Abstract
The Fourth Industrial Revolution (Industry 4.0) has transformed factories into smart Cyber-Physical Production Systems (CPPSs), where man, product, and machine are fully interconnected across the whole supply chain. Although this digitalization brings enormous advantages through customized, transparent, and agile manufacturing, it introduces a significant number of new attack vectors—e.g., through vulnerable Internet-of-Things (IoT) nodes—that can be leveraged by attackers to launch sophisticated Distributed Denial-of-Service (DDoS) attacks threatening the availability of the production line, business services, or even the human lives. In this article, we adopt a Machine Learning (ML) approach for network anomaly detection and construct different data-driven models to detect DDoS attacks on Industry 4.0 CPPSs. Existing techniques use data either artificially synthesized or collected from Information Technology (IT) networks or small-scale lab testbeds. To address this limitation, we use network traffic data captured from a real-world semiconductor production factory. We extract 45 bidirectional network flow features and construct several labeled datasets for training and testing ML models. We investigate 11 different supervised, unsupervised, and semi-supervised algorithms and assess their performance through extensive simulations. The results show that, in terms of the detection performance, supervised algorithms outperform both unsupervised and semi-supervised ones. In particular, the Decision Tree model attains an Accuracy of 0.999 while confining the False Positive Rate to 0.001.
Highlights
Recent advancements in information and communications technologies, notably the emergence of Internet-of-Things (IoT), cloud, fog, and edge-computing networks, Machine-to-Machine (M2M) Communications, Artificial Intelligence (AI), Machine Learning (ML), and Big Data, along with the offer of Ultra-Reliable Low Latency Communication (URLLC) services by Fifth-Generation (5G) mobile operators to private industries, have transformed factories into intelligent, massively interconnected Cyber-Physical Production Systems (CPPSs), laying out the Fourth Industrial Revolution (Industry 4.0) [1], where man, product, and machine are fully interconnected across the whole value chain from the suppliers of the raw materials to the production plant and the front office.This digitalization helps enhance the transparency of all production stages from the time when the order is dispatched until the end of life of the product
It is evident from this figure that Fthigeuureni4vaasrhiaotewGs tahuessRiaOnCaclguorvriethamndhtahseaApccouoradcyetoecfttihoenupneirvfoarimataenGcea.uIsnsitahne awlgoorrsitthm wcahseen, fPoCr lAowwvitahlu9e5spoefrFcPeRnt, tvhaerRiaOncCecruertvaeinoifsthape pIDliSedc.oiInt cisideevsiwdeitnht tfhroemROthCisoffiagurarnedthomat the ucnlaisvsaifriiearte(iGlluasutrsastieadn baylgtohreitdhimaghonaaslagpreoeonrddoetttecdtiloinne)p.eHrfoowrmevaenr,cea.s ItnhethFePRwionrcsrtecaaseses, for lothwe vAaclcuuersacoyf FimPRpr, othvesRaOnCd acuttravinesoiftsthmeaIxDimS ucomin(c0i.d7e) satwFiPthRt=he0.R15O.CAfotferawrarnddso, mtheclAascs-ifier.ccHuorawceyvpeer,aaks,tthheeFTPPRRiinsc0r.e6a,swesh,itchhemAecacnusracy imthpatrovnelys 6a0n%d oafttsaeicnusritys mincaixdiemnutsmar(e0d.7e)teacttFedPRby=t0h.e1I5D
Fi.ue.r,tthheerymaorreef,awlsheleyncAlacscsiufireadcyaspbeaenkisg, nthfeloTwPsR. is 0.6, which means that only 60% of securWityeitnecsitdedenthtseaarlegodreitthemctefdorbdyiftfhereeInDt Svaalnudestohfevraersitan40ce%rerteaminaoinf tuhnedPeCteActaeldgo—riit.hem., t,hey acrheafnaglsinelgyict lfarsosmifi9e5dtaos9b9epneigrcnenflto.wFisg.ure 4b depicts the results
Summary
Recent advancements in information and communications technologies, notably the emergence of Internet-of-Things (IoT), cloud-, fog-, and edge-computing networks, Machine-to-Machine (M2M) Communications, Artificial Intelligence (AI), Machine Learning (ML), and Big Data, along with the offer of Ultra-Reliable Low Latency Communication (URLLC) services by Fifth-Generation (5G) mobile operators to private industries, have transformed factories into intelligent, massively interconnected Cyber-Physical Production Systems (CPPSs), laying out the Fourth Industrial Revolution (Industry 4.0) [1], where man, product, and machine are fully interconnected across the whole value chain from the suppliers of the raw materials to the production plant and the front office This digitalization helps enhance the transparency of all production stages from the time when the order is dispatched until the end of life of the product. The third layer, which sits on the top of the Field- and Process-Area Networks in the functional hierarchy model of Figure 1 (Level 4) is referred to as the Business-Area Network, which exploits an Enterprise Resource Planning (ERP) system for the integration and optimization of business processes, including inventory and human resource management, accounting, order processing, and customer relationship management [16,24]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
