At Allianz, one of the largest insurers worldwide, the subsequent settlement of insurance premiums is a recurring process that is required to be accurate and efficient. These repetitive settlement processes offer many opportunities for optimization with a future-proof application, using automation to streamline repeating manual tasks.
The settlement of insurance premiums was previously carried out manually by Allianz employees, which was a time-consuming and expensive process. Thanks to automatic actions, the manual labor of many man hours has been reduced to just one hour per day. This time saving allows Allianz employees to focus on the tasks that really matter.
The Silicon Low Code team first carried out a thorough analysis of the work, mapping all steps in the process. This analysis showed that the majority of policies subject to subsequent settlement are suitable for automatic processing. With these insights from the process analysis, the choice for the low-code application was easily made.
Radiate the professionalism that suits your organization. Silicon applications are focused on UX, ease of use and appearance. Ideal for presenting data in modern web interfaces that are accessible to everyone.
Ensure yourself of happy IT employees and satisfied end users in every department. The intuitive user interface makes it easy to use every Silicon application.
With Silicon you get the benefits of support from an experienced company with various experts. Our software is proven in practice; successfully applied in hundreds of projects.
Use reliable and secure software solutions. Silicon software has passed various pen tests and has been proven to work in a wide range of customer cases. Thanks to our standard approach, errors and unsafe code are proactively prevented.
To make the application future-proof, it is designed to be flexible. No new implementation or developer is required to make adjustments to the existing calculations being used.
Additionaly, Allianz employees can add new products to the new low-code application themselves.