The 15th International Conference on Availability, Reliability and Security (“ARES – The International Dependability Conference”) will bring together researchers and practitioners in the area of dependability. ARES will highlight the various aspects of dependability – with special focus on the crucial linkage between availability, reliability and security. ARES aims at a full and detailed discussion of the research issues of dependability as an integrative concept that covers amongst others availability, safety, confidentiality, integrity, maintainability and security in the different fields of applications. ARES will emphasize the interplay between foundations and practical issues of dependability in emerging areas such as e-government, m-government, location-based applications, ubiquitous computing, autonomous computing, chances of grid computing etc. ARES is devoted to the critical examination and research challenges of the various aspects of Dependable Computing and the definition of a future road map.
Topics: Authorization, Authentication, and Access Control; Availability, Confidentiality, Integrity; Botnets and Botnet Monitoring; Dependability, and Resilience; Designing Security Requirements; Digital Forensics; Human Factors in Security and Privacy; Identity Management; Incident Response and Prevention; Information Hiding and Steganography; Intrusion Detection and Fraud Detection; Legal Issues related to Security and Privacy; Machine Learning for Security and Security for Machine Learning; Mobile Security; Network Security; Privacy-Enhancing Technologies (PETs); Process based Security Models and Methods; Risk Analysis; Security and Privacy for Ubiquitous Systems, Distributed Systems / Distributed Databases; Security and Privacy for E-Health, E-Payments, E-Voting, E-Commerce; Security and Privacy for Sensor Networks, Wireless/Mobile Devices and Applications; Security and Privacy for Critical Infrastructures, Smart Grids, Internet of Things, RFID; Security and Privacy Awareness; Security and Usability; Side Channels; Software Security; Threats and Attack Modelling; Trusted Computing; Trust Models and Trust Management; Wireless Security; Web Security