@inproceedings{wagner_problem_2014, address = {Paris}, title = {Problem {Characterization} and {Abstraction} for {Visual} {Analytics} in {Behavior}-{Based} {Malware} {Pattern} {Analysis}}, url = {https://ifs.tuwien.ac.at/~rind/preprint/wagner_2014_VizSec_problem.pdf}, doi = {10/cv8p}, abstract = {Behavior-based analysis of emerging malware families involves finding suspicious patterns in large collections of execution traces. This activity cannot be automated for previously unknown malware families and thus malware analysts would benefit greatly from integrating visual analytics methods in their process. However existing approaches are limited to fairly static representations of data and there is no systematic characterization and abstraction of this problem domain. Therefore we performed a systematic literature study, conducted a focus group as well as semi-structured interviews with 10 malware analysts to elicit a problem abstraction along the lines of data, users, and tasks. The requirements emerging from this work can serve as basis for future design proposals to visual analytics-supported malware pattern analysis.}, booktitle = {Proceedings of the {Eleventh} {Workshop} on {Visualization} for {Cyber} {Security}}, publisher = {ACM}, author = {Wagner, Markus and Aigner, Wolfgang and Rind, Alexander and Dornhackl, Hermann and Kadletz, Konstantin and Luh, Robert and Tavolato, Paul}, editor = {Harrison, Lane}, month = nov, year = {2014}, note = {Projekt: TARGET Projekt: KAVA-Time}, keywords = {2014, Creative Industries, Department Technologie, FH SP Cyber Security, Forschungsgruppe Digital Technologies, Forschungsgruppe Media Computing, Forschungsgruppe Secure Societies, Institut für Creative Media Technologies, Institut für IT Sicherheitsforschung, KAVA-Time, Publikationstyp Präsentation, Publikationstyp Schriftpublikation, Visual analytics, best, best-lbwagnerm, evaluation, malicious software, malware analysis, peer-reviewed, problem characterization and abstraction, user centered design, visualization}, pages = {9 -- 16}, } @inproceedings{luh_robert_apt_2018, title = {{APT} {RPG}: {Design} of a {Gamified} {Attacker}/{Defender} {Meta} {Model}}, booktitle = {International {Workshop} on {FORmal} methods for {Security} {Engineering}}, author = {{Luh, Robert} and Temper, Marlies and Tjoa, Simon and Schrittwieser, Sebastian}, year = {2018}, note = {Projekt: TARGET}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Data Intelligence, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, peer-reviewed, ⛔ No DOI found}, } @inproceedings{luh_design_2017, address = {Madeira, Portugal}, title = {Design of an {Anomaly}-based {Threat} {Detection} \& {Explication} {System}}, doi = {10/gnd7mx}, author = {Luh, Robert and Schrittwieser, Sebastian and Janicke, Helge and Marschalek, Stefan}, year = {2017}, note = {Projekt: TARGET}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, peer-reviewed}, } @inproceedings{marschalek_empirical_2016, title = {Empirical {Malware} {Research} through {Observation} of {System} {Behaviour}}, doi = {10/gnt2tx}, booktitle = {First {Workshop} on {Empirical} {Research} {Methods} in {Information} {Security}}, publisher = {ACM}, author = {Marschalek, Stefan and Kaiser, Manfred and Luh, Robert and Schrittwieser, Sebastian}, year = {2016}, note = {Projekt: TARGET}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, peer-reviewed}, pages = {467--469}, } @inproceedings{marschalek_endpoint_2017, address = {Altoona, PA}, title = {Endpoint {Data} {Classification} {Using} {Markov} {Chains}}, isbn = {978-1-5386-4808-7}, url = {https://ieeexplore.ieee.org/document/8392618/}, doi = {10/gnt2tz}, urldate = {2019-01-24}, booktitle = {2017 {International} {Conference} on {Software} {Security} and {Assurance} ({ICSSA})}, publisher = {IEEE}, author = {Marschalek, Stefan and Luh, Robert and Schrittwieser, Sebastian}, month = jul, year = {2017}, keywords = {FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, SP IT Sec System \& Application Security, peer-reviewed}, pages = {56--59}, } @inproceedings{luh_design_2017-1, title = {Design