A Survey on Industrial Internet of Things: A Cyber-Physical Systems Perspective

The vision of Industry 4.0, otherwise known as the fourth industrial revolution, is the integration of massively deployed smart computing and network technologies in industrial production and manufacturing settings for the purposes of automation, reliability, and control, implicating the development of an Industrial Internet of Things (I-IoT). Specifically, I-IoT is devoted to adopting the IoT to enable the interconnection of anything, anywhere, and at any time in the manufacturing system context to improve the productivity, efficiency, safety, and intelligence. As an emerging technology, I-IoT has distinct properties and requirements that distinguish it from consumer IoT, including the unique types of smart devices incorporated, network technologies and quality-of-service requirements, and strict needs of command and control. To more clearly understand the complexities of I-IoT and its distinct needs and to present a unified assessment of the technology from a systems’ perspective, in this paper, we comprehensively survey the body of existing research on I-IoT. Particularly, we first present the I-IoT architecture, I-IoT applications (i.e., factory automation and process automation), and their characteristics. We then consider existing research efforts from the three key system aspects of control, networking, and computing. Regarding control, we first categorize industrial control systems and then present recent and relevant research efforts. Next, considering networking, we propose a three-dimensional framework to explore the existing research space and investigate the adoption of some representative networking technologies, including 5G, machine-to-machine communication, and software-defined networking. Similarly, concerning computing, we again propose a second three-dimensional framework that explores the problem space of computing in I-IoT and investigate the cloud, edge, and hybrid cloud and edge computing platforms. Finally, we outline particular challenges and future research needs in control, networking, and computing systems, as well as for the adoption of machine learning in an I-IoT context.

[1]  Xinyu Yang,et al.  A Real-Time En-Route Route Guidance Decision Scheme for Transportation-Based Cyberphysical Systems , 2017, IEEE Transactions on Vehicular Technology.

[2]  Chenyang Lu,et al.  Real-Time Wireless Routing for Industrial Internet of Things , 2018, 2018 IEEE/ACM Third International Conference on Internet-of-Things Design and Implementation (IoTDI).

[3]  Xinyu Yang,et al.  A Survey on the Edge Computing for the Internet of Things , 2018, IEEE Access.

[4]  Ted H. Szymanski,et al.  Securing the Industrial-Tactile Internet of Things With Deterministic Silicon Photonics Switches , 2016, IEEE Access.

[5]  Sergio Barbarossa,et al.  Joint Optimization of Radio and Computational Resources for Multicell Mobile-Edge Computing , 2014, IEEE Transactions on Signal and Information Processing over Networks.

[6]  Yonghui Song,et al.  A New Deep-Q-Learning-Based Transmission Scheduling Mechanism for the Cognitive Internet of Things , 2018, IEEE Internet of Things Journal.

[7]  Qingyu Yang,et al.  Towards statistical modeling and machine learning based energy usage forecasting in smart grid , 2015, SIAP.

[8]  Patrick D. McDaniel,et al.  Sensitive Information Tracking in Commodity IoT , 2018, USENIX Security Symposium.

[9]  Hong Yang,et al.  Massive MIMO for Industrial Internet of Things in Cyber-Physical Systems , 2018, IEEE Transactions on Industrial Informatics.

[10]  Miao Yun,et al.  Research on the architecture and key technology of Internet of Things (IoT) applied on smart grid , 2010, 2010 International Conference on Advances in Energy Engineering.

[11]  Lifeng Zhou,et al.  Industry 4.0: Towards future industrial opportunities and challenges , 2015, 2015 12th International Conference on Fuzzy Systems and Knowledge Discovery (FSKD).

[12]  Tingting Zhang,et al.  Combining Fog Computing with Sensor Mote Machine Learning for Industrial IoT , 2018, Sensors.

[13]  Peng Li,et al.  Deep Convolutional Computation Model for Feature Learning on Big Data in Internet of Things , 2018, IEEE Transactions on Industrial Informatics.

