X-Micro Tech IEEE 802.11b What are the Open System and Shared Key authentications?, What is WEP?

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USER’S MANUAL OF X-MICRO WLAN 11b BROADBAND ROUTER

Version: 2.6

 

 

4.7What are potential factors that may causes interference? Factors of interference:

¾Obstacles: walls, ceilings, furniture… etc.

¾Building Materials: metal door, aluminum studs.

¾Electrical devices: microwaves, monitors and electrical motors. Solutions to overcome the interferences:

9 Minimizing the number of walls and ceilings.

9 Position the WLAN antenna for best reception.

9 Keep WLAN devices away from other electrical devices, eg: microwaves, monitors, electric motors, … etc.

9 Add additional WLAN Access Points if necessary.

4.8What are the Open System and Shared Key authentications?

IEEE 802.11 supports two subtypes of network authentication services: open system and shared key. Under open system authentication, any wireless station can request authentication. The station that needs to authenticate with another wireless station sends an authentication management frame that contains the identity of the sending station. The receiving station then returns a frame that indicates whether it recognizes the sending station. Under shared key authentication, each wireless station is assumed to have received a secret shared key over a secure channel that is independent from the

802.11wireless network communications channel.

4.9What is WEP?

An optional IEEE 802.11 function that offers frame transmission privacy similar to a wired network. The Wired Equivalent Privacy generates secret shared encryption keys that both source and destination stations can use to alert frame bits to avoid disclosure to eavesdroppers.

WEP relies on a secret key that is shared between a mobile station (e.g. a laptop with a wireless Ethernet card) and an access point (i.e. a base station). The secret key is used to encrypt packets before they are transmitted, and an integrity check is used to ensure that packets are not modified in transit.

4.10What is Fragment Threshold?

The proposed protocol uses the frame fragmentation mechanism defined in IEEE 802.11 to achieve parallel transmissions. A large data frame is fragmented into several

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Contents Ieee 802.11b Wlan 11b Broadband Router Ieee 802.11b Trademarks Terminology Table of Contents Frequently Asked Questions FAQ Product Specifications Package contentsFront Panel Description Product FeaturesWAN ACT LED Rear Panel Description Antenna Reset WAN LAN PowerSoftware Installation Hardware InstallationSoftware configuration For OS of Microsoft Windows NT Description Connect to the X-Micro Wlan 11b Broadband RouterBssid Wireless Basic Settings Shared Key or Auto selection Wireless Advanced SettingsClick to select the Long Preamble or Short Preamble Wireless Security SetupTKIP? Screen snapshot Set WEP Key ItemDescription Wireless Access ControlWDS Setup LAN Interface Setup Screen snapshot LAN Interface Setup Static IP WAN Interface SetupDNS Address assigned automatically from a Dhcp server If you select the PPPoE and Connect on Demand Are Continuous, Connect on Demand and Manual threePPTPOnly in Firmware-1.6x Firewall Port Filtering Comments ProtocolFirewall IP Filtering Firewall MAC Filtering Firewall Port Forwarding Port Range Firewall DMZComment DMZ Host IP Address StatisticsSent Packets Upgrade FirmwareSelect File Save/ Reload SettingsPassword Setup User Name What are ISM bands? What and how to find my PC’s IP and MAC address?What is Wireless LAN? How does wireless networking work?What is ESSID? What is BSSID?What is WEP? What are the Open System and Shared Key authentications?What is Beacon Interval? What is RTS Request To Send Threshold?What is Ssid Broadcast? What is Preamble Type?What is Wi-Fi Protected Access WPA? What is Inter-Access Point Protocol IAPP? What is 802.1x Authentication?What is Temporal Key Integrity Protocol TKIP? What is Advanced Encryption Standard AES?What is Maximum Transmission Unit MTU Size? What is Universal Plug and Play uPNP?What is Clone MAC Address?

IEEE 802.11b specifications

X-Micro Tech's IEEE 802.11b standard represents a significant advancement in wireless networking technology, forming part of the IEEE 802.11 family designated for wireless local area networks (WLAN). Introduced in the late 1990s, the 802.11b standard was a precursor to modern wireless technologies, bringing considerable improvements in speed, range, and reliability.

One of the main features of IEEE 802.11b is its data transmission capability, achieving speeds of up to 11 Mbps. While this may seem modest by today's standards, it was a groundbreaking advancement that allowed users to access the internet and share files wirelessly at previously unattainable speeds. Additionally, 802.11b supports lower data rates—5.5 Mbps and 2 Mbps—which enhance reliability and range, allowing devices further from the access point to maintain connections.

The technology operates in the 2.4 GHz frequency band, a characteristic that facilitates better penetration through walls and physical barriers. However, this frequency band is also shared with other appliances, such as microwaves and Bluetooth devices, which can lead to interference. Despite this, the standard incorporates a robust form of modulation, specifically complementary code keying (CCK), which enhances its resilience against such interference.

Another significant aspect of IEEE 802.11b is its capacity for extended range. Under optimal conditions, devices can communicate over distances of up to 300 feet indoors and up to 1,000 feet outdoors. This extended range was particularly useful in homes and offices, promoting seamless integration of devices into networks without the cumbersome wiring typically associated with traditional networking.

Security has always been a critical concern in wireless communications. IEEE 802.11b introduced Wired Equivalent Privacy (WEP) for basic data protection. However, limitations in WEP led to the development of more secure protocols such as WPA and WPA2 in later iterations of wireless standards.

In summary, X-Micro Tech's IEEE 802.11b standard laid the groundwork for modern wireless networking. Its key features, such as a maximum data rate of 11 Mbps, compatibility with the 2.4 GHz frequency band, and extended range capabilities, revolutionized network access in homes and businesses. Even as technology has evolved, the impact of 802.11b can still be felt, serving as a building block for subsequent wireless advancements, making it a significant milestone in the history of networking technology.
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