Locality Optimizations for Regular and Irregular Applications

Rajbhandari, Samyam

28 December 2016

No description available.

Computer Science

Computer Engineering

Malicious Entity Categorization using Graph modelling / Skadlig Entity Kategorisering med användning graf modellering

Srinivaasan, Gayathri

January 2016

Today, malware authors not only write malicious software but also employ obfuscation, polymorphism, packing and endless such evasive techniques to escape detection by Anti-Virus Products (AVP). Besides the individual behavior of malware, the relations that exist among them play an important role for improving malware detection. This work aims to enable malware analysts at F-Secure Labs to explore various such relationships between malicious URLs and file samples in addition to their individual behavior and activity. The current detection methods at F-Secure Labs analyze unknown URLs and file samples independently without taking into account the correlations that might exist between them. Such traditional classification methods perform well but are not efficient at identifying complex multi-stage malware that hide their activity. The interactions between malware may include any type of network activity, dropping, downloading, etc. For instance, an unknown downloader that connects to a malicious website which in turn drops a malicious payload, should indeed be blacklisted. Such analysis can help block the malware infection at its source and also comprehend the whole infection chain. The outcome of this proof-of-concept study is a system that detects new malware using graph modelling to infer their relationship to known malware as part of the malware classification services at F-Secure. / Idag, skadliga program inte bara skriva skadlig programvara men också använda förvirring, polymorfism, packning och ändlösa sådana undan tekniker för att fly detektering av antivirusprodukter (AVP). Förutom individens beteende av skadlig kod, de relationer som finns mellan dem spelar en viktig roll för att förbättra detektering av skadlig kod. Detta arbete syftar till att ge skadliga analytiker på F-Secure Labs att utforska olika sådana relationer mellan skadliga URL: er och fil prover i Förutom deras individuella beteende och aktivitet. De aktuella detektionsmetoder på F-Secure Labs analysera okända webbadresser och fil prover oberoende utan med beaktande av de korrelationer som kan finnas mellan dem. Sådan traditionella klassificeringsmetoder fungerar bra men är inte effektiva på att identifiera komplexa flerstegs skadlig kod som döljer sin aktivitet. Interaktioner mellan malware kan innefatta någon typ av nätverksaktivitet, släppa, nedladdning, etc. Till exempel, en okänd loader som ansluter till en skadlig webbplats som i sin tur släpper en skadlig nyttolast, bör verkligen vara svartlistad. En sådan analys kan hjälpa till att blockera malware infektion vid källan och även förstå hela infektion kedja. Resultatet av denna proof-of-concept studien är ett system som upptäcker ny skadlig kod med hjälp av diagram modellering för att sluta deras förhållande till kända skadliga program som en del av de skadliga klassificerings tjänster på F-Secure.

malware

classification

graph modelling

graph mining

downloader

payload

URL

file sample

graph traversal

malware

klassificering

graf modellering

graf gruvdrift

dataöverföring

nyttolast

URL

fil prov

graf traverse

Computer and Information Sciences

Data- och informationsvetenskap

Firewall Traversal in Mobile IPv6 Networks / Firewall Traversal in Mobile IPv6 Networks

Steinleitner, Niklas

09 October 2008

No description available.

004 Informatik

Mathematics and Computer Science

Firewall

Traversal

Mobile IPv6

NAT/FW

NSLP

ALG

Mobile IP6 ALG

MIPv6

Application Layer Gateway

Next Steps in Signaling

NSIS

Firewall

Traversal

Mobile IPv6

NAT/FW

NSLP

ALG

Mobile IP6 ALG

MIPv6

Application Layer Gateway

Next Steps in Signaling

NSIS

54.32

54.38

Time and Space-Efficient Algorithms for Mobile Agents in an Anonymous Network

Kosowski, Adrian

26 September 2013

Computing with mobile agents is rapidly becoming a topic of mainstream research in the theory of distributed computing. The main research questions undertaken in this study concern the feasibility of solving fundamental tasks in an anonymous network, subject to limitations on the resources available to the agent. The considered challenges include: exploring a graph by means of an agent with limited memory, discovery of the network topology, and attempting to meet with another agent in another network (rendezvous). The constraints imposed on the agent include the number of moves which the agent is allowed to perform in the network, the amount of state memory available to the agent, the ability of the agent to communicate with other agents, as well as its a priori knowledge of the network topology or of global parameters.

Distributed Algorithm

Mobile Agent

Anonymous Network

Graph Exploration

Rendezvous in Graphs

Random Walk

Metropolis Walk

Rotor-Router Walk

Universal Traversal Sequence

De-rendomization