An Overview of Structural Coverage Metrics for Testing Neural Networks
This work addresses the need for reliable testing methods in safety-critical domains by summarizing existing metrics and providing a practical tool, but it is incremental as it reviews and integrates prior approaches.
The paper provides an overview of structural coverage metrics for testing deep neural networks, evaluating them on models like LeNet and ResNet20, and introduces a tool called DNNCov to measure and report these metrics.
Deep neural network (DNN) models, including those used in safety-critical domains, need to be thoroughly tested to ensure that they can reliably perform well in different scenarios. In this article, we provide an overview of structural coverage metrics for testing DNN models, including neuron coverage (NC), k-multisection neuron coverage (kMNC), top-k neuron coverage (TKNC), neuron boundary coverage (NBC), strong neuron activation coverage (SNAC) and modified condition/decision coverage (MC/DC). We evaluate the metrics on realistic DNN models used for perception tasks (including LeNet-1, LeNet-4, LeNet-5, and ResNet20) as well as on networks used in autonomy (TaxiNet). We also provide a tool, DNNCov, which can measure the testing coverage for all these metrics. DNNCov outputs an informative coverage report to enable researchers and practitioners to assess the adequacy of DNN testing, compare different coverage measures, and to more conveniently inspect the model's internals during testing.