Nathan Allen – författare
Visar alla böcker från författaren Nathan Allen. Handla med fri frakt och snabb leverans.
10 produkter
10 produkter
Häftad, Engelska, 2021
180 kr
Skickas inom 5-8 vardagar
Inbunden, Engelska, 2022
398 kr
Skickas inom 5-8 vardagar
Häftad, Engelska, 2022
207 kr
Skickas inom 5-8 vardagar
Inbunden, Engelska, 2023
357 kr
Skickas inom 5-8 vardagar
Häftad, Engelska, 2025
180 kr
Skickas inom 5-8 vardagar
Inbunden, Engelska, 2015
415 kr
Skickas inom 3-6 vardagar
Häftad, Engelska, 2017
470 kr
Skickas inom 5-8 vardagar
Häftad, Engelska, 2021
208 kr
Skickas inom 5-8 vardagar
Inbunden, Engelska, 2025
938 kr
Skickas inom 5-8 vardagar
Biomedical systems—such as pacemakers and automated insulin pumps—are Cyber-Physical Systems (CPSs) that must operate safely and reliably at all times. This book introduces a systematic design methodology for Medical CPSs (MCPSs) using the synchronous approach, which ensures deterministic and reactive execution—key to safety-critical performance.Through a detailed case study of a pacemaker and a modeled human heart, this book demonstrates how the synchronous approach enables accurate modeling, verification, and automated code generation. Using the SCCharts language, readers learn how to model the cardiac conduction system and a DDD-mode pacemaker, derive embedded implementations, and validate them via a synchronous heart simulator.The book then covers formal verification using the UPPAAL model checker, followed by run-time verification methods that form the foundation for preventing adversarial attacks. It concludes with references to open-source tools and future research directions relevant to the CPS community.This is a clear, practical guide to designing safe and verifiable medical cyber-physical systems.
Häftad, Engelska, 2025
719 kr
Skickas inom 5-8 vardagar
Biomedical systems—such as pacemakers and automated insulin pumps—are Cyber-Physical Systems (CPSs) that must operate safely and reliably at all times. This book introduces a systematic design methodology for Medical CPSs (MCPSs) using the synchronous approach, which ensures deterministic and reactive execution—key to safety-critical performance.Through a detailed case study of a pacemaker and a modeled human heart, this book demonstrates how the synchronous approach enables accurate modeling, verification, and automated code generation. Using the SCCharts language, readers learn how to model the cardiac conduction system and a DDD-mode pacemaker, derive embedded implementations, and validate them via a synchronous heart simulator.The book then covers formal verification using the UPPAAL model checker, followed by run-time verification methods that form the foundation for preventing adversarial attacks. It concludes with references to open-source tools and future research directions relevant to the CPS community.This is a clear, practical guide to designing safe and verifiable medical cyber-physical systems.