[14]  Henrik Klessig,et al.  Requirements and current solutions of wireless communication in industrial automation , 2014, 2014 IEEE International Conference on Communications Workshops (ICC).

[15]  Ching-Hsien Hsu,et al.  Optimizing M2M Communications and Quality of Services in the IoT for Sustainable Smart Cities , 2018, IEEE Transactions on Sustainable Computing.

[16]  Li-Der Chou,et al.  A Lightweight Autoscaling Mechanism for Fog Computing in Industrial Applications , 2018, IEEE Transactions on Industrial Informatics.

[17]  Jaime Lloret,et al.  Network Traffic Classifier With Convolutional and Recurrent Neural Networks for Internet of Things , 2017, IEEE Access.

[18]  Juergen Jasperneite,et al.  The Future of Industrial Communication: Automation Networks in the Era of the Internet of Things and Industry 4.0 , 2017, IEEE Industrial Electronics Magazine.

[19]  M. Shamim Hossain,et al.  Cloud-assisted Industrial Internet of Things (IIoT) - Enabled framework for health monitoring , 2016, Comput. Networks.

[20]  Dusit Niyato,et al.  Social Welfare Maximization Auction in Edge Computing Resource Allocation for Mobile Blockchain , 2017, 2018 IEEE International Conference on Communications (ICC).

[21]  Wu He,et al.  Internet of Things in Industries: A Survey , 2014, IEEE Transactions on Industrial Informatics.

[22]  Tai C Yang,et al.  Networked control system: a brief survey , 2006 .

[23]  Wei Yu,et al.  On False Data-Injection Attacks against Power System State Estimation: Modeling and Countermeasures , 2014, IEEE Transactions on Parallel and Distributed Systems.

[24]  Jianhui Wang,et al.  Networked Microgrids for Self-Healing Power Systems , 2016, IEEE Transactions on Smart Grid.

[25]  Chao Gao,et al.  Security Vulnerabilities of Internet of Things: A Case Study of the Smart Plug System , 2017, IEEE Internet of Things Journal.

[26]  Haibin Zhang,et al.  Double Auction-Based Resource Allocation for Mobile Edge Computing in Industrial Internet of Things , 2018, IEEE Transactions on Industrial Informatics.

[27]  Panos M. Pardalos,et al.  Pareto-based multi-objective node placement of industrial wireless sensor networks using binary differential evolution harmony search , 2016, Advances in Manufacturing.

[28]  Xinwen Fu,et al.  A Survey on Big Data Market: Pricing, Trading and Protection , 2018, IEEE Access.

[29]  Christian P. Robert,et al.  Machine Learning, a Probabilistic Perspective , 2014 .

[30]  Ludovic Piètre-Cambacédès,et al.  A survey of approaches combining safety and security for industrial control systems , 2015, Reliab. Eng. Syst. Saf..

[31]  Sandra Sendra,et al.  Integration of LoRaWAN and 4G/5G for the Industrial Internet of Things , 2018, IEEE Communications Magazine.

[32]  Jaeho Kim,et al.  M2M Service Platforms: Survey, Issues, and Enabling Technologies , 2014, IEEE Communications Surveys & Tutorials.

[33]  Haider Abbas,et al.  Cloud-Assisted IoT-Based SCADA Systems Security: A Review of the State of the Art and Future Challenges , 2016, IEEE Access.

[34]  Fei Tao,et al.  CCIoT-CMfg: Cloud Computing and Internet of Things-Based Cloud Manufacturing Service System , 2014, IEEE Transactions on Industrial Informatics.

[35]  Xun Xu,et al.  From cloud computing to cloud manufacturing , 2012 .

[36]  Zhongfeng Wang,et al.  A heterogeneous large-scale parallel SCADA/DCS architecture in 5G OGCE , 2017, 2017 10th International Congress on Image and Signal Processing, BioMedical Engineering and Informatics (CISP-BMEI).