of an {Anomaly}-based {Threat} {Detection} \& {Explication} {System}}, doi = {10/gnd63p}, publisher = {ACM}, author = {Luh, Robert and Schrittwieser, Sebastian and Marschalek, Stefan and Janicke, Helge and Weippl, Edgar}, year = {2017}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, peer-reviewed}, } @inproceedings{luh_taon_2016, title = {{TAON}: {An} {Ontology}-based {Approach} to {Mitigating} {Targeted} {Attacks}}, doi = {10/gnt2tw}, publisher = {ACM}, author = {Luh, Robert and Schrittwieser, Sebastian and Marschalek, Stefan}, year = {2016}, note = {Projekt: TARGET}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, peer-reviewed}, } @article{luh_automatische_2011, title = {Automatische verhaltensbasierte {Malware}-{Analyse}}, language = {Deutsch}, number = {11}, journal = {Hackin9}, author = {Luh, Robert and Tavolato, Paul}, year = {2011}, note = {Projekt: TARGET}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Publikationstyp Schriftpublikation}, } @inproceedings{luh_behavior-based_2012, address = {Graz, Österreich}, title = {Behavior-{Based} {Malware} {Recognition}}, isbn = {3-902103-37-X}, booktitle = {6. {Forschungsforum} der Österreichischen {Fachhochschulen} - {Tagungsband} 1 {Informationstechnologie} als {Produktionsfaktor}}, publisher = {Eigenverlag FH Joanneum GmbH}, author = {Luh, Robert and Tavolato, Paul}, year = {2012}, note = {Projekt: MalwareDef}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Publikationstyp Schriftpublikation, peer-reviewed}, pages = {79--84}, } @incollection{wagner_visual_2017, title = {Visual {Analytics}: {Foundations} and {Experiences} in {Malware} {Analysis}}, isbn = {978-1-4987-7641-7}, abstract = {This chapter starts by providing some background in behavior-based malware analysis. Subsequently, it introduces VA and its main components based on the knowledge generation model for VA (Sacha et al., 2014). Then, it demonstrates the applicability of VA in in this subfield of software security with three projects that illustrate practical experience of VA methods: MalwareVis (Zhuo et al., 2012) supports network forensics and malware analysis by visually assessing TCP and DNS network streams. SEEM (Gove et al., 2014) allows visual comparison of multiple large attribute sets of malware samples, thereby enabling bulk classification. KAMAS (Wagner et al. 2017) is a knowledge-assisted visualization system for behavior-based malware forensics enabled by API calls and system call traces. Future directions in visual analytics for malware analysis conclude the chapter.}, booktitle = {Empirical {Research} for {Software} {Security}: {Foundations} and {Experience}}, publisher = {CRC/Taylor and Francis}, author = {Wagner, Markus and Sacha, Dominik and Rind, Alexander and Fischer, Fabian and Luh, Robert and Schrittwieser, Sebastian and Keim, Daniel A and Aigner, Wolfgang}, editor = {Othmane, Lotfi Ben and Jaatun, Martin Gilje and Weippl, Edgar}, year = {2017}, note = {Projekt: KAVA-Time}, keywords = {FH SP Cyber Security, FH SP Data Analytics \& Visual Computing, Forschungsgruppe Digital Technologies, Forschungsgruppe Media Computing, Institut für Creative Media Technologies, Publikationstyp Schriftpublikation, Visual Computing, Visual analytics, Wiss. Beitrag, best, best-lbwagnerm, data, interaction, knowledge generation, malware analysis, model, peer-reviewed, visualization}, pages = {139--171}, } @inproceedings{wagner_survey_2015, address = {Cagliari, Italy}, title = {A {Survey} of {Visualization} {Systems} for {Malware} {Analysis}}, url = {http://mc.fhstp.ac.at/supp/EuroVisStar2015}, doi = {10/cwc4}, abstract = {Due to the increasing threat from malicious software (malware), monitoring of vulnerable systems is becoming increasingly important. The need to log and analyze activity encompasses networks, individual computers, as well as mobile devices. While there are various automatic approaches and techniques available to detect, identify, or capture malware, the actual analysis of the ever-increasing number of suspicious samples is a time-consuming process for malware analysts. The use of