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With integrated microwave routing solutions from Aviat Networks, operators can save costs, improve network performance, simply operations, and enable new services.
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Not only does Aviat’s radios deliver the highest power radios in the industry with up to 5x more transmit power, they also now deliver up to 3x more capacity than previously available solutions.
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Anywhere you are, and anytime you need, you will be able to reach an AviatCare support representative.
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Ensure your network hardware & software are always up-to-date
Our AviatCare Lifecycle Support is designed to complement Land Mobile Radio (LMR) support by providing complete coverage of the microwave system
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Made in the USA
Our radios are designed, built and supported all within the USA. Aviat’s nationwide presence includes Corporate Headquarters and R&D center, manufacturing, and comprehensive in-country deployment services and after-sales support network.
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Aviat Keeps Antarctica Research Centers Connected
The National Science Foundation (NSF) has operated the United States Antarctic Program (USAP) since its inception in the 1950s. Program scientists perform a variety of critical research projects there that rely heavily on communications with the outside world—for transmission of research data for analysis, for contact with other researchers in the U.S. and other regions of the world, for personal communications between the Antarctica staff and their families and others, and for many other purposes.
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Case Study: Chugach Electric’s Measured Approach to Migrating Teleprotection to IP/MPLS
Chugach Electric’s network migration began in 2010, when they first identified upcoming issues with their existing network, which consisted of end-of-life hardware and capacity bottlenecks. The migration was critical to ensure traffic across operations that covered an expansive footprint remained flowing and without any issues and to be also to evolve the network to enable allow future technologies, services, and applications.
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B2B E-commerce: Why the Microwave Industry Needs It
Those familiar with the microwave industry can tell you that over the last 20 years (despite the evolution in mobile apps, cloud, automation) and apart from a few exceptions, there hasn’t been much change in the processes used to design, purchase, build, install, and maintain microwave networks.
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Growing Your Microwave Capacity
Making Sense of the Options to Determine What’s Best for You
Microwave technology is evolving rapidly to meet the ever increasing demands for data throughput.
The recent data explosion has created a burden on communications networks to provide the necessary capacities to support the network and its applications. Networks that were initially deployed to carry low capacity voice circuits are now faced with the challenges of being increasingly adaptive, elastic and intelligent to accommodate the constantly evolving traffic it carries.
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My Takeaways from IEEE 5G World Forum Panel Discussion on vRAN and 5G Transport
by Gary Croke
On July 10th, I participated in a panel at IEEE 5G World Forum with colleagues from Vodafone, Bell Labs/Nokia, Facebook and Collinear.
FORUM: 5G vRAN Over Less than Ideal Backhaul
Through a lively discussion and exchange of ideas we explored backhaul/fronthaul considerations in a virtualized RAN in 5G network. We discussed CRAN, vRAN and their benefits, challenges and issues.
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Unified Fiber-Microwave Transport for 5G Networks
A Vision from Aviat and Ciena
The arrival of 5G services will bring significant change to the way we consume bandwidth. Already, even well before 5G is rolled out, video comprises over one half of all network traffic and is predicted to exceed two thirds of all bandwidth by 2020.
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Why Aviat Created IRU 600 v4: High Capacity and High Gain
IRU 600 v4 was announced 2 months ago and is the newest all indoor radio for the North American market. The latest version offers the ability to utilize true wide channels (up to 80MHz) and high modulations (up to 4096QAM) to transport ultra-high capacities, while retaining the radio’s extra high-power (EHP) amplifier. The IRU 600 v4 builds on the tradition of its industry-leading predecessor, which introduced the EHP and reshaped the way microwave paths were designed; users were finally able to design longer links with higher path reliability while using smaller antennas. Now with the v4, users can also design paths with approximately 3x more capacity than the previous version.
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Welcome to The New Trunking
Long-Haul Trunking is a subset of the broader microwave market focused on solutions optimized for high capacity, long distance transmission operating in lower (less than 13 GHz) frequency bands, as an alternative to fiber. Traditionally, this segment has been composed of products in two categories, All-Indoor Trunking or Split-Mount Trunking.
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Evolution of Transport for 5G
4G Transport Options Today
Ethernet Based Backhaul
4G transport options are tied to base station functionality and operator’s deployment scenarios. Traditional base stations are decentralized and have relatively low capacity and latency requirements. Although there are many scenarios were traditional base stations are desirable, operators are looking at ways to reduce costs and optimize performance. As the RAN is evolving to become greener and more profitable in many cases Ethernet alone does not meet RAN evolution.
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White Paper: Evolving Public Safety Networks
Public Safety networks are changing and becoming more advanced in terms of applications and services that are required by its users. Networks that were initially deployed to carry low capacity voice circuits are now faced with the challenges of being increasingly adaptive, elastic and intelligent to accommodate the constantly evolving traffic it carries.
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