Medicine Industry: News and Marketplace



  Home News White Papers Buyers Guide  
      WiMAX News
      WiMAX Equipment
      WiMAX Billing Solutions
      VoIP over WiMAX
      WiMAX Vendors
      WiMAX Test Tools
      WiMAX Development
      WiMAX RSS Feeds


WiMAX Buyers Guide

WiMAX Hardware

WiMAX Base Station


WiMAX Antenna

TeleMedicine Equipment

WiMAX Cooling Systems

WiMAX Chips, Chipsets,
Boards & Components

Turnkey TeleMedicine

WiMAX PtP - Point-to-Point

WiMAX PtMP - Point-to-Multipoint

WiMAX Test Equipment

WiMAX Equipment Distributors

WiMAX Towers

WiMAX Shelters and Cabinets

TeleMedicine Software

Telemedicine Billing Software

WiMAX Test Software

WiMAX Mesh Networks

WiMAX Network Monitoring

WiMAX QoS Solutions -
Quality of Service

WiMAX Provisioning

TeleMedicine Monitoring Software

WiMAX Software Distributors

WiMAX Services

WiMAX Test Certification

WiMAX Installation

WiMAX Business Case

WiMAX Network Design

WiMAX Hosted Billing

WiMAX Networking


TeleMedicine Integrators

TeleMedicine Training

WiMAX Consulting

TeleMedicine Solutions

WiMAX Metro Area Networks (MANs)

WiMAX Campus Area

Military WiMAX Systems


WiMAX Backhaul



Submit your Site




ORiNOCO Wi-Fi Mesh Series


ORiNOCO Wi-Fi Mesh Series
High Capacity Wi-FiŽ Mesh Delivers Flexible, Scalable, and Reliable Voice and Data for Large Metropolitan and Enterprise Wi-Fi Deployments The dual-radio ORiNOCOŽ Wi-Fi Mesh Access Points deliver video, voice and data over Wi-Fi to the edge of a network over a flexible, auto-forming, self-healing, near line of sight mesh backbone. The dual-radio architecture separates the mesh backbone traffic from the edge access traffic, increasing capacity compared to single-radio mesh architectures. Seamless integration between ORiNOCO indoor and outdoor mesh access points enables existing indoor Wi-Fi networks to extend outdoors.

High Capacity Mesh Access Points Deliver Flexible, Scalable, and Reliable Voice and Data for Large Metropolitan and Enterprise Wi-Fi Deployments

Purpose-built for the metropolitan Wi-Fi market, the ORiNOCO Wi-Fi Mesh Access Points are built on the same reliable software used in ORiNOCO enterprise networks to ensure carrier-quality availability.
  • The ORiNOCO Mesh Creation Protocol (OMCP) enables mesh backhaul and Wi-Fi coverage on the same radio, while the second radio is used exclusively for Wi-Fi coverage.
  • Industry-leading throughput with 802.11g and 802.11a simultaneous operation
  • Robust RADIUS accounting and authorization interface enables detailed subscriber usage tracking
  • WMM/802.11e quality of service support for data, voice and video
  • Available in indoor form factor and ruggedized form factor for outdoor deployments
  • Outdoor models include high power version for extended range

Proactive Security Measures to Protect Your Network

  • Intra-cell blocking and traffic redirection to prevent subscriber-to-subscriber attacks
  • Broadcast bandwidth throttling prevents broadcast attacks
  • Spanning tree protocol prevents network loops caused by subscribers connecting two or more CPE devices together
  • IEEE 802.1x mutual authentication
  • Dynamic per-user, per-session rotating keys
  • Rogue access point detection and notification
  • Secure management interfaces: SNMPv3, SSL and SSH

Self Forming/Self-Healing Mesh Is Easy to Deploy

  • Self-forming and self-healing ORiNOCO Mesh Creation Protocol automatically routes traffic through the best path as mesh access points are added or removed from the network
  • Tools to speed installation and optimization: automatic channel selection, adjustable transmit power, external antenna connectors

Reliable by Design

  • Robust features for metropolitan Wi-Fi and enterprise applications
  • Automatic reconfiguration of security policy in the event of power loss
  • Dual firmware image support – for rollback in the event of software or configuration change problems
  • Power-Over-Ethernet support
  • Optional AC power supply for light pole installations offered for high power, outdoor models

Request Quote/Info