Envisioning Private 5G Success with Compact Core

Envisioning Private 5G Success with Compact Core

Envisioning private 5G success with Compact Core

 

8th of July 2020

 

 

 

5G is set to change the way large and small enterprises operate; from universities, ports, smart cities, factories, farms, and buildings, its use cases can meet all business needs. And the key network component that will enable all the unique features of 5G for these enterprises: Compact Core.

The Compact Core is an industrialized solution designed for enterprises that need carrier-grade network connectivity with a limited resource footprint to deliver services to their users. It is especially useful for those who want private network connectivity, whether it is over LTE or 5G. The deployment involves pre-integrated access and core network components for quick setup and less complex operations.

How the Compact Core benefits an enterprise

The Compact Core is a complete pre-integrated and self-contained solution that includes the network core and other networking infrastructure, which seamlessly works with end devices and the radio access network. It does not impact and is not dependent on external systems or organizations.

Swift deployment

In terms of time, Compact Core deployment is highly efficient. Enterprises can launch a private LTE or 5G network along with mobile broadband and voice services in a single project, saving on the time they would otherwise need to deploy these services individually. Since the solution is pre-integrated, no extensive development, customization, or testing is needed to go live.

Cloud-native benefits

The Compact Core is a modernized software solution that leverages the power of cloud, abstracting the underlying complex functionality. It is the smartest choice when upgrading from legacy telco infrastructure to modern, web-scale, 5G architecture. Capable of serving multiple enterprises, it uses SaaS-based multi-tenant architecture. Each tenant has a dedicated configuration, user management, and can self-service through web portals. This setup offers automated, cost-efficient, and hassle-free operations with dynamic provisioning of core capacity based on individual business requirements.

Flexible footprint

Whether the enterprise wants to deploy securely on-premise or on the public cloud, the modern compact core solution has a small resource footprint and flexibility of deployment modes. An in-memory database and ability to scale up and down sets it apart from legacy telco core solutions.

Role of Alepo’s Compact Core in private 5G enablement

Alepo is a software company that offers Subscriber Data Management and policy network functions for the Compact Core. It manages subscriber identities, service subscriptions, and is responsible for authentication, authorizing secure access to network services. It also includes the web-based Enterprise Self-Service (ESS) Portal that enables enterprises to self-manage SIM cards, end-to-end subscription and device lifecycles, and real-time connection and usage monitoring. Alepo’s pre-integrated partners bring the RAN, end devices, and other infrastructure needed to flip the switch and turn on the 5G network.

Ready for real 5G launch

The Compact Core equips an enterprise to launch its private LTE or 5G services. Essential services include enhanced Mobile Broadband (eMBB), voice calls, and video calls. It can also include services such as push-to-talk or walkie-talkie. Further, users can get 5G benefits such as ultra-reliable and low-latency communication (URLLC) for M2M and IoT applications.

Most existing 5G networks are powered by 4G core/EPC and 5G RAN (non-standalone 5G). They are dependent on the 4G core and therefore are not end-to-end 5G networks. Alepo’s new-generation Compact Core, along with the ESS Portal, is 5G-compliant. All elements are pre-integrated to rapidly enable enterprises to set up a new standalone 5G network with zero dependence on the 4G core.

Nitish Muley

Nitish Muley

Senior Engineer

Nitish has spent years building mobile apps for technologies like VR, AR, IoT, and is currently working on Alepo’s newest products. Always up to speed with the latest in the industry, Nitish is a voracious reader – and fervent writer – about all things related to tech and wireless standards. After hours, he wears a traveler’s hat, pursuing his love for photography as he explores different countries.

Subscribe to the Alepo Newsletter

WiFi Calling vs. WiFi Offload

WiFi Calling vs. WiFi Offload

WiFi Calling vs. WiFi Offload

    20th of September 2017        

While on a call the other day, it occurred to me that even highly knowledgeable people in the telecommunications industry have a difficult time deciphering the differences between WiFi calling and WiFi offload. The two types of technology are both constantly talked about, and often in relation with one another, but somewhere along the way, the defining line of what distinguishes them has become blurred. I’ll try to clear up this confusion so that you can make clearer decisions when the time comes for you to consider WiFi strategies. To start, let’s explore WiFi Offload…

The (Abbreviated) Origins of WiFi Offload

Years ago, the industry was hit with a pair of realizations: 1) the current cellular infrastructure wasn’t going to be able to handle rapidly growing data usage and 2) WiFi is a much cheaper and easier network to build than cellular. So, the solution of utilizing WiFi to handle cellular traffic was born.

So, Just What is WiFi Offload?

Getting slightly technical, WiFi Offload uses EAP-SIM/AKA technology, to automatically “offload” cellular users onto a recognized WiFi network as soon as they come in the range of the hotspot. Offload is as straightforward as it sounds. The EAP-SIM/AKA authentication compares the SIM information in a user’s phone to the information in the mobile provider’s home subscriber server (HSS). If the SIM credentials match, it kicks a user off of the cellular network and puts them on the WiFi network, without any action from the end user. The experience is seamless for the user and they shouldn’t even notice that their phone has been offloaded onto WiFi. This is similar to the way that your phone automatically connects when you come within range of your home WiFi. The difference is that the user is automatically offloaded onto hotspots they have never connected with before, and there is no need to enter a password or key.

