TRUTH OR DARE? Let's Clear the Air Don't get us wrong. We love Pinocchio. But when he rears his ugly nose into our business we get, well....all up IN it. Sometimes things can get a little complex, technical and confusing. We're big on simplifying things and being brutally honest about technlogy and it's real value - whether it's ours or not. So here goes. Cisco's new whitepaper "All_Beamforming Solutions are not Equal" is at best misleading and at worst mythology. In this paper, Cisco effectively got two things right: 1) they spelled the word "beamforming" properly and 2) they used the appropriate Cisco corporate logo. Cisco is clearly going out of their way to give the impression that Ruckus-patented BeamFlex and digital signal processing (DSP)-based beamforming (often called chip-based transmit beamforming or TxBF) techniques are categorically similar. BeamFlex and TxBF are radically different in function, benefit, and usefulness. Ruckus supports both. FOR THE TECHNICALLY MINDED (you know who you are)
Method for allowing a client to access a wireless system - Tropos Networks, Inc. The invention relates generally to wireless communications. More particularly, the invention relates to a method of wireless accessing. Packet networking is a form of data communication in which data packets are routed from a source device to a destination device. Packets can be networked directly between a source node and a destination node, or the packets can be relayed through a number of intermediate nodes. A wireless network can include a wireless device being connected to a network through a base station that is wired to the network. A wireless device may be mobile, and therefore, require access to more than one base station. An advanced mobile phone system (AMPS) employs a centrally coordinated approach to accomplish handoffs as a mobile phone roams from on cell (defined by a base station) to another cell. Another approach to wireless accessing is Mobile IP. A wireless mesh network includes wireless access nodes interconnected by a mesh of wireless links. Detection of a Client
www.Teleorigin.com - Homepage BROCADE Enabling Agile and Automated Mobility for All Your WLAN Initiatives Any successful wireless LAN (WLAN) deployment requires the careful consideration of two primary factors: infrastructure and security. As primary components supporting the Brocade HyperEdge Architecture, our evolutionary campus architecture that radically simplifies networking and improves business agility, Brocade Mobility Wireless LAN (WLAN) solutions deliver secure, anywhere anytime wireless connectivity for organizations of any size. Brocade Mobility Solution Benefits: High-quality user experience through eliminating wireless controller bottlenecksSelf-healing automation ensures reliable service availabilityTremendous value with up to 50 percent lower TCO than competitorsAccess point-based firewalls and advanced encryption deliver reliable security802.11n and up to 10,240 access points per controller leave room to grow Security: A Business Imperative Low TCO and Investment Protection: Another Business Imperative Summary
Wireless planner Terms of Use Map Satellite [ Log On ] [ Support? Welcome to the DragonWave Microwave Link Planner To learn more about DragonWave visit LabJack | Measurement & Automation Simplified XIRRUS Ruckus Training: Login to the site untitled ADTRAN Traditional enterprise wireless networks were designed before the explosion of Wi-Fi enabled devices and are now straining under the demand to support more devices, more access points, wider mobility, and greater bandwidth. Wireless connectivity in the enterprise has moved from the access of convenience to the access of choice. A more scalable, cost-effective solution has emerged that leverages the power of virtualization to solve the scale challenges of the enterprise wireless network. Introducing ADTRAN Bluesocket virtual wireless LAN (vWLAN) that brings the power of network virtualization to Wi-Fi. vWLAN offers the industry’s first cloud-based, virtualized management and control solution for wireless LANs, eliminating physical, hardware-based controllers from the network, removing scale limitations, and enabling management and control of thousands of Access Points (APs) and users located anywhere in the world.
Technical Overview of MIMO For more information on the implementation of MIMO in IEEE802.11n WLAN and WiMAX explore the links below. MIMO (Multiple-Input, Multiple-Output) is a smart antenna technology. MIMO uses multiple antennas at both the transmitter end and the receiver end to make more efficient use of the RF spectrum. Mathematical algorithms are used to spread the user data across the multiple transmitters. The transmitted signals are three dimensional and described in terms of time, frequency and space. Currently wireless signals transmitted via single antennas are distorted by hills, buildings, valleys and other landscape features. Ultimately, the goal of MIMO is to measurably improve the spectral efficiency (bit/sec/Hz), the coverage area (cell radius) and the signal quality (bit-error rate or packet-error rate). There are many bodies interested in the development of MIMO; the European Marquis project, the Wireless Gigabit with Advanced Multimedia Support (WIGWAM), among others.
Web PLC - The bridge between Automation World and World Wide Web - Home FORTINET Fortinet’s Secure WLAN is a comprehensive, flexible end-to-end wireless LAN security solution that incorporates wireless and wired access, security, authentication, switching and management to help you adjust to the new demands for speed and security being put on your enterprise network. You have the flexibility to choose between thick and thin access points (APs), managed by the integrated wireless controller in FortiGate network security platform, delivering comprehensive, proven threat management and policy enforcement. Fortinet's unique approach allows you to integrate security for your wired and wireless networks quickly and easily. You can manage all policies from a 'single pane of glass' management console, improving protection while simplifying your network. Fortinet’s wireless security solution consists of three components: FortiAP Thin Wireless Access Points are cost-effective IEEE 802.11ac and 802.11n “Thin” APs that provide Integrated Network Security and WiFi client access.
Aviat Networks: Market-leading Solutions for Global Wireless Network Applications.