visualization and highly interactive visual analytics systems can help to support this analysis process with respect to investigation, comparison, and summarization of malware samples. Currently, there is no survey available that reviews available visualization systems supporting this important and emerging field. We provide a systematic overview and categorization of malware visualization systems from the perspective of visual analytics. Additionally, we identify and evaluate data providers and commercial tools that produce meaningful input data for the reviewed malware visualization systems. This helps to reveal data types that are currently underrepresented, enabling new research opportunities in the visualization community.}, booktitle = {Eurographics {Conference} on {Visualization} ({EuroVis}) - {STARs}}, publisher = {The Eurographics Association}, author = {Wagner, Markus and Fischer, Fabian and Luh, Robert and Haberson, Andrea and Rind, Alexander and Keim, Daniel A. and Aigner, Wolfgang}, editor = {Borgo, Rita and Ganovelli, Fabio and Viola, Ivan}, year = {2015}, note = {Projekt: TARGET Projekt: KAVA-Time}, keywords = {Creative Industries, FH SP Cyber Security, FH SP Data Analytics \& Visual Computing, Forschungsgruppe Digital Technologies, Forschungsgruppe Media Computing, Forschungsgruppe Secure Societies, Institut für Creative Media Technologies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, KAVA-Time, Model/Taxonomy, Publikationstyp Präsentation, Publikationstyp Schriftpublikation, Time-Oriented Data, Visual Computing, Visual analytics, Vortrag, Wiss. Beitrag, best, best-lbaigner, best-lbwagnerm, best-rluh, information visualization, interdisziplinär, malicious software, malware, peer-reviewed, survey, taxonomy, visualization}, pages = {105--125}, } @article{luh_aidis_2019, title = {{AIDIS}: {Detecting} and classifying anomalous behavior in ubiquitous kernel processes}, issn = {0167-4048}, url = {http://www.sciencedirect.com/science/article/pii/S0167404818314457}, doi = {10/gh38cc}, abstract = {Targeted attacks on IT systems are a rising threat against the confidentiality, integrity, and availability of critical information and infrastructures. With the rising prominence of advanced persistent threats (APTs), identifying and understanding such attacks has become increasingly important. Current signature-based systems are heavily reliant on fixed patterns that struggle with unknown or evasive applications, while behavior-based solutions usually leave most of the interpretative work to a human analyst. In this article we propose AIDIS, an Advanced Intrusion Detection and Interpretation System capable to explain anomalous behavior within a network-enabled user session by considering kernel event anomalies identified through their deviation from a set of baseline process graphs. For this purpose we adapt star structures, a bipartite representation used to approximate the edit distance between two graphs. Baseline templates are generated automatically and adapt to the nature of the respective operating system process. We prototypically implemented smart anomaly classification through a set of competency questions applied to graph template deviations and evaluated the approach using both Random Forest and linear kernel support vector machines. The determined attack classes are ultimately mapped to a dedicated APT attacker/defender meta model that considers actions, actors, as well as assets and mitigating controls, thereby enabling decision support and contextual interpretation of ongoing attacks.