Wavesight and Firetide join hands to bring smart cities to India
With a growing need for smart and mobility solutions in India, Wavesight will partner with Firetide to bring mobility solutions aimed at the Metro and Smart Cites projects in India.
Firetide products help keep people safe. Using patented technology, the Company provides the highest performance fixed and mobile wireless IP network infrastructure products that enable concurrent video, voice and data applications for government, transportation, education and commercial customers.
Firetide’s products are used to build private wireless mesh infrastructure and access networks for indoor and outdoor use that are highly reliable and secure. Firetide is based in Silicon Valley with operations throughout the Americas, Europe, and Asia Pacific regions with an installed base of thousands of customers in 40 countries around the world.
The Firetide product portfolio enables building a high capacity wireless network that is comparable in performance and reliability to fiber. Firetide’s Mesh HotPort® series form the core of the product offering enabling customers to create a mesh, PTP or PTMP topology over a wireless backbone. To address the growing needs of complex mobile connectivity solutions, Firetide provides wireless mobility service via a dedicated Firetide Mobility Controller appliance, together with past performance and expertise required for the unique characteristics of wireless communications on moving objects such as trains, busses and boats.
The primary advantage of Firetide over its competitors is its advanced wireless technology that powers all products – AutoMesh™. The benefits of an AutoMesh powered wireless network include:
• Ability to backhaul multi applications over a single network namely video, voice and data
• Superior performance (high throughput, reliability and low latency) over other wireless technologies
• Superior scalability without any degradation in performance
• Lower cost of ownership and rapid deployment compared to fiber
• Mobility at high speeds while maintaining fiber like performance