Runtime Verification

Scott Smolka is a professor of computer science at Stony Brook University. His research interests include concurrency theory, model checking, and systems biology, and he has over 100 refereed publications in these areas. He is on the editorial board of Software Tools for Technology, Formal Methods in System Design, and Transactions on Computational Logic. He is also co-founder and president of Reactive Systems, Inc., which makes the Reactis tool suite for the automated testing and validation of embedded control software.

First International Competition on Software for Runtime Verification.- Monitoring and Trace Slicing.- Multiple Ways to Fail: Generalizing a Monitor's Verdict for the Classification of Execution Traces.- Scalable Offline Monitoring.- Monitoring Systems with Extended Live Sequence Charts.- Foundations of Boolean Stream Runtime Verification.- Portable Runtime Verification with Smartphones and Optical Codes.- Robust Consistency Checking for Modern Filesystems.- Runtime Verification of Distributed and Concurrent Systems.- On the Number of Opinions Needed for Fault-Tolerant Run-Time Monitoring in Distributed Systems.- Supporting the Specification and Runtime Validation of Asynchronous Calling Patterns in Reactive Systems.- Speculative Program Parallelization with Scalable and Decentralized Runtime Verification.- Organising LTL Monitors over Distributed Systems with a Global Clock.- Dynamic Verification for Hybrid Concurrent Programming Models.- Abstraction and Mining of Traces to Explain Concurrency Bugs.- Runtime Verification of Real-Time and Embedded Systems.- Online Monitoring of Metric Temporal Logic.- On Real-Time Monitoring with Imprecise Timestamps.- ModelPlex: Verified Runtime Validation of Verified Cyber-Physical System Models.- Runtime Observer Pairs and Bayesian Network Reasoners On-board FPGAs: Flight-Certifiable System Health Management for Embedded Systems.- On-Line Monitoring for Temporal Logic Robustness.- ROSRV: Runtime Verification for Robots.- Testing and Bug Finding.- Symbolic Execution Debugger (SED).- Checking Data Structure Properties Orders of Magnitude Faster.- Dynamic Test Generation with Static Fields and Initializers.- RV-Monitor: Efficient Parametric Runtime Verification with Simultaneous Properties.- Inference and Learning.- Improving Dynamic Inference with Variable Dependence Graph.- The TTT Algorithm: A Redundancy-Free Approach to Active Automata Learning.- Lazy Symbolic Execution for Enhanced Learning.- Faster Statistical ModelChecking by Means of Abstraction and Learning.