Global ETD Search

1	How to prevent occupational burnout? Näsholm, Camilla January 2016 (has links) In the last decade, several epidemiological studies have found a high prevalence of occupational burnout in both western and developing countries. Burnout is a global concern and has the potential to negatively affect the individual’s psychological and physical health, as well as an organization’s and a country’s effectiveness and economy. The goal of this project was to create a stress management and prevention system that opens up for reflection and discussion on an individual, corporate and societal level. To achieve this the student investigated how stress could be quantified, visualized and communicated in a constructive way. The final concept assists the individual to recognize their stress and relaxation patterns and make constructive behavioral changes. In the workplace the system indicates stress levels and aims to enable real life communication regarding stress. Exposing stress data to the public empowers society to value and demand stress management. occupational burnout physikal healt effectiveness stress management prevention system stress behavioral changes
2	On Optimizing Traffic Distribution for Clusters of Network Intrusion Detection and Prevention Systems Le, Anh January 2008 (has links) To address the overload conditions caused by the increasing network traffic volume, recent literature in the network intrusion detection and prevention field has proposed the use of clusters of network intrusion detection and prevention systems (NIDPSs). We observe that simple traffic distribution schemes are usually used for NIDPS clusters. These schemes have two major drawbacks: (1) the loss of correlation information caused by the traffic distribution because correlated flows are not sent to the same NIDPS and (2) the unbalanced loads of the NIDPSs. The first drawback severely affects the ability to detect intrusions that require analysis of correlated flows. The second drawback greatly increases the chance of overloading an NIDPS even when loads of the others are low. In this thesis, we address these two drawbacks. In particular, we propose two novel traffic distribution systems: the Correlation-Based Load Balancer and the Correlation-Based Load Manager as two different solutions to the NIDPS traffic distribution problem. On the one hand, the Load Balancer and the Load Manager both consider the current loads of the NIDPSs while distributing traffic to provide fine-grained load balancing and dynamic load distribution, respectively. On the other hand, both systems take into account traffic correlation in their distributions, thereby significantly reducing the loss of correlation information during their distribution of traffic. We have implemented prototypes of both systems and evaluated them using extensive simulations and real traffic traces. Overall, the evaluation results show that both systems have low overhead in terms of the delays introduced to the packets. More importantly, compared to the naive hash-based distribution, the Load Balancer significantly improves the anomaly-based detection accuracy of DDoS attacks and port scans -- the two major attacks that require the analysis of correlated flows -- meanwhile, the Load Manager successfully maintains the anomaly-based detection accuracy of these two major attacks of the NIDPSs. Load Balancing Load Management Intrusion Detection System Intrusion Prevention System Computer Science
3	On Optimizing Traffic Distribution for Clusters of Network Intrusion Detection and Prevention Systems Le, Anh January 2008 (has links) To address the overload conditions caused by the increasing network traffic volume, recent literature in the network intrusion detection and prevention field has proposed the use of clusters of network intrusion detection and prevention systems (NIDPSs). We observe that simple traffic distribution schemes are usually used for NIDPS clusters. These schemes have two major drawbacks: (1) the loss of correlation information caused by the traffic distribution because correlated flows are not sent to the same NIDPS and (2) the unbalanced loads of the NIDPSs. The first drawback severely affects the ability to detect intrusions that require analysis of correlated flows. The second drawback greatly increases the chance of overloading an NIDPS even when loads of the others are low. In this thesis, we address these two drawbacks. In particular, we propose two novel traffic distribution systems: the Correlation-Based Load Balancer and the Correlation-Based Load Manager as two different solutions to the NIDPS traffic distribution problem. On the one hand, the Load Balancer and the Load Manager both consider the current loads of the NIDPSs while distributing traffic to provide fine-grained load balancing and dynamic load distribution, respectively. On the other hand, both systems take into account traffic correlation in their distributions, thereby significantly reducing the loss of correlation information during their distribution of traffic. We have implemented prototypes of both systems and evaluated them using extensive simulations and real traffic traces. Overall, the evaluation results show that both systems have low overhead in terms of the delays introduced to the packets. More importantly, compared to the naive hash-based distribution, the Load Balancer significantly improves the anomaly-based detection accuracy of DDoS attacks and port scans -- the two major attacks that require the analysis of correlated flows -- meanwhile, the Load Manager successfully maintains the anomaly-based detection accuracy of these two major attacks of the NIDPSs. Load Balancing Load Management Intrusion Detection System Intrusion Prevention System Computer Science