[37]  Nada Golmie,et al.  A Deep Learning-Based Weather Forecast System for Data Volume and Recency Analysis , 2019, 2019 International Conference on Computing, Networking and Communications (ICNC).

[38]  Ali Vatankhah Barenji,et al.  A multi-agent RFID-enabled distributed control system for a flexible manufacturing shop , 2014 .

[39]  George Lu,et al.  IoT AND SMART INFRASTRUCTURE , 2016 .

[40]  Ahmad-Reza Sadeghi,et al.  Security analysis on consumer and industrial IoT devices , 2016, 2016 21st Asia and South Pacific Design Automation Conference (ASP-DAC).

[41]  Teruo Higashino,et al.  Edge-centric Computing: Vision and Challenges , 2015, CCRV.

[42]  Vijay K. Bhargava,et al.  Price-Based Resource Allocation for Edge Computing: A Market Equilibrium Approach , 2018, IEEE Transactions on Cloud Computing.

[43]  Nada Golmie,et al.  Ultra-Dense Networks: Survey of State of the Art and Future Directions , 2016, 2016 25th International Conference on Computer Communication and Networks (ICCCN).

[44]  Jianjun Yu,et al.  Research and Application on the Smart Home Based on Component Technologies and Internet of Things , 2011 .

[45]  Lida Xu,et al.  Internet of Things for Enterprise Systems of Modern Manufacturing , 2014, IEEE Transactions on Industrial Informatics.

[46]  Xi Jin,et al.  Scheduling for heterogeneous industrial networks based on NB-IoT technology , 2017, IECON 2017 - 43rd Annual Conference of the IEEE Industrial Electronics Society.

[47]  Hsiao-Hwa Chen,et al.  Radio Resource Management in Machine-to-Machine Communications—A Survey , 2018, IEEE Communications Surveys & Tutorials.

[48]  Fabrizio Granelli,et al.  Software defined and virtualized wireless access in future wireless networks: scenarios and standards , 2015, IEEE Communications Magazine.

[49]  Jürgen Jasperneite,et al.  Analysis of realizing a future industrial network by means of Software-Defined Networking (SDN) , 2016, 2016 IEEE World Conference on Factory Communication Systems (WFCS).

[50]  Mohsen Guizani,et al.  Edge Computing in the Industrial Internet of Things Environment: Software-Defined-Networks-Based Edge-Cloud Interplay , 2018, IEEE Communications Magazine.

[51]  Xin Wang,et al.  Machine Learning for Networking: Workflow, Advances and Opportunities , 2017, IEEE Network.

[52]  Xiaomin Li,et al.  Efficient Deployment of Key Nodes for Optimal Coverage of Industrial Mobile Wireless Networks , 2018, Sensors.

[53]  Zhibo Pang,et al.  Ultra High Performance Wireless Control for Critical Applications: Challenges and Directions , 2017, IEEE Transactions on Industrial Informatics.

[54]  Tianyou Chai,et al.  Data-Driven Abnormal Condition Identification and Self-Healing Control System for Fused Magnesium Furnace , 2015, IEEE Transactions on Industrial Electronics.

[55]  Bin Song,et al.  A Fast Feature Fusion Algorithm in Image Classification for Cyber Physical Systems , 2017, IEEE Access.

[56]  Reza Nejabati,et al.  Isolating SDN control traffic with layer-2 slicing in 6TiSCH industrial IoT networks , 2018, 2017 IEEE Conference on Network Function Virtualization and Software Defined Networks (NFV-SDN).

[57]  Choong Seon Hong,et al.  Decentralized Computation Offloading and Resource Allocation in Heterogeneous Networks with Mobile Edge Computing , 2018, ArXiv.

