Biblio

Identifying factors behind countries’ weakness to cyber-attacks is an important step towards addressing these weaknesses at the root level.  For example, identifying factors why some countries become cyber- crime safe heavens can inform policy actions about how to reduce the attractiveness of these countries to cyber-criminals.  Currently, however, identifying these factors is mostly based on expert opinions and speculations.

In this work, we perform an empirical study to statistically test the validity of these opinions and specu- lations.  In our analysis, we use Symantec’s World Intelligence Network Environment (WINE) Intrusion Prevention System (IPS) telemetry data which contain attack reports from more than 10 million customer computers worldwide.  We use regression analysis to test for the relevance of multiple factors including monetary and computing resources, cyber-security research and institutions, and corruption.

Our analysis confirms some hypotheses and disproves others. We find that many countries in Eastern Europe extensively host attacking computers because of a combination of good computing infrastructure and high corruption rate.  We also find that web attacks and fake applications are most prevalent in rich countries because attacks on these countries are more lucrative. Finally, we find that computers in Africa launch the lowest rates of cyber-attacks. This is surprising given the bad cyber reputation of some African countries such as Nigeria. Our research has many policy implications.

The number of trojans, worms, and viruses that computers encounter varies greatly across countries. Empirically identifying factors behind such variation can provide a scientific empirical basis to policy actions to reduce malware encounters in the most affected countries. However, our understanding of these factors is currently mainly based on expert opinions, not empirical evidence.

In this paper, we empirically test alternative hypotheses about factors behind international variation in the number of trojan, worm, and virus encounters. We use the Symantec Anti-Virus (AV) telemetry data collected from more than 10 million Symantec customer computers worldwide that we accessed through the Symantec Worldwide Intelligence Environment (WINE) platform. We use regression analysis to test for the effect of computing and monetary resources, web browsing behavior, computer piracy, cyber security expertise, and international relations on international variation in malware encounters.

We find that trojans, worms, and viruses are most prevalent in Sub-Saharan African countries. Many Asian countries also encounter substantial quantities of malware. Our regression analysis reveals that the main factor that explains high malware exposure of these countries is a widespread computer piracy especially when combined with poverty. Our regression analysis also reveals that, surprisingly, web browsing behavior, cyber security expertise, and international relations have no significant effect.

In today’s inter-connected world, threats from anywhere in the world can have serious global repercussions. In particular, two types of threats have a global impact: 1) cyber crime and 2) cyber and biological weapons. If a country’s environment is conducive to cyber criminal activities, cyber criminals will use that country as a basis to attack end-users around the world. Cyber weapons and biological weapons can now allow a small actor to inflict major damage on a major military power. If cyber and biological weapons are used in combination, the damage can be amplified significantly. Given that the cyber and biological threat is global, it is important to identify countries that pose the greatest threat and design action plans to reduce the threat from these countries. However, prior work on cyber crime lacks empirical substantiation for reasons why some countries’ environments are conducive to cyber crime. Prior work on cyber and biological weapon capabilities mainly consists of case studies which only focus on select countries and thus are not generalizeable. To sum up, assessing the global cyber and biological threat currently lacks a systematic empirical approach. In this thesis, I take an empirical and systematic approach towards assessing the global cyber and biological threat. The first part of the thesis focuses on cyber crime. I examine international variation in cyber crime infrastructure hosting and cyber crime exposure. I also empirically test hypotheses about factors behind such variation. In that work, I use Symantec’s telemetry data, collected from 10 million Symantec customer computers worldwide and accessed through the Symantec’s Worldwide Intelligence Network Environment (WINE). I find that addressing corruption in Eastern Europe or computer piracy in Sub-Saharan Africa has the potential to reduce the global cyber crime. The second part of the thesis focuses on cyber and biological weapon capabilities. I develop two computational methodologies: one to assess countries’ biological capabilities and one to assess countries’ cyber capabilities. The methodologies examine all countries in the world and can be used by non-experts that only have access to publicly available data. I validate the biological weapon assessment methodology by comparing the methodology’s assessment to historical data. This work has the potential to proactively reduce the global cyber and biological weapon threat.