Veeroute takes advantage of best practices in artificial intelligence. It uses boosting algorithms for machine learning to select the configurations that best match the characteristics of your input dataset.

The Veeroute optimization engine uses configurations - sets of algorithms and routing models it applies in a specific sequence - to solve combinatorial problems such as last mile delivery optimization. The input dataset which describes the system will prompt the optimization engine to use one of several possible configurations to perform the calculations. This means Veeroute must quickly analyze the input dataset and identify the best configuration.

Veeroute optimization AI Uses Boosting Algorithms And Trains On Input Datasets

Veeroute does this by using a boosting algorithm with multiple weak learners. Represented in the picture by decision trees, a weak learner is a simple model/decision tree that performs slightly better than a random choice. A model uses the inputs from these weak learners to decide which configurations the optimization engine should use to solve the problem. Each weak learner’s input may have a different weight in the final decision that represents the importance of it's input.

Learning process

The Veeroute Cloud-Based Optimization Engine Chooses The Best Solution To Your Combinatorial Business Problem From Among The Configurations Proposed By Artificial Intelligence

The best configurations
Configurations

The configurations suggested by AI are applied to solve the defined combinatorial problem. To avoid misclassification, we train the weak learners on the set of datasets which we continually adjust and extend based on the datasets we receive from our customers.