Focuses on designing formally correct intermittent systems in batteryless systems powered intermittently, addressing challenges and strategies for ensuring correctness.
Explores dependable architectures, error detection, fault-tolerant structures, and software reliability through examples like the Patriot Missile failure and ABB dual controller.
Explores Finite State Machines (FSMs) in digital system design, covering Mealy and Moore FSMs, state diagrams, VHDL implementation, and state encoding.
Explores kernel integrity, system security, and real-time system verification, emphasizing the importance of proving critical properties for building secure and timely systems.
Introduces formal verification and its advantages over traditional testing methods, discussing automated theorem proving and compiling correctness statements into verification conditions.
Covers the implementation and verification of encoder and decoder for prefix-free codes, including classes and types, lemmas on trees, and the main theorem.
Covers the Hedonic Pricing Method for assessing implicit prices of goods and introduces the Contingent Valuation Method for estimating environmental goods' value.
Explores time-determinator model checking, U-Pool scheduling, worst-case execution time analysis, and statistical model checking for cyber-physical systems.
