Optimizing 5G Network Architecture
The Next Generation of Telecommunications
With the advent of 5G network expansion in the telecommunications industry, fast, high volume, low latency data streams are finally at our fingertips. 5G network features promise incredible new business opportunities around IoT devices, semi-autonomous vehicles, and augmented reality. This is due to the higher frequency bands of 5G network technology. These bands offer major improvements over data-payload and performance. They also present unique challenges: limited penetration through buildings and less distance between cell towers.
5G core network architecture includes not only the large and costly macrocell towers of previous network generations, but also the massive deployment of small cell towers, including Femto, Pico, and Micro cell towers. Additionally, 5G requires in-building solutions such as distributed antenna systems (DAS). This new architecture is needed to provide complete coverage and support higher frequencies and much more data.
Modern 5G network development is a costly exercise. Knowing where to efficiently and effectively place cellular equipment of all varieties is critical to telecommunication carriers to maximize the performance and return on their significant capital investments.
To ensure optimum performance and minimum interference, carriers rely on complex radio frequency modeling, wireless coverage analysis, geographic data, drive testing, and crowd-sourced mobile phone performance data and many other information sources. These data sources may include hundreds of millions, and even billions of records.
Optimize Capital Planning
With OmniSci, telecommunication network operators, engineers, and data scientists can analyze and visualize complex data records at scale. OmniSci’s accelerated analytics platform leverages the parallel processing power of GPUs, or the untapped power of CPUs, to process and render massive volumes of data at millisecond speeds. Now, these data scientists and analysts can layer their existing network datasets with the modeling and coverage analysis needed to build and optimize 5G networks. They can rapidly run millions of complex calculations aimed at reducing interference between the innumerable towers of 5G networks.
Finally, these data scientists can interact with their datasets over heatmaps, choropleths, and a wide variety of customizable maps for spatio-temporal analysis and real-time insights around network coverage and speed. By leveraging OmniSci to accelerate their data in-memory, mobile carriers can also accelerate machine learning algorithms and predictive analytics to visualize where 5G towers should be placed to meet growing demand.
A Wide Array of Telecommunication Use Cases
With OmniSci, telecommunication carriers can finally visualize the entirety of their datasets with speeds fast enough to spot network problems before their customers experience them. Data scientists can now run advanced SQL queries on network datasets with results delivered in milliseconds, which unlocks new opportunities around: identifying where to place Wi-Fi access points for mobile data offloading, reducing customer churn, improving network reliability, or managing a fleet of telecommunication service vehicles. OmniSci is the accelerated analytics platform transforming data science in the Telecommunications industry.
Find out what else OmniSci is doing in the Telecommunications industry.