[58]  Lei Shu,et al.  Challenges and Research Issues of Data Management in IoT for Large-Scale Petrochemical Plants , 2018, IEEE Systems Journal.

[59]  Jay Lee,et al.  Industrial Big Data Analytics and Cyber-physical Systems for Future Maintenance & Service Innovation , 2015 .

[60]  Peng Li,et al.  An Adaptive Dropout Deep Computation Model for Industrial IoT Big Data Learning With Crowdsourcing to Cloud Computing , 2019, IEEE Transactions on Industrial Informatics.

[61]  Rainer Drath,et al.  Industrie 4.0: Hit or Hype? [Industry Forum] , 2014, IEEE Industrial Electronics Magazine.

[62]  Tianyou Chai,et al.  Intelligence-Based Supervisory Control for Optimal Operation of a DCS-Controlled Grinding System , 2013, IEEE Transactions on Control Systems Technology.

[63]  Jiafu Wan,et al.  Adaptive Transmission Optimization in SDN-Based Industrial Internet of Things With Edge Computing , 2018, IEEE Internet of Things Journal.

[64]  Yun Liu,et al.  Secure Data Storage and Searching for Industrial IoT by Integrating Fog Computing and Cloud Computing , 2018, IEEE Transactions on Industrial Informatics.

[65]  Zhibo Pang,et al.  Physical Layer Design of High-Performance Wireless Transmission for Critical Control Applications , 2017, IEEE Transactions on Industrial Informatics.

[66]  Wei Yu,et al.  A cloud computing based architecture for cyber security situation awareness , 2013, 2013 IEEE Conference on Communications and Network Security (CNS).

[67]  Marimuthu Palaniswami,et al.  Internet of Things (IoT): A vision, architectural elements, and future directions , 2012, Future Gener. Comput. Syst..

[68]  Jiann-Liang Chen,et al.  SDN-enabled network virtualization for industry 4.0 based on IoTs and cloud computing , 2017, 2017 19th International Conference on Advanced Communication Technology (ICACT).

[69]  Kazi Mohammed Saidul Huq,et al.  Space-Reserved Cooperative Caching in 5G Heterogeneous Networks for Industrial IoT , 2018, IEEE Transactions on Industrial Informatics.

[70]  Ejaz Ahmed,et al.  Big Data Analytics in Industrial IoT Using a Concentric Computing Model , 2018, IEEE Communications Magazine.

[71]  Zhu Han,et al.  Machine Learning Paradigms for Next-Generation Wireless Networks , 2017, IEEE Wireless Communications.

[72]  Young-Gab Kim,et al.  Secure IoT Platform for Industrial Control Systems , 2017, 2017 International Conference on Platform Technology and Service (PlatCon).

[73]  Mohamed I. El-Hawwary,et al.  Implementation of fractional-order PID controller in an industrial distributed control system , 2017, 2017 14th International Multi-Conference on Systems, Signals & Devices (SSD).

[74]  Mohsen Guizani,et al.  Deep Learning for IoT Big Data and Streaming Analytics: A Survey , 2017, IEEE Communications Surveys & Tutorials.

[75]  Kevin Leahy,et al.  An industrial big data pipeline for data-driven analytics maintenance applications in large-scale smart manufacturing facilities , 2015, Journal of Big Data.

[76]  Joel J. P. C. Rodrigues,et al.  SDN-Enabled Multi-Attribute-Based Secure Communication for Smart Grid in IIoT Environment , 2018, IEEE Transactions on Industrial Informatics.

[77]  Ahmad-Reza Sadeghi,et al.  Security and privacy challenges in industrial Internet of Things , 2015, 2015 52nd ACM/EDAC/IEEE Design Automation Conference (DAC).

[78]  Amit P. Sheth,et al.  On Using the Intelligent Edge for IoT Analytics , 2017, IEEE Intelligent Systems.

[79]  Wei Chen,et al.  A Mobile Cloud Based Scheduling Strategy for Industrial Internet of Things , 2018, IEEE Access.

