Cyber Security trends in Internet, classification and analysis of Network Attacks

Cyber Security trends in Internet, classification and analysis of Network Attacks

Authors

  • Parimalkumar P Patel

Keywords:

Internet of Things, Lightweight IoT protocols and standards, IoT network security models

Abstract

The Internet of Things (IoT) is a network of embedded objects with individually identifiable identifiers and embedded software necessary for transient state communication. This study's goal is to examine specific IoT security issues relating to IoT standards and protocols that are currently in use. In this paper, we have provided a thorough evaluation that focuses on the impending security issues with IoT, identifying the hazards associated with the current IoT system, new security protocols, and security projects proposed in recent years. In the protocols and standards proposed for the upcoming IoT systems, this work gives an updated review of the IoT architecture. In accordance with IoT security needs, a comparative analysis of protocols, standards, and offered security models is presented. This study highlights the necessity of uniformity at the communication and data audit level because failing to do so exposes the hardware, software, and data to a variety of dangers and attacks. Our work demonstrates the necessity for methods that are capable of being applied to several threat vectors. This paper gives readers a glimpse into the most recent security research trends, which will help IoT security advance. By incorporating the best security features of IoT-based devices, the study outputs can benefit the IoT research community.

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References

Ashton K (2009) That Internet of Things thing. RFID J 22:97–114

Wan J, Tang S, Shu Z, Li D, Wang S, Imran M, Vasilakos AV (2016) Software-defned industrial internet of things in the context of industry. IEEE Sens J 16(20):7373–7380

Mavrogiorgou A, Kiourtis A, Perakis K, Pitsios S, Kyriazis D (2019) IoT in healthcare: achieving interoperability of high-quality data acquired by IoT medical devices. Sensors 19(9):1978

Lemayian JP, Al-Turjman F (2019) Intelligent IoT communication in smart environments: an overview. In: Artifcial Intelligence in IoT. Springer, Cham, pp 207–221

Mukhandi M, David P, Pereira S, and MS Couceiro (2019) A novel solution for securing robot communications based on the MQTT protocol and ROS. In: IEEE/SICE International Symposium on System Integration (SII), pp 608–613

Rutten E, Marchand N, Simon D (2017) Feedback control as MAPE-K loop in autonomic computing. Software engineering for self-adaptive systems III Assurances. Springer, Cham, pp 349–373

Sinh D, Le LV, Lin BSP, Tung LP (2018) SDN/NFV—a new approach of deploying network infrastructure for IoT. In: Wireless and optical communication conference (WOCC), IEEE, 27th, pp 1–5

Safkhani M, Bagheri N (2017) Passive secret disclosure attack on an ultralightweight authentication protocol for internet of things. J Supercomput 73(8):3579–3585

Coman FL, Malarski KM, Petersen MN, Ruepp S (2019) Security issues in internet of things: Vulnerability analysis of LoRaWAN, sigfox and NB-IoT. In: 2019 Global IoT Summit (GIoTS), IEEE, pp 1–6

Sidorov M, Ong MT, Sridharan RV, Nakamura J, Ohmura R, Khor JH (2019) Ultralightweight mutual authentication RFID protocol for blockchain enabled supply chains. IEEE Access 7:7273–7285

Alam S, Siddiqui ST, Ahmad A, Ahmad R, Shuaib M (2020) Internet of Things (IoT) enabling technologies, requirements, and security challenges. Advances in data and information sciences. Springer, Singapore, pp 119–126

Wang Li, Dinghao Wu (2019) Bridging the gap between security tools and SDN controllers. ICST Trans Secur Saf 5(17):156242

Urla PA, Mohan G, Tyagi S, Pai SN (2019) A novel approach for security of data in IoT environment. In: Computing and network sustainability. Springer, Singaporem, pp 251–259

Abdul-Ghani Hezam A, Konstantas D, Mahyoub M (2018) A comprehensive IoT attacks survey based on a building-blocked reference model. Int J Adv Comput Sci Appl 9:355–373

Sharma K, Bhatt S (2019) SQL injection attacks-a systematic review. Int J Inf Comput Secur 11(4–5):493–509

Jaiswal S, D Gupta (2017) Security requirements for internet of things (IoT). In: Proceedings of International Conference on Communication and Networks, Springer, Singapore, pp 419–427

Radanliev P, De Roure DC, Nurse JRC, Montalvo RM, Cannady S, Santos O, Burnap P, Maple C (2020) Future developments in standardisation of cyber risk in the Internet of Things (IoT). SN Appl Sci 2(2):169

Sood K, Shui Yu, Xiang Y (2016) Software-defned wireless networking opportunities and challenges for Internet-of-Things: A review. IEEE Internet Things J 3(4):453–463

