2019 IFIP Networking Conference (IFIP Networking) | 2019
Balancing performance characteristics of hierarchical heavy hitters
Abstract
Hierarchical Heavy Hitters (HHHs) identify frequent items in streaming data. Finding these items has several applications to network monitoring, particularly in distributed denial-of-service (DDoS) mitigation and anomaly detection. Several algorithms are available to compute HHHs, each with different performance characteristics in terms of resource consumption, speed and accuracy. These characteristics determine which HHH algorithm may be best suited for a given network situation (e.g., because it offers sufficient accuracy for finegrained traffic analysis). However, since the situation can evolve over time, the best choice for an HHH algorithm may also change. Simply replacing a chosen HHH algorithm has the drawback of losing all previously acquired monitoring information. This paper introduces the novel concept of HHH-transitions that transfer monitoring information between HHH variants and consequently allows it to adopt new performance characteristics by switching algorithms at runtime. For example, this enables a DDoS mitigation system to adapt to evolving network situations and therefore increase overall Return-on-Mitigation. We present explicit transition rules for common one-dimensional HHH variants and evaluate our approach based on real traffic from MAWILab. Results indicate that trade-offs between performance characteristics can be realized at runtime and that it is possible to increase overall post-transition accuracy by retaining monitoring information.