[80]  Kun Yang,et al.  Ultra-low latency cloud-fog computing for industrial Internet of Things , 2018, 2018 IEEE Wireless Communications and Networking Conference (WCNC).

[81]  Weisong Shi,et al.  Edge Computing: Vision and Challenges , 2016, IEEE Internet of Things Journal.

[82]  Awais Ahmad,et al.  Efficient Graph-Oriented Smart Transportation Using Internet of Things Generated Big Data , 2015, 2015 11th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS).

[83]  Monica Roman,et al.  A distributed control system for processes in food industry: Architecture and implementation , 2018, 2018 19th International Carpathian Control Conference (ICCC).

[84]  Fernando A. Kuipers,et al.  SDN and Virtualization Solutions for the Internet of Things: A Survey , 2016, IEEE Access.

[85]  Ahmed Bensenouci,et al.  Monitoring the operation of transmission line in a smart grid system through IoT , 2018, 2018 15th Learning and Technology Conference (L&T).

[86]  Maria Rita Palattella,et al.  Using IEEE 802.15.4e Time-Slotted Channel Hopping (TSCH) in the Internet of Things (IoT): Problem Statement , 2015, RFC.

[87]  Laurence T. Yang,et al.  A Tensor-Train Deep Computation Model for Industry Informatics Big Data Feature Learning , 2018, IEEE Transactions on Industrial Informatics.

[88]  Shahid Mumtaz,et al.  Massive Internet of Things for Industrial Applications: Addressing Wireless IIoT Connectivity Challenges and Ecosystem Fragmentation , 2017, IEEE Industrial Electronics Magazine.

[89]  Erhan Guven,et al.  A Survey of Data Mining and Machine Learning Methods for Cyber Security Intrusion Detection , 2016, IEEE Communications Surveys & Tutorials.

[90]  John A. Stankovic,et al.  Research Directions for the Internet of Things , 2014, IEEE Internet of Things Journal.

[91]  Li Jun,et al.  Smart Home System Based on IOT Technologies , 2013, 2013 International Conference on Computational and Information Sciences.

[92]  Ming Ding,et al.  Promises and caveats of uplink IoT ultra-dense networks , 2018, 2018 IEEE Wireless Communications and Networking Conference (WCNC).

[93]  Yang Lu,et al.  Industry 4.0: A survey on technologies, applications and open research issues , 2017, J. Ind. Inf. Integr..

[94]  Riccardo Scattolini,et al.  Architectures for distributed and hierarchical Model Predictive Control - A review , 2009 .

[95]  Joongheon Kim,et al.  Internet of Things for Smart Manufacturing System: Trust Issues in Resource Allocation , 2018, IEEE Internet of Things Journal.

[96]  C. Siva Ram Murthy,et al.  A novel fairness-driven approach for heterogeneous gateways' link scheduling in IoT networks , 2017, 2017 IEEE International Conference on Communications (ICC).

[97]  Ming Xiao,et al.  Channel Coding for High Performance Wireless Control in Critical Applications: Survey and Analysis , 2018, IEEE Access.

[98]  Jay Lee,et al.  A Cyber-Physical Systems architecture for Industry 4.0-based manufacturing systems , 2015 .

[99]  David S. Linthicum,et al.  Responsive Data Architecture for the Internet of Things , 2016, Computer.

[100]  Stamatis Karnouskos,et al.  Architecting the next generation of service-based SCADA/DCS system of systems , 2011, IECON 2011 - 37th Annual Conference of the IEEE Industrial Electronics Society.

[101]  Nada Golmie,et al.  Modeling and Performance Assessment of Dynamic Rate Adaptation for M2M Communications , 2020, IEEE Transactions on Network Science and Engineering.

[102]  Tongwen Chen,et al.  False Data Injection Attacks on Networked Control Systems: A Stackelberg Game Analysis , 2018, IEEE Transactions on Automatic Control.

