Network anomalies detection via event analysis and correlation by a smart system

The multidisciplinary of contemporary societies compel us to look at Information Technology (IT) systems as one of the most significant grants that we can remember. However, its increase implies a mandatory security force for users, a force in the form of effective and robust tools to combat cybercrime to which users, individual or collective, are ex-posed almost daily. Monitoring and detection of this kind of problem must be ensured in real-time, allowing companies to intervene fruitfully, quickly and in unison. The proposed framework is based on an organic symbiosis between credible, affordable, and effective open-source tools for data analysis, relying on Security Information and Event Management (SIEM), Big Data and Machine Learning (ML) techniques commonly applied for the development of real-time monitoring systems. Dissecting this framework, it is composed of a system based on SIEM methodology that provides monitoring of data in real-time and simultaneously saves the information, to assist forensic investigation teams. Secondly, the application of the Big Data concept is effective in manipulating and organising the flow of data. Lastly, the use of ML techniques that help create mechanisms to detect possible attacks or anomalies on the network. This framework is intended to provide a real-time analysis application in the institution ISCTE – Instituto Universitário de Lisboa (Iscte), offering a more complete, efficient, and secure monitoring of the data from the different devices comprising the network.A multidisciplinaridade das sociedades contemporâneas obriga-nos a perspetivar os sistemas informáticos como uma das maiores dádivas de que há memória. Todavia o seu incremento implica uma mandatária força de segurança para utilizadores, força essa em forma de ferramentas eficazes e robustas no combate ao cibercrime a que os utilizadores, individuais ou coletivos, são sujeitos quase diariamente. A monitorização e deteção deste tipo de problemas tem de ser assegurada em tempo real, permitindo assim, às empresas intervenções frutuosas, rápidas e em uníssono. A framework proposta é alicerçada numa simbiose orgânica entre ferramentas open source credíveis, acessíveis pecuniariamente e eficazes na monitorização de dados, recorrendo a um sistema baseado em técnicas de Security Information and Event Management (SIEM), Big Data e Machine Learning (ML) comumente aplicadas para a criação de sistemas de monitorização em tempo real. Dissecando esta framework, é composta pela metodologia SIEM que possibilita a monitorização de dados em tempo real e em simultâneo guardar a informação, com o objetivo de auxiliar as equipas de investigação forense. Em segundo lugar, a aplicação do conceito Big Data eficaz na manipulação e organização do fluxo dos dados. Por último, o uso de técnicas de ML que ajudam a criação de mecanismos de deteção de possíveis ataques ou anomalias na rede. Esta framework tem como objetivo uma aplicação de análise em tempo real na instituição ISCTE – Instituto Universitário de Lisboa (Iscte), apresentando uma monitorização mais completa, eficiente e segura dos dados dos diversos dispositivos presentes na mesma

A survey on the application of deep learning for code injection detection

Abstract Code injection is one of the top cyber security attack vectors in the modern world. To overcome the limitations of conventional signature-based detection techniques, and to complement them when appropriate, multiple machine learning approaches have been proposed. While analysing these approaches, the surveys focus predominantly on the general intrusion detection, which can be further applied to specific vulnerabilities. In addition, among the machine learning steps, data preprocessing, being highly critical in the data analysis process, appears to be the least researched in the context of Network Intrusion Detection, namely in code injection. The goal of this survey is to fill in the gap through analysing and classifying the existing machine learning techniques applied to the code injection attack detection, with special attention to Deep Learning. Our analysis reveals that the way the input data is preprocessed considerably impacts the performance and attack detection rate. The proposed full preprocessing cycle demonstrates how various machine-learning-based approaches for detection of code injection attacks take advantage of different input data preprocessing techniques. The most used machine learning methods and preprocessing stages have been also identified

Security Enhanced Applications for Information Systems

Every day, more users access services and electronically transmit information which is usually disseminated over insecure networks and processed by websites and databases, which lack proper security protection mechanisms and tools. This may have an impact on both the users’ trust as well as the reputation of the system’s stakeholders. Designing and implementing security enhanced systems is of vital importance. Therefore, this book aims to present a number of innovative security enhanced applications. It is titled “Security Enhanced Applications for Information Systems” and includes 11 chapters. This book is a quality guide for teaching purposes as well as for young researchers since it presents leading innovative contributions on security enhanced applications on various Information Systems. It involves cases based on the standalone, network and Cloud environments

Recurrent neural networks in the context of SQL attacks

In the paper we present a new approach based on application of neural networks to detect SQLattacks. SQL attacks are those attacks that take advantage of using SQL statements to beperformed. The problem of detection of this class of attacks is transformed to time seriesprediction problem. SQL queries are used as a source of events in a protected environment. Todifferentiate between normal SQL queries and those sent by an attacker, we divide SQL statementsinto tokens and pass them to our detection system, which predicts the next token, taking intoaccount previously seen tokens. In the learning phase tokens are passed to recurrent neuralnetwork (RNN) trained by backpropagation through time (BPTT) algorithm. Teaching data areshifted by one token forward in time with relation to input. The purpose of the testing phase is topredict the next token in the sequence. All experiments were conducted on Jordan and Elmannetworks using data gathered from PHP Nuke portal. The experimental results show that theJordan network outperforms the Elman network predicting correctly queries of the length up toten

Improving Attack Trees Analysis using Petri Net modeling of Cyber-Attacks

Publisher Copyright: © 2019 IEEE.Cyber security is one general concern to all network-based organizations. In recent years, by significant increasing cyber-attacks in critical infrastructures (CIs) the need of smart prediction, awareness and protection systems is not deniable. The first step for security assessment is on recognizing and analyzing attacks. In this paper, one of the graphical security assessments named Attack Tree (AT) is used to illustrate one kind of cyber-attacks scenario in Industry 4.0 and the system's behavior is analyzed by Petri Nets.authorsversionpublishe