}, number = {84}, journal = {Computers \& Security}, author = {Luh, Robert and Janicke, Helge and Schrittwieser, Sebastian}, month = jul, year = {2019}, note = {Projekt: TARGET}, keywords = {FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, SP IT Sec System \& Application Security, best, best-rluh, peer-reviewed}, pages = {120--147}, } @article{luh_sequin_2018, title = {{SEQUIN}: a grammar inference framework for analyzing malicious system behavior}, url = {http://mc.fhstp.ac.at/sites/default/files/publications/Luh_2018_SEQUIN.pdf}, doi = {10/cwdf}, abstract = {Targeted attacks on IT systems are a rising threat to the confidentiality of sensitive data and the availability of critical systems. The emergence of Advanced Persistent Threats (APTs) made it paramount to fully understand the particulars of such attacks in order to improve or devise effective defense mechanisms. Grammar inference paired with visual analytics (VA) techniques offers a powerful foundation for the automated extraction of behavioral patterns from sequential event traces. To facilitate the interpretation and analysis of APTs, we present SEQUIN, a grammar inference system based on the Sequitur compression algorithm that constructs a context-free grammar (CFG) from string-based input data. In addition to recursive rule extraction, we expanded the procedure through automated assessment routines capable of dealing with multiple input sources and types. This automated assessment enables the accurate identification of interesting frequent or anomalous patterns in sequential corpora of arbitrary quantity and origin. On the formal side, we extended the CFG with attributes that help describe the extracted (malicious) actions. Discovery-focused pattern visualization of the output is provided by our dedicated KAMAS VA prototype.}, journal = {Journal of Computer Virology and Hacking Techniques}, author = {Luh, Robert and Schramm, Gregor and Wagner, Markus and Janicke, Helge and Schrittwieser, Sebastian}, year = {2018}, note = {Projekt: TARGET Projekt: KAVA-Time}, keywords = {FH SP Cyber Security, Forschungsgruppe Digital Technologies, Forschungsgruppe Media Computing, Forschungsgruppe Secure Societies, Institut für Creative Media Technologies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Visual analytics, Wiss. Beitrag, attribute grammar, best, best-lbwagner, best-rluh, knowledge generation, malware analysis, peer-reviewed, system behavior}, pages = {01 -- 21}, } @inproceedings{marschalek_classifying_2015, title = {Classifying {Malicious} {System} {Behavior} using {Event} {Propagation} {Trees}}, doi = {10/gh378f}, booktitle = {Proceedings of the 17th {International} {Con}- ference on {Information} {Integration} and {Web}-based {Applications} {Services} ({iiWAS2015})}, author = {Marschalek, Stefan and Luh, Robert and Kaiser, Manfred and Schrittwieser, Sebastian}, year = {2015}, note = {Projekt: TARGET}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, SP IT Sec System \& Application Security, peer-reviewed}, } @inproceedings{luh_sequitur-based_2017, title = {Sequitur-based {Inference} and {Analysis} {Framework} for {Malicious} {System} {Behavior}}, doi = {10/cwdb}, author = {Luh, Robert and Schramm, Georg and Wagner, Markus and Schrittwieser, Sebastian}, year = {2017}, note = {Projekt: TARGET Projekt: KAVA-Time}, keywords = {2017, Department Medien und Digitale Technologien, Department Technologie, FH SP Cyber Security, Forschungsgruppe Digital Technologies, Forschungsgruppe Media Computing, Forschungsgruppe Secure Societies, Institut für Creative Media Technologies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Präsentation, Publikationstyp Schriftpublikation, peer-reviewed}, } @inproceedings{rauchberger_other_2018, address = {Hamburg, Deutschland}, title = {The {Other} {Side} of the {Coin}: {A} {Framework} for {Detecting} and {Analyzing} {Web}-based {Cryptocurrency} {Mining} {Campaigns}}, doi = {10/gh373c}, booktitle = {Proceedings of the 13th {International} {Conference} on {Availability}, {Reliability} and {Security}}, publisher = {ACM}, author = {Rauchberger, Julian and Schrittwieser, Sebastian and Dam, Tobias and Luh, Robert and Buhov, Damjan and Pötzelsberger, Gehard and Kim, Hyoungshick}, year = {2018}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, SP IT Sec System \& Application Security, best, peer-reviewed}, } @inproceedings{rauchberger_longkit_2017, address = {Madeira, Portugal}, title = {Longkit - {A} {Universal} {Framework} for {BIOS}/{UEFI} {Rootkits} in {System} {Management} {Mode}}, doi = {10/gh3729}, author = {Rauchberger, Julian and Luh, Robert and