[103]  Gargi Bag,et al.  Challenges and opportunities of 5G in power grids , 2017 .

[104]  Jesus Alonso-Zarate,et al.  Is the Random Access Channel of LTE and LTE-A Suitable for M2M Communications? A Survey of Alternatives , 2014, IEEE Communications Surveys & Tutorials.

[105]  Andreas Seitz,et al.  Seamless Computing for Industrial Systems Spanning Cloud and Edge , 2017, 2017 International Conference on High Performance Computing & Simulation (HPCS).

[106]  Chenyang Lu,et al.  Wireless Routing and Control: A Cyber-Physical Case Study , 2016, 2016 ACM/IEEE 7th International Conference on Cyber-Physical Systems (ICCPS).

[107]  nbspK .Aparna Reddy,et al.  Securing IOT for Smart Home System , 2016 .

[108]  In Lee,et al.  The Internet of Things (IoT): Applications, investments, and challenges for enterprises , 2015 .

[109]  Xinyu Yang,et al.  On False Data Injection Attacks against Distributed Energy Routing in Smart Grid , 2012, 2012 IEEE/ACM Third International Conference on Cyber-Physical Systems.

[110]  Alagan Anpalagan,et al.  Industrial Internet of Things Driven by SDN Platform for Smart Grid Resiliency , 2019, IEEE Internet of Things Journal.

[111]  Xinyu Yang,et al.  A Survey on Internet of Things: Architecture, Enabling Technologies, Security and Privacy, and Applications , 2017, IEEE Internet of Things Journal.

[112]  H. Vincent Poor,et al.  BlackIoT: IoT Botnet of High Wattage Devices Can Disrupt the Power Grid , 2018, USENIX Security Symposium.

[113]  Emmanuel Oyekanlu Predictive edge computing for time series of industrial IoT and large scale critical infrastructure based on open-source software analytic of big data , 2017, 2017 IEEE International Conference on Big Data (Big Data).

[114]  Andrea Zanella,et al.  Long-range communications in unlicensed bands: the rising stars in the IoT and smart city scenarios , 2015, IEEE Wireless Communications.

[115]  Jianhua Li,et al.  Improving Energy Efficiency in Industrial Wireless Sensor Networks Using SDN and NFV , 2016, 2016 IEEE 83rd Vehicular Technology Conference (VTC Spring).

[116]  Madhusudan Singh,et al.  Implementation and analysis of PLC SCADA controlled closed loop four quadrant speed control of chopper fed DC motor , 2016, 2016 International Conference on Electrical Power and Energy Systems (ICEPES).

[117]  Karen A. Scarfone,et al.  Guide to Industrial Control Systems (ICS) Security , 2015 .

[118]  Dusit Niyato,et al.  Optimal Auction for Edge Computing Resource Management in Mobile Blockchain Networks: A Deep Learning Approach , 2017, 2018 IEEE International Conference on Communications (ICC).

[119]  อนิรุธ สืบสิงห์,et al.  Data Mining Practical Machine Learning Tools and Techniques , 2014 .

[120]  Jiangchuan Liu,et al.  When deep learning meets edge computing , 2017, 2017 IEEE 25th International Conference on Network Protocols (ICNP).

[121]  Catherine A. Remley,et al.  Guide to Industrial Wireless Systems Deployments , 2018 .

[122]  Paulo Leitão,et al.  Industrial automation based on cyber-physical systems technologies: Prototype implementations and challenges , 2016, Comput. Ind..

[123]  Ying Cui,et al.  2017 Energy-Efficient Resource Allocation for Cache-Assisted Mobile Edge Computing , 2017 .

[124]  Sergey Andreev,et al.  Caching-Aided Collaborative D2D Operation for Predictive Data Dissemination in Industrial IoT , 2018, IEEE Wireless Communications.