Why Mobile Network Operators are Interested

Offload helps operators ease network congestion and improve the quality of service their customers receive in high-density areas. Often, operators will put hotspots in crowded public locations, like a stadium or downtown area, where network congestion is high. Operators can also “expand” their network coverage, installing hotspots in areas with poor cellular coverage, instead of installing a microcell. The main benefit here? WiFi is MUCH cheaper.

If those benefits weren’t enough, operators can form partnerships with other businesses/ISPs/MNOs in the area, or worldwide, to let their subscribers automatically offload onto the business/ISP/MNO WiFi networks as well. The advantage here is that operators can expand their network without making any investment in hardware. Plus, they can gain revenue by letting other operators’ customers roam onto their WiFi network.

Depending on their business model, operators utilizing WiFi offload can either continue to charge customers at the same rate they would for cellular data or provide WiFi access free of charge. Regardless of charging models, operators and customers gain significantly from utilizing WiFi Offload.

Operator Gains:

  1. Free up space on the cellular network, especially useful in high density/congested areas
  2. Provide a higher-quality of service (QoS) to all users
  3. Form partnerships to expand their network coverage without investing a dime in hardware

Customer Benefits:

  1. Save cellular data if their operator doesn’t charge them for the WiFi use
  2. A boost in QoS makes streaming movies and video chatting much better, and customers won’t experience the frustration of not being able to send a Snapchat or post to Instagram when they’re at the biggest football match of the season.
  3. Say goodbye to dead zones! Customers will love the increase in coverage locally and/or worldwide.

So, What’s WiFi Calling?

WiFi calling is related to offload, but not quite the same. So, now you have a network of WiFi hotspots around the city, and you are offloading users onto it. Great! Now the issue is, how will a user choose to make a call?

The Rise of OTT Apps

Traditional mobile phones could only make calls on voice networks (2G and 3G). To fill this void, OTT apps like Skype and Whatsapp hit the market with high-quality calling and messaging enabled over any data connection, LTE or WiFi. Operators then started to see a huge decline in the revenue they used to get from voice calling and text messaging. Users realized that they could save their minutes and messages by simply calling and messaging with their OTT apps. Operators were forced to focus on data as their key service offering. Finally, voice over LTE (VoLTE) was introduced and calls could be made over a data connection. But, calls still couldn’t be made on WiFi. But it was only a matter of time. Today, all new phones hitting the market are WiFi calling enabled too, meaning a user can make a call on WiFi with their phone, without using an OTT app. This is often referred to as VoWiFi. But, native VoWiFi calls (not through an OTT app) will not work on a WiFi calling enabled smartphone unless the operator makes the required changes in their network. This is what a WiFi calling solution provides. So, until the operator changes out their network, their users will have to use an OTT app to make VoWiFi calls.

The Fall of OTT Apps

The time has finally come for operators to take back what they have lost from OTT apps. When an operator has a network that supports both VoLTE and VoWiFi, they can provide a seamless experience to their users. So, when a user is on a WiFi call and they move out of range of the WiFi hotspot, the call is seamlessly connected to the LTE signal and the call can continue uninterrupted, and vice versa if they come back into range of a hotspot. Because all new handsets are WiFi calling enabled, this functionality is going to become progressively important as calls are increasingly made on a WiFi or VoLTE connection, as opposed to the traditional voice networks. The fact that operators are already decommissioning their 2G and 3G networks is an indication that all calls in the future will be on LTE data, which is going to increase the need for seamless VoLTE to VoWiFi calling.

Why Mobile Network Operators are Interested

The key benefits of WiFi calling for operators:

  1. Combat OTT apps and gain back lost revenue
  2. Provide a better, controlled QoS compared to OTT apps
  3. Provide benefits to subscribers. Happy subscribers = loyal subscribers!

The key benefits of WiFi calling for users:

  1. Simplicity! No need for an app. Just call straight from your phone’s native dialer.
  2. Calling over WiFi doesn’t use up talk time minutes
  3. WiFi calls don’t waste LTE data!
  4. WiFi often has a much higher-quality and a clearer sound

Conclusion

So, while WiFi Offload and WiFi calling are distinct, they both provide benefits to operators willing to shift their network to support calling over WiFi. While offload is designed as a dynamic solution to congestion and limited coverage, WiFi calling provides an opportunity for customers to originate calls over WiFi, not just get offloaded when the cellular network falls short. This gives customers and operators the opportunity to preserve cellular network integrity, and offer higher-quality calls at a lower price. To combat OTT apps and increase customer satisfaction, WiFi Offload and calling present the perfect opportunity to increase revenue and quality of service in a highly competitive market with plateauing or falling profits.

Ryan Gray

Ryan Gray

Partner and Sales Director

Ryan is intrigued by where telecommunications will go in the next few years. As a Partner and Sales Director, she’s been exposed to many aspects of the industry in different technologies and markets. When she’s not speaking in telecom acronyms, you can find her traveling the world, skiing the Colorado Rockies or doing DIY projects on her home.

Subscribe to the Alepo Newsletter