Schrittwieser, Sebastian}, year = {2017}, note = {Projekt: TARGET}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, SP IT Sec System \& Application Security, best, peer-reviewed}, } @inproceedings{luh_llr-based_2017, title = {{LLR}-based {Sentiment} {Analysis} for {Kernel} {Event} {Sequences}}, doi = {10/gh3728}, publisher = {IEEE}, author = {Luh, Robert and Schrittwieser, Sebastian and Marschalek, Stefan}, year = {2017}, note = {Projekt: TARGET}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, best, peer-reviewed}, } @article{eresheim_evolution_2017, title = {The {Evolution} of {Process} {Hiding} {Techniques} in {Malware} – {Current} {Threats} and {Possible} {Countermeasures}}, doi = {10/gh3722}, journal = {Journal of Information Processing}, author = {Eresheim, Sebastian and Luh, Robert and Schrittwieser, Sebastian}, year = {2017}, note = {Projekt: TARGET}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Data Intelligence, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, peer-reviewed}, } @article{luh_semantics-aware_2016, title = {Semantics-aware detection of targeted attacks – {A} survey}, url = {http://link.springer.com/article/10.1007/s11416-016-0273-3}, doi = {10/gh372z}, journal = {Journal of Computer Virology and Hacking Techniques}, author = {Luh, Robert and Marschalek, Stefan and Kaiser, Manfred and Janicke, H and Schrittwieser, Sebastian}, year = {2016}, note = {Projekt: TARGET}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Josef Ressel Zentrum TARGET, Publikationstyp Schriftpublikation, best, peer-reviewed}, pages = {1--39}, } @misc{luh_google_2019, address = {FH St. Pölten}, title = {Google {Hacking}}, author = {Luh, Robert and Eigner, Oliver}, month = jan, year = {2019}, keywords = {FH SP Cyber Security, Forschungsgruppe Data Intelligence, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, SP IT Sec System \& Application Security}, } @inproceedings{thur_big2-kamas:_2017, address = {Phoenix, Arizona, USA}, title = {{BiG2}-{KAMAS}: {Supporting} {Knowledge}-{Assisted} {Malware} {Analysis} with {Bi}-{Gram} {Based} {Valuation}}, url = {http://mc.fhstp.ac.at/sites/default/files/publications/vizsec-poster-2017%20%281%29.pdf}, abstract = {Malicious software, short malware, refers to software programs that are designed to cause damage or to perform unwanted actions on the infected computer system. The behavior-based analysis of malware typically utilizes tools that produce lengthy traces of observed events, which have to be analyzed manually or by means of individual scripts. Due to the growing amount of data extracted from malware samples, analysts are in need of an interactive tool that supports them in their exploration efforts. In this respect, the use of visual analytics methods and stored expert knowledge helps the user to speed up the exploration process and, furthermore, to improve the quality of the outcome. In this paper, the previously developed KAMAS concept is extended with components such as a bi-gram based valuation approach to cover further malware analysts’ needs. The components have been integrated a new prototype which was evaluated by two domain experts in a detailed user study.}, booktitle = {Poster of the 14th {Workshop} on {Visualization} for {Cyber} {Security} ({VizSec})}, author = {Thür, Niklas and Wagner, Markus and Schick, Johannes and Niederer, Christina and Eckel, Jürgen and Luh, Robert and Aigner, Wolfgang}, month = oct, year = {2017}, note = {Projekt: KAVA-Time}, keywords = {2017, Forschungsgruppe Digital Technologies, Forschungsgruppe Media Computing, Institut für Creative Media Technologies, Knowledge-assisted Visualization, Publikationstyp Präsentation, Publikationstyp Schriftpublikation, User-Centered Design, Visual analytics, explicit knowledge, information visualization}, } @inproceedings{thur_bigram_2017, address = {St. Pölten}, title = {A {Bigram} {Supported} {Generic} {Knowledge}-{Assisted} {Malware} {Analysis} {System}: {BiG2}-{KAMAS}}, url = {http://mc.fhstp.ac.at/sites/default/files/publications/Thuer_B2KAMAS_2017.pdf}, abstract = {Malicious software, short "malware", refers