[125]  Jeffrey G. Andrews,et al.  What Will 5G Be? , 2014, IEEE Journal on Selected Areas in Communications.

[126]  Jin Zhang,et al.  A 3D Topology Optimization Scheme for M2M Communications , 2018, 2018 19th IEEE/ACIS International Conference on Software Engineering, Artificial Intelligence, Networking and Parallel/Distributed Computing (SNPD).

[127]  Mohamed Endi,et al.  Three-layer PLC/SCADA system Architecture in process automation and data monitoring , 2010, 2010 The 2nd International Conference on Computer and Automation Engineering (ICCAE).

[128]  Thierry Turletti,et al.  A Survey of Software-Defined Networking: Past, Present, and Future of Programmable Networks , 2014, IEEE Communications Surveys & Tutorials.

[129]  Fei Tao,et al.  IoT-Based Intelligent Perception and Access of Manufacturing Resource Toward Cloud Manufacturing , 2014, IEEE Transactions on Industrial Informatics.

[130]  Xiaohui Chang,et al.  A large-scale web QoS prediction scheme for the Industrial Internet of Things based on a kernel machine learning algorithm , 2016, Comput. Networks.

[131]  Lamine Mili,et al.  On the Definition of Cyber-Physical Resilience in Power Systems , 2015, ArXiv.

[132]  Lei Guo,et al.  Resilient Control of Networked Control System Under DoS Attacks: A Unified Game Approach , 2016, IEEE Transactions on Industrial Informatics.

[133]  Jianhui Wang,et al.  Self-Healing Resilient Distribution Systems Based on Sectionalization Into Microgrids , 2015, IEEE Transactions on Power Systems.

[134]  Fengjun Li,et al.  Cyber-Physical Systems Security—A Survey , 2017, IEEE Internet of Things Journal.

[135]  Chao Lu,et al.  Privacy-Preserving Auction for Big Data Trading Using Homomorphic Encryption , 2020, IEEE Transactions on Network Science and Engineering.

[136]  Ted H. Szymanski,et al.  Strengthening security and privacy in an ultra-dense green 5G Radio Access Network for the industrial and tactile Internet of Things , 2017, 2017 13th International Wireless Communications and Mobile Computing Conference (IWCMC).

[137]  Wei Yu,et al.  A cloud/edge computing streaming system for network traffic monitoring and threat detection , 2018, Int. J. Secur. Networks.

[138]  Lyes Khoukhi,et al.  Industrial IoT Data Scheduling Based on Hierarchical Fog Computing: A Key for Enabling Smart Factory , 2018, IEEE Transactions on Industrial Informatics.

[139]  Hwaiyu Geng SCADA FUNDAMENTALS AND APPLICATIONS IN THE IoT , 2017 .

[140]  Peng Ning,et al.  False data injection attacks against state estimation in electric power grids , 2011, TSEC.

[141]  Xinping Guan,et al.  5G Enabled Codesign of Energy-Efficient Transmission and Estimation for Industrial IoT Systems , 2018, IEEE Transactions on Industrial Informatics.

[142]  Hans-Georg Kemper,et al.  Application-Pull and Technology-Push as Driving Forces for the Fourth Industrial Revolution , 2014 .

[143]  Antonio Liotta,et al.  Big IoT data mining for real-time energy disaggregation in buildings , 2017, 2016 IEEE International Conference on Systems, Man, and Cybernetics (SMC).

[144]  Nada Golmie,et al.  Toward Integrating Distributed Energy Resources and Storage Devices in Smart Grid , 2017, IEEE Internet of Things Journal.

[145]  Wei Yu,et al.  A Survey of Deep Learning: Platforms, Applications and Emerging Research Trends , 2018, IEEE Access.

[146]  Yixin Chen,et al.  Real-Time Wireless Sensor-Actuator Networks for Industrial Cyber-Physical Systems , 2016, Proceedings of the IEEE.