommended.

AES is widely supported and implemented in hardware and software, it is used in many applications and protocols such as VPNs, disk encryption software, and Wi-Fi security (WPA3). It is considered to be a robust encryption standard that has stood the test of time and is considered to be highly secure.

Registered User:: chris7
Posted: 26/01/23 08:07:23
Views: 777 Answers: 1
What is Wi-Fi 6 and what are its pros and cons

Wi-Fi 6 is the latest version of the Wi-Fi standard for wireless local area networks (WLANs). It is also known as 802.11ax, and it is designed to provide faster speeds, greater capacity, and improved performance in dense wireless environments.

Wi-Fi 6 uses a number of new technologies to achieve these goals, including Orthogonal Frequency-Division Multiple Access (OFDMA), Multi-User Multiple Input, Multiple Output (MU-MIMO), and Target Wake Time (TWT). Additionally, Wi-Fi 6 is also more energy-efficient than previous versions, which can help to extend battery life for devices that use it.

Positive aspects of Wi-Fi 6 include:

Faster speeds: Wi-Fi 6 is capable of delivering faster speeds than previous versions, which can be beneficial for activities such as streaming video or playing online games.
Greater capacity: Wi-Fi 6 can handle more devices and traffic than previous versions, which can be beneficial in crowded wireless environments such as airports or stadiums.
Improved performance in dense wireless environments: Wi-Fi 6 uses technologies such as OFDMA and MU-MIMO to improve performance in environments where there are many devices competing for the same wireless spectrum.
More energy-efficient: Wi-Fi 6 is designed to be more energy-efficient than previous versions, which can help to extend battery life for devices that use it.


Negative aspects of Wi-Fi 6 include:

Requires new hardware: To take advantage of Wi-Fi 6, both the wireless router and the devices connecting to it must support the new standard.
Not fully adopted yet: Wi-Fi 6 is a relatively new standard and not all devices and routers currently support it, so you may have to wait for newer devices to be able to fully take advantage of Wi-Fi 6.
Higher costs: Wi-Fi 6 routers and devices tend to be more expensive than those that support older versions of the Wi-Fi standard.
It's worth mentioning that many of the negative aspects will be addressed as the adoption and availability increase and the prices decrease over time.

What is OFDMA

Orthogonal Frequency-Division Multiple Access (OFDMA) is a multiple access technique used in wireless communication systems, such as Wi-Fi 6. It is a type of multi-user version of the popular orthogonal frequency-division multiplexing (OFDM) digital modulation scheme.

In OFDMA, a single channel is divided into multiple subchannels, each with a narrow band of frequencies. These subchannels can then be assigned to different devices, allowing them to communicate simultaneously over the same channel. This is in contrast to traditional multiple access schemes such as Time Division Multiple Access (TDMA), where devices take turns using the channel.

OFDMA can improve the capacity and efficiency of wireless networks by allowing multiple devices to share the same channel simultaneously. It also allows for better management of wireless resources, and it can help to reduce interference between devices.

OFDMA is used in Wi-Fi 6 to increase the number of devices that can be connected to a network at the same time, and also to improve the performance of the network in crowded wireless environments.

What is TWT

Target Wake Time (TWT) is a feature of Wi-Fi 6 (802.11ax) that helps to reduce power consumption on devices that use the standard. TWT allows devices to schedule their wake times so that they can conserve power when not in use.

With TWT, a device can negotiate a schedule with the access point (AP) for when it will wake up to receive data. The device can then enter a power-saving mode when it is not scheduled to wake up, which can help to extend its battery life. The device will then wake up only at the scheduled time to check for new data and then return to power-saving mode.

TWT is particularly useful for IoT devices and other devices that are battery-powered and have low-bandwidth requirements. TWT can be used in conjunction with other Wi-Fi 6 features, such as OFDMA, to further improve the energy efficiency of the network.

It's important to note that TWT support is not required for devices or APs to be Wi-Fi 6 certified, but it can be used as an optional feature to improve energy efficiency.

A few words about WPA3

WPA3 (Wi-Fi Protected Access III) is the latest security standard for wireless networks, developed by the Wi-Fi Alliance. It was introduced as a replacement for WPA2 to address the security weaknesses that were discovered in WPA2. WPA3 provides stronger security by using the latest encryption algorithms, such as Advanced Encryption Standard (AES) in Galois/Counter Mode (GCM) and Elliptic Curve Diffie-Hellman (ECDH) for secure key exchange.

WPA3 also introduces two new security features:

  • Simultaneous Authentication of Equals (SAE) for improved protection against offline dictionary attacks.
  • Opportunistic Wireless Encryption (OWE) for improved protection against eavesdropping.

WPA3 is backward compatible with WPA2, so devices that support WPA3 can connect to networks that are still using WPA2, but the connection will be made at the lower WPA2 security level.

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WiFi 6 vs. WiFi 5

Wi-Fi 6 (802.11ax) is considered to be an improvement over Wi-Fi 5 (802.11ac) in several ways:

  • Faster speeds: Wi-Fi 6 is capable of delivering faster speeds than Wi-Fi 5, which can be beneficial for activities such as streaming video or playing online games.
  • Greater capacity: Wi-Fi 6 can handle more devices and traffic than Wi-Fi 5, which can be beneficial in crowded wireless environments such as airports or stadiums.
  • Improved performance in dense wireless environments: Wi-Fi 6 uses technologies such as Orthogonal Frequency-Division Multiple Access (OFDMA) and Multi-User Multiple Input, Multiple Output (MU-MIMO) to improve performance in environments where there are many devices competing for the same wireless spectrum.
  • More energy-efficient: Wi-Fi 6 is designed to be more energy-efficient than Wi-Fi 5, which can help to extend battery life for devices that use it.

It's worth noting that Wi-Fi 6 is not a replacement for Wi-Fi 5, but rather an addition to the Wi-Fi standard. Devices that support Wi-Fi 6 will be able to connect to both Wi-Fi 6 and Wi-Fi 5 networks. However, to take advantage of the new features and benefits of Wi-Fi 6 both the wireless router and the devices connecting to it must support the new standard.

 

After reading this text, we hope that you are now a little smarter and more knowledgeable.

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Posted: 22/01/23 10:04:43
Views: 4903 Answers: 1
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