Markov Decision Processes with Applications in Wireless Sensor Networks: A Survey

Wireless sensor networks (WSNs) consist of autonomous and resource-limited devices. The devices cooperate to monitor one or more physical phenomena within an area of interest. WSNs operate as stochastic systems because of randomness in the monitored environments. For long service time and low maintenance cost, WSNs require adaptive and robust methods to address data exchange, topology formulation, resource and power optimization, sensing coverage and object detection, and security challenges. In these problems, sensor nodes are to make optimized decisions from a set of accessible strategies to achieve design goals. This survey reviews numerous applications of the Markov decision process (MDP) framework, a powerful decision-making tool to develop adaptive algorithms and protocols for WSNs. Furthermore, various solution methods are discussed and compared to serve as a guide for using MDPs in WSNs

DECEPTION BASED TECHNIQUES AGAINST RANSOMWARES: A SYSTEMATIC REVIEW

Ransomware is the most prevalent emerging business risk nowadays. It seriously affects business continuity and operations. According to Deloitte Cyber Security Landscape 2022, up to 4000 ransomware attacks occur daily, while the average number of days an organization takes to identify a breach is 191. Sophisticated cyber-attacks such as ransomware typically must go through multiple consecutive phases (initial foothold, network propagation, and action on objectives) before accomplishing its final objective. This study analyzed decoy-based solutions as an approach (detection, prevention, or mitigation) to overcome ransomware. A systematic literature review was conducted, in which the result has shown that deception-based techniques have given effective and significant performance against ransomware with minimal resources. It is also identified that contrary to general belief, deception techniques mainly involved in passive approaches (i.e., prevention, detection) possess other active capabilities such as ransomware traceback and obstruction (thwarting), file decryption, and decryption key recovery. Based on the literature review, several evaluation methods are also analyzed to measure the effectiveness of these deception-based techniques during the implementation process

A Review of Performance, Energy and Privacy of Intrusion Detection Systems for IoT

Internet of Things (IoT) forms the foundation of next generation infrastructures, enabling development of future cities that are inherently sustainable. Intrusion detection for such paradigms is a non-trivial challenge which has attracted further significance due to extraordinary growth in the volume and variety of security threats for such systems. However, due to unique characteristics of such systems i.e., battery power, bandwidth and processor overheads and network dynamics, intrusion detection for IoT is a challenge, which requires taking into account the trade-off between detection accuracy and performance overheads. In~this context, we are focused at highlighting this trade-off and its significance to achieve effective intrusion detection for IoT. Specifically, this paper presents a comprehensive study of existing intrusion detection systems for IoT systems in three aspects: computational overhead, energy consumption and privacy implications. Through extensive study of existing intrusion detection approaches, we have identified open challenges to achieve effective intrusion detection for IoT infrastructures. These include resource constraints, attack complexity, experimentation rigor and unavailability of relevant security data. Further, this paper is envisaged to highlight contributions and limitations of the state-of-the-art within intrusion detection for IoT, and~aid the research community to advance it by identifying significant research directions

DEFINING, MEASURING, AND ANALYZING DEFENSIBILITY IN THE DEFENSIVE CYBER OPERATIONS CONTEXT

When talking about cyber systems, both researchers and decision makers have used the term "defensibility" widely, but there is no universal definition for it and no method to observe and measure it. This study examines how defensibility can be defined in a defensive cyber operations context, what critical factors constitute it, and how those factors could be measured. This is done by first examining doctrine and research to create a framework of meaning for defensibility. Second, the study proposes seven fundamental capabilities that a defender needs to be able to perform in defensive cyber operations and a set of system attributes that affect those capabilities. Finally, a set of measures for those attributes is proposed to allow defensibility to be observed and measured. The results of this study are a definition of defensibility for the defensive cyber operations context, a list of system attributes that constitute its defensibility, and a set of associated measurements for these attributes. Using these, it is possible to analyze the defensibility of a system to indicate what restrictions a defender might have when conducting operations in the system and the areas where the system needs to improve. This work is the first step in building defensibility into a useful tool that highlights the needs of a defensive actor who conducts dynamic defensive operations in a system, versus the needs of an actor who implements static measures to increase cyber security.Löjtnant, Swedish NavyApproved for public release. Distribution is unlimited

Deployment of Next Generation Intrusion Detection Systems against Internal Threats in a Medium-sized Enterprise

In this increasingly digital age, companies struggle to understand the origin of cyberattacks. Malicious actions can come from both the outside and the inside the business, so it is necessary to adopt tools that can reduce cyber risks by identifying the anomalies when the first symptoms appear. This thesis deals with the topic of internal attacks and explains how to use innovative Intrusion Detection Systems to protect the IT infrastructure of Medium-sized Enterprises. These types of technologies try to solve issues like poor visibility of network traffic, long response times to security breaches, and the use of inefficient access control mechanisms. In this research, multiple types of internal threats, the different categories of Intrusion Detection Systems and an in-depth analysis of the state-of-the-art IDSs developed during the last few years have been detailed. After that, there will be a brief explanation of the effectiveness of IDSs in both testing and production environments. All the reported phases took place within a company network, starting from the positioning of the IDS, moving on to its configuration and ending with the production environment. There is an analysis of the company expectations, together with an explanation of the different IDSs characteristics. This research shows data about potential attacks, mitigated and resolved threats, as well as network changes made thanks to the information gathered while using a cutting edge IDS. Moreover, the characteristics that a medium-sized company must have in order to be adequately protected by a new generation IDS have been generalized. In the same way, the functionalities that an IDS must possess in order to achieve the set objectives were reported. IDSs are incredibly adaptable to different environments, such as companies of different sectors and sizes, and can be tuned to achieve better results. At the end of this document are reported the potential future developments that should be addressed to improve IDS technologies further