Li Y, Chen M (2015) Software-defned network function virtualization: a survey. IEEE Access 3:2542–2553

Bhattacharjya A, Zhong X, Wang J, and Li X (2019) Security challenges and concerns of Internet of Things (IoT). In: Cyber-Physical Systems: architecture, security and application, Springer, Cham, pp 153–185

Capellupo M, Liranzo J, Bhuiyan MZA, Hayajneh T, Wang G (2017) Security and attack vector analysis of IoT devices. In: International Conference on Security, Privacy and Anonymity in Computation, Communication and Storage, Springer, Cham, pp 593–606

Vervier PA, Shen Y (2018) Before toasters rise up: a view into the emerging iot threat landscape. In: International Symposium on Research in Attacks, Intrusions, and Defenses, Springer, Cham, pp 556–576

https://www.statista.com/statistics/471264/iot-number-ofconnected-devices-worldwide/

Wang K-H, Chen C-M, Fang W, Tsu-Yang Wu (2018) On the security of a new ultra-lightweight authentication protocol in IoT environment for RFID tags. J Supercomput 74(1):65–70

Singh S, Sharma PK, Moon SY, Park JH (2017) Advanced lightweight encryption algorithms for IoT devices: survey, challenges and solutions. J Ambient Intell Humaniz Comput. https://doi. org/10.1007/s12652-017-0494-4

Grooby S, Dargahi T, Dehghantanha A (2019) A bibliometric analysis of authentication and access control in IoT devices. Handbook of big data and IoT security. Springer, Cham, pp 25–51

Atlam HF, Wills GB (2020) IoT security, privacy, safety and ethics. Digital twin technologies and smart cities. Springer, Cham, pp 123–149

Bembe M, Abu-Mahfouz A, Masonta M, Ngqondi T (2019) A survey on low-power wide area networks for IoT applications. Telecommun Syst 71(2):249–274

Shamsoshoara A, Korenda A, Afghah F, Zeadally S (2019) A survey on hardware-based security mechanisms for internet of things. arXiv preprint

Zhang X, Wen F (2019) An novel anonymous user WSN authentication for Internet of Things. Soft Comput 23(14):5683–5691

Alshehri MD, Hussain FK (2019) A fuzzy security protocol for trust management in the internet of things (Fuzzy-IoT). Computing 101(7):791–818

Singh P S, and V Khanna (2019) A MFCC based Novel approach of User Authentication in IOT. In: 2nd International Conference on Emerging Trends in Engineering and Applied Science, ISSN: 2454-4248, 5(1)

Chen H, Meng C, Shan Z, Zhongchuan Fu, Bhargava BK (2019) A Novel low-rate denial of service attack detection approach in ZigBee wireless sensor network by combining Hilbert-Huang transformation and trust evaluation. IEEE Access 7:32853–32866

Aldaej A (2019) Enhancing cyber security in modern Internet of things (IoT) using intrusion prevention algorithm for IoT (IPAI). IEEE Access. https://doi.org/10.1109/ACCESS.2019.2893445

Roesch M (1999) Snort: lightweight intrusion detection for networks. In: 13th Systems Administration Conference on LISA, pp 229–238

(OISF), Open information security foundation: Suricata. https:// suricata-ids.org/

Paxson V (1999) Bro: a system for detecting network intruders in real-time. Comput Netw 31(23–24):2435–2463

Collen A, Nijdam NA, Augusto-Gonzalez J, Katsikas SK, Giannoutakis KM, Spathoulas G, Gelenbe E, Votis K, Tzovaras D, Ghavami N, Volkamer M (2018) Ghost-safe-guarding home IoT environments with personalised real-time risk control. International ISCIS Security Workshop. Springer, Cham, pp 68–78

Gubbi J, Buyya R, Marusic S, Palaniswami M (2013) Internet of Things (IoT): a vision, architectural elements, and future directions. Futur Gener Comput Syst 29(7):1645–1660

Gresak E, Voznak M (2018). Protecting gateway from abp replay attack on lorawan. In: International Conference on Advanced Engineering Theory and Applications, Springer, Cham, pp 400–408

Pallavi S, Anantha Narayanan V (2019) An overview of practical attacks on BLE Based IOT devices and their security. In: 2019 5th International Conference on Advanced Computing and Communication Systems (ICACCS), IEEE, pp 694–698

Hunkeler U, Truong H L, Stanford-Clark A (2008) MQTT-S— A publish/subscribe protocol for Wireless Sensor Networks. In: 2008 3rd International Conference on Communication Systems Software and Middleware and Workshops (COMSWARE’08), IEEE, pp 791–798

