Pub Crawl - October 2023

Selections by dgoff

​Pub Crawl summarizes, by hard problems, sets of publications that have been peer-reviewed and presented at SoS conferences or referenced in current work. The topics are chosen for their usefulness for current researchers. Select the topic name to view the corresponding list of publications. Submissions and suggestions are welcome.

Information Theoretic Security 2022            (all)

A cryptosystem is said to be information-theoretically secure if its security derives purely from information theory and cannot be broken even when the adversary has unlimited computing power. For example, the one-time pad is an information-theoretically secure cryptosystem proven by Claude Shannon, inventor of information theory, to be secure. Information-theoretically secure cryptosystems are often used for the most sensitive communications such as diplomatic cables and high-level military communications, because of the great efforts enemy governments expend toward breaking them. Because of this importance, methods, theory and practice in information theory security also remains high. It is fundamentally related to the concept of Science of Security and all the hard problems.

MANET Security 2022        (all)

Security is an important research issue for mobile ad hoc networks (MANETs). For the Science of Security community, this work relates to the hard problems of resilience, metrics, and compositionality.

Measurement and Metrics Testing 2022    (all)

Measurement and metrics are hard problems in the Science of Security. The research cited here looks at methods and techniques for testing the validity of measurement and metrics techniques.

Metadata Discovery Problem 2022    (all)

Metadata is often described as “data about data.” Usage varies from virtualization to data warehousing to statistics. Because of its volume and complexity, metadata has the potential to tax security procedures and processes. For the Science of Security community, work in this area is relevant to the problems of scalability, resilience, and compositionality.

Microelectronics Security 2022        (all)

Microelectronics is at the center of the IT world. Their security—provenance, integrity of their manufacture, and capacity for providing embedded security—is both an opportunity and a problem for cybersecurity research. For the Science of Security community, microelectronic security is a constituent component of resiliency, composability, and predictive metrics.

Middleware Security 2022      (all)

Middleware facilitates distributed processing and is of significant interest to the security world with the development of cloud and mobile applications. It is important to the Science of Security community relative to resilience, policy-based governance, and composability.

Moving Target Defense 2022        (all)

Moving Target Defense (MTD) research focuses on the presentation of a dynamic attack surface to an adversary, increasing the work factor necessary to successfully attack and exploit a cyber target. For the Science of Security community, MTD is related to scalability, resilience and predictive metrics.

Multicore Computing Security 2022        (all)

As high-performance computing has evolved into larger and faster computing solutions, new approaches to security have been identified. The articles cited here focus on security issues related to multicore environments. Multicore computing relates to the Science of Security hard topics of scalability, resilience, and metrics.

Multifactor Authentication 2022        (all)

Multifactor authentication is of general interest within cryptography. For the Science of Security community, it relates to human factors, resilience, and metrics.

Multiple Fault Diagnosis 2022        (all)

According to Shakeri, “the computational complexity of solving the optimal multiple-fault isolation problem is super exponential.” Most processes and procedures assume that there will be only one fault at any given time. Many algorithms are designed to do sequential diagnostics. With the growth of cloud computing and multicore processors and the ubiquity of sensors, the problem of multiple fault diagnosis has grown even larger. For the Science if Security community, multiple fault diagnosis is relevant to cyber physical systems, resiliency, metrics, and human factors.

Named Data Network Security 2022        (all)

Named Data Networking (NDN) is one of five research projects funded by the U.S. National Science Foundation under its Future Internet Architecture Program. Its goal is to make it easier to develop, manage, secure, and use networks and the Internet. For the Science of Security community, these efforts are relevant to the hard problems of resilience, human behavior, and scalability.

Natural Language Processing 2022        (all)

Natural language processing research focuses on developing efficient algorithms to process texts and to make their information accessible to computer applications. Texts can contain information with different complexities ranging from simple word or token-based representations, to rich hierarchical syntactic representations, to high-level logical representations across document collections. For the Science of Security community, this work is relevant to scalability, resilience, and human behavior.

Nearest Neighbor Search 2022    (all)

The search for secure privacy protecting nearest neighbor searches is an issue in cybersecurity related to the Science of Security community hard problems of measurement and predictive metrics.

Network Coding 2022        (all)

Network coding methods are used to improve a network's throughput, efficiency and scalability. It can also be a method for dealing with attacks and eavesdropping. For the Science of Security community, research into network coding is relevant to the general network problems associated with the hard problems of resiliency, composability, and predictive metrics, as well as cyber physical systems.

Network Intrusion Detection 2022        (all)

Network intrusion detection is one of the chronic problems in cybersecurity. The growth of cellular and ad hoc networks has increased the threat and risks and research into this area of concern reflects its importance. For the Science of Security community, NID is relevant to metrics, composability, and resilience.

Network on Chip Security 2022        (all)

Network on chip (NoC or NOC) is a communication subsystem on an integrated circuit. NOC technology applies networking theory and methods to on-chip communication and brings improvements over conventional interconnections. From a Science of Security perspective, NOC security is relevant to scalability, resilience, and metrics.

Articles listed on these pages have been found on publicly available internet pages and are cited with links to those pages. Some of the information included herein has been reprinted with permission from the authors or data repositories. Direct any requests for removal via email of the links or modifications to specific citations. Please include the URL of the specific citation in your correspondence.

Pub Crawl contains bibliographical citations, abstracts if available, links on specific topics, and research problems of interest to the Science of Security community.

How recent are these publications?

These bibliographies include recent scholarly research on topics that have been presented or published within the stated year. Some represent updates from work presented in previous years; others are new topics.

How are topics selected?

The specific topics are selected from materials that have been peer-reviewed and presented at SoS conferences or referenced in current work. The topics are also chosen for their usefulness for current researchers.

How can I submit or suggest a publication?

Researchers willing to share their work are welcome to submit a citation, abstract, and URL for consideration and posting, and to identify additional topics of interest to the community. Researchers are also encouraged to share this request with their colleagues and collaborators.

What are the hard problems?

The Principal Investigators (PIs) of the Science of Security Lablets in collaboration with NSA Research, developed the 5 Hard Problems as a measure to establish the beginnings of a common language and gauge progress. These 5 were selected for their level of technical challenge, their potential operational significance,  and  their  likelihood  of  benefiting  from emphasis  on scientific  research  methods and improved measurement capabilities. The five are not intended to be all inclusive of everything that needs to be done in cybersecurity but rather five specific areas that need scientific progress. The five problems are: Scalability and Composability; Policy-Governed Secure Collaboration; Security Metrics Driven Evaluation, Design, Development, and Deployment; Resilient Architectures; and Understanding and Accounting for Human Behavior. 

 Scalability and Composability: Develop methods to enable the construction of secure systems with known security properties from components with known security properties, without a requirement to fully re-analyze the constituent components.

   Policy-Governed Secure Collaboration: Develop methods to express and enforce normative requirements and policies for handling data with differing usage needs and among users in different authority domains.

   Security Metrics Driven Evaluation, Design, Development, and Deployment: Develop security metrics and models capable of predicting whether or confirming that a given cyber system preserves a given set of security properties (deterministically or probabilistically), in a given context.

   Resilient Architectures: Develop means to design and analyze system architectures that deliver required service in the face of compromised components.

   Understanding and Accounting for Human Behavior: Develop models of human behavior (of both users and adversaries) that enable the design, modeling, and analysis of systems with specified security properties.