to software programs that are designed to cause damage or to perform unwanted actions on the infected computer system. Behavior-based analysis of malware typically utilizes tools that produce lengthy traces of observed events, which have to be analyzed manually or by means of individual scripts. Due to the growing amount of data extracted from malware samples, analysts are in need of an interactive tool that supports them in their exploration efforts. In this respect, the use of visual analytics methods and stored expert knowledge helps the user to speed up the exploration process and, furthermore, to improve the quality of the outcome. In this paper, the previously developed KAMAS prototype is extended with additional features such as the integration of a bi-gram based valuation approach to cover further malware analysts’ needs. The result is a new prototype which was evaluated by two domain experts in a detailed user study.}, booktitle = {Proceedings of the 10th {Forum} {Media} {Technology} 2017}, publisher = {CEUR-WS}, author = {Thür, Niklas and Wagner, Markus and Schick, Johannes and Niederer, Christina and Eckel, Jürgen and Luh, Robert and Aigner, Wolfgang}, month = nov, year = {2017}, note = {Projekt: KAVA-Time}, keywords = {2017, Design Study, Forschungsgruppe Digital Technologies, Forschungsgruppe Media Computing, Institut für Creative Media Technologies, Publikationstyp Präsentation, Publikationstyp Schriftpublikation, Visual analytics, behavior-based, interactive, knowledge generation, malicious software, malware analysis, peer-reviewed, prototype, visualization}, pages = {107--115}, } @misc{haslinger_alltagsspuren_2015, title = {Alltagsspuren von dir und mir}, author = {Haslinger, Daniel and Luh, Robert}, month = sep, year = {2015}, keywords = {Department Technologie, FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Publikationstyp Präsentation, SP IT Sec System \& Application Security}, } @article{luh_fragen_2018, title = {Fragen an die {Wissenschaft}: {Warum} werden {Datenbestände} immer größer?}, journal = {Niederösterreichische Nachrichten}, author = {Luh, Robert}, month = oct, year = {2018}, keywords = {FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, SP IT Sec System \& Application Security}, } @misc{luh_mord_2018, address = {VHS Wien}, title = {Mord auf der {Festplatte}: {Ein} {Ausflug} in die digitale {Forensik}}, author = {Luh, Robert}, month = jan, year = {2018}, keywords = {FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, SP IT Sec System \& Application Security, Vortrag}, } @misc{luh_murder_2018, address = {FH Kiel}, title = {From murder to malware: {Digital} forensics for treasure hunters}, author = {Luh, Robert}, month = jan, year = {2018}, keywords = {FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, SP IT Sec System \& Application Security, Vortrag}, } @misc{luh_malware_2018, address = {De Montfort University Leicester}, title = {Malware {Analysis}}, author = {Luh, Robert}, month = jan, year = {2018}, keywords = {FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, SP IT Sec System \& Application Security, Vortrag}, } @misc{luh_penquest:_2018, address = {Fachhochschule St. Pölten}, title = {{PenQuest}: {Attacker}/{Defender} {Educational} {Game}}, author = {Luh, Robert}, month = jun, year = {2018}, keywords = {FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, SP IT Sec System \& Application Security, Vortrag}, } @misc{luh_google_2018, address = {FH St. Pölten}, title = {Google {Hacking}}, author = {Luh, Robert and Eresheim, Sebastian}, month = jan, year = {2018}, keywords = {FH SP Cyber Security, Forschungsgruppe Data Intelligence, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, SP IT Sec System \& Application Security, Vortrag}, } @misc{schrittwieser_mord_2018, address = {Wien}, title = {Mord im {Planetarium} - {Ein} {Ausflug} in die {Welt} der {Digitalen} {Forensik}}, author = {Schrittwieser, Sebastian and Luh, Robert}, month = apr, year = {2018}, keywords = {FH SP Cyber Security, Forschungsgruppe Secure Societies, Institut für IT Sicherheitsforschung, Vortrag}, }