Dali Wireless RF ROUTER® platform is the only platform on the market today that can allocate coverage and capacity dynamically as needed. This revolutionary platform makes it suitable for many situations that require dynamic capacity allocation, flexible coverage, and RAN Virtualization. It can also serve as an end-to-end digital Distributed Antenna System (DAS).
Dali Wireless RF ROUTER platform can serve as an end-to-end all digital Distributed Antenna System (DAS). Because the system is all-digital, the RF noise floor is unaffected by fiber length. This allows a greater reach without signal degradation and better user experience.Learn More
Dynamic Capacity Allocation
Re-sectorization with traditional systems is a time-consuming and labor intensive task. With Dali RF ROUTER platform, re-sectorization or dynamic capacity allocation is now fully configurable and controllable by software. Dali RF ROUTER platform allows true “any-to-any” capacity allocation between signal sources and antennas as the destination points. With Dali RF ROUTER platform, capacity can be allocated precisely wherever and whenever it’s needed.Learn More
As mobile connectivity becomes ubiquitous, coverage is also needed in rural areas. However, rural areas may have low density of users and business economics do not justify a separate deployment for rural areas. With Dali’s RF ROUTER platform, operators can now install a solution in one location and route the capacity to the area where coverage is needed. Operators will have the flexibility to allocate resources dynamically to best utilize the capacity and provide a truly future-proof solution.Learn More
Legacy RAN infrastructures provide coverage and capacity with a fixed allocation of baseband and radio resources. This static allocation of resources means that systematic over-provisioning is needed in order to meet peak demands at any time and location. RAN Virtualization through Dali’s RF ROUTER platform virtualizes entire cells (including the baseband and the radio resources), allowing for efficient use of the most precious resources: spectrum.Learn More