McAteer IN, Malik MI, Baig Z, Hannay P (2017) Security vulnerabilities and cyber threat analysis of the AMQP protocol for the internet of things. In: Valli C (Ed). The Proceedings of 15th Australian Information Security Management Conference, 5–6 December 2017, Edith Cowan University, Perth, Western Australia, pp 70–80

Randhawa RH, Hameed A, Mian AN (2019) Energy efficient cross-layer approach for object security of CoAP for IoT devices. Ad Hoc Netw 92:101761

Beckman K, Reininger J (2018) Adaptation of the DDS security standard for resource-constrained sensor networks. In: 2018 IEEE 13th International Symposium on Industrial Embedded Systems (SIES), IEEE, pp 1–4

Sethia D, Gupta D, Saran H (2018) NFC secure element-based mutual authentication and attestation for IoT access. IEEE Trans Consum Electron 64(4):470–479

Li S, Da Li X, Zhao S (2018) 5G Internet of Things: a survey. J Ind Inf Integr 10:1–9

Arfaoui G, Bisson P, Blom R, Borgaonkar R, Englund H, Félix E, Klaedtke F, Nakarmi PK, Näslund M, O’Hanlon P, Papay J, Suomalainen J, Surridge M, Wary JP, Zahariev ANDA (2018) A security architecture for 5G networks. IEEE Access 6:22466–22479

Mohanty SN, Ramya KC, Sheeba Rani S, Gupta D, Shankar K, Lakshmanaprabu SK, Khanna A (2020) An efcient lightweight integrated blockchain (ELIB) model for IoT security and privacy. Futur Gener Comput Syst 102:1027–1037

Chatterjee S, Mukherjee R, Ghosh S, Ghosh D, Ghosh S, Mukherjee A (2017) Internet of Things and cognitive radio—Issues and challenges. In: 2017 4th International Conference on OptoElectronics and Applied Optics (Optronix), IEEE, pp 1–4

T Leppänen, J Riekki, M Liu, E Harjula, T Ojala (2014) Mobile agents-based smart objects for the internet of things. In: Internet of Things Based on Smart Objects. Springer, Cham, pp 29–48

Ahmad M, Younis T, Habib MA, Ashraf R, Ahmed SH (2019) A review of current security issues in Internet of Things. Recent trends and advances in wireless and IoT-enabled networks. Springer, Cham, pp 11–23

Dabbagh M, Rayes A (2019) Internet of Things security and privacy. Internet of Things from hype to reality. Springer, Cham, pp 211–238

A Soni, R Upadhyay, A Jain (2017) Internet of Things and wireless physical layer security: a survey. In: Computer Communication Networking and Internet Security Springer, Singapore, pp 115–123

Yıldırım G, Tatar Y (2017) On WSN heterogeneity in IoT and CPSs. In: 2017 International Conference on Computer Science and Engineering (UBMK), IEEE, pp 1020–1024

Hou J, Leilei Qu, Shi W (2019) A survey on internet of things security from data perspectives. Comput Netw 148:295–306

Xu H, Sgandurra D, Mayes K, Li P, Wang R (2017) Analysing the resilience of the internet of things against physical and proximity attacks. In: International Conference on Security, Privacy and Anonymity in Computation, Communication and Storage, Springer, Cham, pp 291–301

Salim MM, Rathore S, Park JH (2019) Distributed denial of service attacks and its defenses in IoT: a survey. J Supercomput. https:// doi.org/10.1007/s11227-019-02945-z

Stiawan D, Idris M, Malik RF, Nurmaini S, Alsharif N, Budiarto R (2019) Investigating Brute Force attack patterns in IoT network. J Electr Comput Eng. https://doi.org/10.1155/2019/4568368

Shen H, Shen J, Khan MK, Lee J-H (2017) Efcient RFID authentication using elliptic curve cryptography for the internet of things. Wireless Pers Commun 96(4):5253–5266

Na SJ, Hwang DY, Shin WS, Kim KH (2017) Scenario and countermeasure for replay attack using join request messages in lorawan, In: 2017 International Conference on Information Networking (ICOIN), pp 718–720

Om Kumar CU, Bhama PRKS (2019) Detecting and confronting fash attacks from IoT botnets. J Supercomput 75(12):8312–8338

Flauzac O, Gonzalez C, Nolot F (2016) Developing a distributed software defned networking testbed for IoT. Procedia Comput Sci 83:680–684

Additional Files

Published

10-12-2020

How to Cite

Parimalkumar P Patel. (2020). Cyber Security trends in Internet, classification and analysis of Network Attacks. Vidhyayana - An International Multidisciplinary Peer-Reviewed E-Journal - ISSN 2454-8596, 6(3). Retrieved from http://vidhyayanaejournal.org/journal/article/view/457
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