Improve Radiospectral Efficiency

EXTENDING WIRELESS RADIO SPECTRAL EFFICIENCY

With billions of smart objects, mobile devices, and applications being added to mobile networks, demand for radio spectral efficiency is skyrocketing.

Because the Internet servers are unaware of the mobile device`s radio state, many non-real-time control messages create an unnecessary radio state change.

Flash Networks specializes in Radio spectral efficiency from the Data Core. We are the data experts.

Spectrum efficiency describes the amount of data transmitted over a given spectrum or bandwidth with minimum transmission errors.

SOLUTION BENEFITS

Get more out of your existing infrastructure with improved radiospectral efficiency

Spectral efficiency refers to the amount of data that can be transmitted over a specific bandwidth. You can use it to compare how efficiently two different systems utilize the same frequency.

Flash Networks` radio spectral efficiency solution - Radio connection optimization reduces the number of radio resource control (RRC) state changes by up to 15 % and reduces paging by 20%. This allows operators, to serve up to 10 % more subscribers with the network resources already in place. With this solution, mobile operators can get the most out of their existing network by means of improved efficiency. They can minimize the need to install new cells and save millions of dollars.

Radio spectral efficiency provides a measure of the bit rate that is transmitted in a given communication channel.

It is the net bit rate (useful information rate excluding error-correction codes) or the throughput divided by the radio frequency bandwidth. Radio spectral efficiency is measured in bits per second per Hertz (bit/s/Hz).

Improved radiospectral efficiency

Reduce the number of radio resource control state changes (RRC) by up to 15 %.

Ability to meet growing demand

Serve up to 15 % more users by optimizing existing resources.

Deferred infrastructure investment

Get more out of your existing network with improved radiospectral efficiency.

Subscriber state estimation

Subscriber traffic is monitored, and once idle on all ports and directions for the radio idle time out, the subscriber is detected as being in an “idle” state.

Transport layer control messages

When the subscriber is in an “idle” state these control messages are delayed and queued, then transmitted in batches when the user returns to the “connect” state.

Repetitive control messages

Messages are identified and piggybacked to prevent the creation of multiple RRC (radio resource control) state changes.