4	Åtgärder för att motverka säkerhetsbrister i katalogtjänster Hanna, Johan January 2018 (has links) Katalogtjänster är och förblir en central och kritisk del i informationssystem. I katalogtjänsterna samlas stora mängder information om användare och behörigheter för respektive användare. I högriskmiljöer, där bland annat hemlig och annan skyddsvärd information samlas, är katalogtjänsterna i en utsatt situation. Om en katalogtjänst svarar fel på en resursförfrågan kan konsekvenserna vara stora. Arbetet grundade sig i att med hjälp av olika säkerhetshöjande åtgärder bygga upp ett mer robust system för att skydda katalogtjänsten mot att behörighetsprinciperna bryts och ger obehörig personal eller andra aktörer tillgång till skyddsvärda resurser. Arbetet syftade till att öka medvetenheten kring de hypotetiska sårbarheterna som finns i en katalogtjänst och baserat på detta resultera i hur de potentiella sårbarheterna i åtkomstprinciperna kan motverkas eller mildras. För att uppnå detta resonerades det fram två testfall varav ett teoretiskt. Dessa byggde på att ett Intrusion Prevention System (IPS) implementerades i ett av testfallen och en brandvägg i det andra teoretiska fallet. Båda åtgärderna implementerades i trafikflödets riktning i respektive nätverkssegment för att kontrollera användarnas behörigheter i realtid. Testfallen byggdes upp simulerat med hjälp av bland annat GNS3 och Virtualbox. Det experiment som upprättades med IPS:en som huvudkomponent gav ett positivt utfall där enheten med hjälp av en uppsättning regler kunde utläsa specifika trafikflöden till resurser som den avsedda användaren inte hade tillgång till och baserat på detta utföra olika typer av åtgärder. Experimentet med brandväggen gav däremot inte önskat resultat, detta berodde på att det inte fanns stöd för den eftersökta funktionaliteten i de brandväggar med öppen källkod som undersöktes för implementationen. Det resultat som genererades med hjälp av IPS:ens förmåga att analysera trafik i realtid och baserat på detta utföra fördefinierade åtgärder betyder att det effektivt kan byggas upp ytterligare en barriär av skydd utöver katalogtjänstens egna säkerhet. Vidare medför detta även att om en IPS implementeras krävs det att två av varandra oberoende säkerhetsåtgärder fallerar innan ett felsvar realiseras vilket är att användaren får tillgång till resursen. Active Directory Katalogtjänster Intrusion Prevention System Nätverksteknik Engineering and Technology Teknik och teknologier
5	Security of Big Data: Focus on Data Leakage Prevention (DLP) Nyarko, Richard January 2018 (has links) Data has become an indispensable part of our daily lives in this era of information age. The amount of data which is generated is growing exponentially due to technological advances. This voluminous of data which is generated daily has brought about new term which is referred to as big data. Therefore, security is of great concern when it comes to securing big data processes. The survival of many organizations depends on the preventing of these data from falling into wrong hands. Because if these sensitive data fall into wrong hands it could cause serious consequences. For instance, the credibility of several businesses or organizations will be compromised when sensitive data such as trade secrets, project documents, and customer profiles are leaked to their competitors (Alneyadi et al, 2016). In addition, the traditional security mechanisms such as firewalls, virtual private networks (VPNs), and intrusion detection systems/intrusion prevention systems (IDSs/IPSs) are not enough to prevent against the leakage of such sensitive data. Therefore, to overcome this deficiency in protecting sensitive data, a new paradigm shift called data leakage prevention systems (DLPSs) have been introduced. Over the past years, many research contributions have been made to address data leakage. However, most of the past research focused on data leakage detection instead of preventing against the leakage. This thesis contributes to research by using the preventive approach of DLPS to propose hybrid symmetric-asymmetric encryption to prevent against data leakage. Also, this thesis followed the Design Science Research Methodology (DSRM) with CRISP-DM (CRoss Industry Standard Process for Data Mining) as the kernel theory or framework for the designing of the IT artifact (method). The proposed encryption method ensures that all confidential or sensitive documents of an organization are encrypted so that only users with access to the decrypting keys can have access. This is achieved after the documents have been classified into confidential and non-confidential ones with Naïve Bayes Classifier (NBC). Therefore, any organizations that need to prevent against data leakage before the leakage occurs can make use of this proposed hybrid encryption method. Big data big data security data leakage prevention data leakage prevention system Computer Sciences Datavetenskap (datalogi)
6	Návrh zabezpečení průmyslového řídícího systému / Industrial control system security design Strnad, Matěj January 2019 (has links) The subject of the master's thesis is a design of security measures for securing of an industrial control system. It includes an analysis of characteristics of communication environment and specifics of industrial communication systems, a comparison of available technological means and a design of a solution according to investor's requirements.
