Besides 4G, the impact of 5G is not limited to the telecom industry but to an abundance of industry verticals. In recent years devices like cars, factories, homes, robots, and medical appliances will be able to connect future without a doubt. So, new let us see how RantCell can overcome drawbacks of traditional Smart 5g tester, 5G test equipment, 5g network tester tools and Smart RF drive test tools & equipment, RF tester software app & network LTE 4g tester

Traditionally with 3G and 4G, the main focus was to test the new features, throughput requirements, radio conditions, handovers, etc. Testing was mainly done with test tools that simulate/emulate from a few UE to a few thousands of UE’s.

Due to extensive use cases, mm wavelength support, high throughput, ultra-low latency, etc, testing of 5G will be complex.

5G’s exceptional complexity needs a DevOps-based approach with continuous testing, integration, and deployment over the lifecycle. Static test techniques as had been used in the past will no longer work in this fast-paced DevOps time. Micro services-based test libraries and APIs would be conveyed permitting faster and more flexible integration with modern discharges and items from distinctive sellers. Continuous integration will be dynamic in nature with test suites and cases to be upgraded regularly.

5G’s complexity can be a blessing in disguise as it presents an opportunity for Customer service Providers and vendors to expand their traditional testing methodologies and planning certainty with new testing and guaranteed techniques. Faster and more efficient testing methods will be the key for Customer Service Providers to away from the competition. With 5G’s service-based architecture and hundreds of use cases, validating a 5G network for a good user experience becomes really tough. 

As the request for 5G systems is quickening, CI/CD system gets to be basic for continuous software configuration testing and validation of systems. Leveraging CI/CD automation in 5G will let telcos manage tasks indeed higher complex ones with the same sum of individuals enabled with different capabilities resulting in less operational use, improved software quality, and expedited deployment. Telcos got to adjust themselves to the agile method of working leaving behind their traditional methods to enable quick transformation and reap business value.

Automate repetitive regression test cases for RAN, core, devices, small cells,4G/5G private networks, and reallocate skilled resources on complex tests.

Overtaking the test strategy is the path to assure fast time to market products thereby leading the 5G  race for the Customers service Providers and users.

Analytics-driven automation could be a prerequisite for 5G test environments and assurance. Network cutting is one vital use case of 5G. Slices will be generally made, used, and deleted. Cuts can be made by agreeing to the user’s requirements. Holding such dynamic behavior is conceivable as it were through computerization. Since changes will happen speedier than people can comprehend hence analytics and machine learning-based automation is a key to 5G system testing and organizations. Automation ought to be such that the test frameworks proactively sense when a System Under Test (SUT) is aiming to go down or have major alerts or degradation of service and naturally suggest corrective actions.

Customers used to perform feature, stability, capacity, RF-based test, etc. before a product was delivered to Customer Service Providers who then take drive tests, scenario tests, and radio antenna calibration testing before the products (e.g., RNC, eNodeb) were living in the network.

Based on issues found during real network testing, bugs were fixed in the next release of the product or if it’s too critical then in a few days.

Use a case-driven test architecture approach is one way we can simplify the test strategy.