7	MODELING, SIMULATION AND EXPERIMENT FOR THE DEVELOPMENT OF INFRASOUND BIRD STRIKE PREVENTION SYSTEM Maduri, Vaishnavi 15 September 2015 (has links) No description available. Engineering Experiments Logic Systems Design
8	A novel intrusion detection system (IDS) architecture : attack detection based on snort for multistage attack scenarios in a multi-cores environment Pagna Disso, Jules Ferdinand January 2010 (has links) Recent research has indicated that although security systems are developing, illegal intrusion to computers is on the rise. The research conducted here illustrates that improving intrusion detection and prevention methods is fundamental for improving the overall security of systems. This research includes the design of a novel Intrusion Detection System (IDS) which identifies four levels of visibility of attacks. Two major areas of security concern were identified: speed and volume of attacks; and complexity of multistage attacks. Hence, the Multistage Intrusion Detection and Prevention System (MIDaPS) that is designed here is made of two fundamental elements: a multistage attack engine that heavily depends on attack trees and a Denial of Service Engine. MIDaPS were tested and found to improve current intrusion detection and processing performances. After an intensive literature review, over 25 GB of data was collected on honeynets. This was then used to analyse the complexity of attacks in a series of experiments. Statistical and analytic methods were used to design the novel MIDaPS. Key findings indicate that an attack needs to be protected at 4 different levels. Hence, MIDaPS is built with 4 levels of protection. As, recent attack vectors use legitimate actions, MIDaPS uses a novel approach of attack trees to trace the attacker's actions. MIDaPS was tested and results suggest an improvement to current system performance by 84% whilst detecting DDOS attacks within 10 minutes. 004
9	Establishing the Software-Defined Networking Based Defensive System in Clouds January 2014 (has links) abstract: Cloud computing is regarded as one of the most revolutionary technologies in the past decades. It provides scalable, flexible and secure resource provisioning services, which is also the reason why users prefer to migrate their locally processing workloads onto remote clouds. Besides commercial cloud system (i.e., Amazon EC2), ProtoGENI and PlanetLab have further improved the current Internet-based resource provisioning system by allowing end users to construct a virtual networking environment. By archiving the similar goal but with more flexible and efficient performance, I present the design and implementation of MobiCloud that is a geo-distributed mobile cloud computing platform, and G-PLaNE that focuses on how to construct the virtual networking environment upon the self-designed resource provisioning system consisting of multiple geo-distributed clusters. Furthermore, I conduct a comprehensive study to layout existing Mobile Cloud Computing (MCC) service models and corresponding representative related work. A new user-centric mobile cloud computing service model is proposed to advance the existing mobile cloud computing research. After building the MobiCloud, G-PLaNE and studying the MCC model, I have been using Software Defined Networking (SDN) approaches to enhance the system security in the cloud virtual networking environment. I present an OpenFlow based IPS solution called SDNIPS that includes a new IPS architecture based on Open vSwitch (OVS) in the cloud software-based networking environment. It is enabled with elasticity service provisioning and Network Reconfiguration (NR) features based on POX controller. Finally, SDNIPS demonstrates the feasibility and shows more efficiency than traditional approaches through a thorough evaluation. At last, I propose an OpenFlow-based defensive module composition framework called CloudArmour that is able to perform query, aggregation, analysis, and control function over distributed OpenFlow-enabled devices. I propose several modules and use the DDoS attack as an example to illustrate how to composite the comprehensive defensive solution based on CloudArmour framework. I introduce total 20 Python-based CloudArmour APIs. Finally, evaluation results prove the feasibility and efficiency of CloudArmour framework. / Dissertation/Thesis / Doctoral Dissertation Computer Science 2014 Computer science Intrusion Detection System Intrusion Prevention System Mobile Cloud Computing Network Security OpenFlow Software-Defined Networking
10	Nätverkssäkerhet med IPS : Förbättrad nätverkssäkerhet med Intrusion Prevention Systems Dubell, Michael, Johansson, David January 2013 (has links) Att skydda sin IT-miljö mot olika typer av intrång och attacker som till exempel trojaner,skadliga Java applets eller DoS attacker med hjälp av brandväggar och antivirusprogramär två viktiga lager i skalskyddet. I den här uppsatsen undersöks hur väl ett Intrusion Prevention System skulle kunna fungera som ett ytterligare lager i skalskyddet. Fokus ligger på hur väl IPS-systemet klarar av att avvärja attacker, hur mycket tid som går åt till konfigurering och drift för att få ett fungerande IPS samt hur prestandan i nätverket påverkas av implementationen. För att mäta hur väl IPS systemet klarar av att upptäcka och blockera attacker utförs två experiment där ett mindre nätverk attackeras på olika sätt. I det första experimentet skyddas infrastrukturen av en brandvägg och klienterna är utrustade med antivirusprogram. I det andra experimentet genomförs samma attacker igen fast med ett Snort IPS implementerat i nätverket. Resultatet av de genomförda experimenten visar att en IPS klarar att blockera ca 87% av attackerna, men nätverksprestandan påverkas negativt. Slutsatsen är att endast brandväggar och antivirusprogram inte ger ett fullgott skydd. network security network attacks virus trojans snort nätverkssäkerhet ips trojan nätverk Intrusion Prevention System snort attacker Computer Sciences Datavetenskap (datalogi)

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