A Survey on Trustworthiness for the Internet of Things

Ribeiro, Franklin Magalhães; Kamienski, Carlos

doi:10.1109/access.2021.3066457

Cited by 30 publications

(6 citation statements)

References 146 publications

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“…[13] Smart irrigation Wireless sensor network, sensor node, and irrigation [8] Pest control For pest monitoring, IoT and deep learning with global and local features are used. [12] Leaf area index synthetic aperture radar (SAR) images Air Quality Monitoring [46] Detecting Water contamination IoT and machine learning [48] Monitoring Water quality IoT with smart sensors [30] Investigation of Water contamination Big data and SVM [27] Lagoon water Machine learning and image analysis [30] Water quality Neural network [24] Indoor air quality IoT, LoRaWAN [7] Intelligent air quality system UV light, AI and sensors [16] Air quality characterization Heterogeneous sensors, AI [25] Air pollution Gas sensors [4] CO2 monitoring IoT and cloud technologies…”

Section: Literature Reviewmentioning

confidence: 99%

“…The advancement of IoT technology in agriculture operations has enabled the use of sensors at every stage of the agricultural process, such as how much time and resources a seed requires to mature into a completely grown crop. Every object that can be operated over the internet is referred to as a device [4]. Wearable IoWT (Internet of Wearable Things) gadgets like smart watches and home management solutions like Google Home have made IoT devices very popular in consumer markets [5].…”

Section: Introductionmentioning

confidence: 99%

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A User-Centered Security Approach to Create an IoT based Multi-Layered Fog-Cloud Architecture for Data Optimization in Raised Bed Farming

Raghu¹,

Jayaramaan²,

Jayaraman³

et al. 2022

IJSSE

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Cloud Computing and Internet of Things (IoT) are popularly intertwined to create a network of smart systems, especially in the field of Agriculture. As agricultural industries rise, augmented use of heterogeneous communication and sensing on the field would be needed. For all this data to be transferred and processed on the cloud efficiently, low latency rates, consistently high bandwidths, minimal congestion, etc. would be needed, which, is still a complication with the current cloud computing models. This paper proposes a multi-layered fog architecture that detects outliers in the data received from the sensing environment based on three categories: Classification, Isolation, and Clustering and then aggregates it before sending it to the cloud. The architecture works closely in a user-centered design approach that connects the farmers and analysts to the fog allowing them to create an automated agricultural system. With the help of Fog, processing abilities are brought closer to the data source which reduces the load on cloud resources, thereby making the overall system a lot more efficient and secured. This paper also presents a prototype of the interface that can be used to monitor and control IoT devices on the field as well as define fuzzy rules for the agricultural system.

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Section: Literature Reviewmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A User-Centered Security Approach to Create an IoT based Multi-Layered Fog-Cloud Architecture for Data Optimization in Raised Bed Farming

Raghu¹,

Jayaramaan²,

Jayaraman³

et al. 2022

IJSSE

View full text Add to dashboard Cite

show abstract

“…Wireless sensor networks, smart grids, and some IoT devices are examples of CPSs [47]. Even though there is no consensus in the literature to define the trustworthiness property and its scope [48], we can define a CPS's trustworthiness, in general terms, as the property of behaving as expected under adversarial conditions [47]. Network malfunction, Byzantine errors, and faulty nodes are examples of adverse conditions that can affect a system's trustworthiness.…”

Section: Trustworthiness In Cyber Physical Systemsmentioning

confidence: 99%

“…Network malfunction, Byzantine errors, and faulty nodes are examples of adverse conditions that can affect a system's trustworthiness. Some authors limit this definition to system security issues only [49], while others propose a broader scope and relate trustworthiness with other terms such as resilience, availability, reliability, scalability, maintainability, heterogeneity, data quality, hardware resources, and fault management policies [48]. We can find many approaches to measuring or providing trustworthiness in literature, referring to different elements.…”

Section: Trustworthiness In Cyber Physical Systemsmentioning

confidence: 99%

DTN Trustworthiness for Permafrost Telemetry IoT Network

2021

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The SHETLAND-NET research project aims to build an Internet of Things (IoT) telemetry service in Antarctica to automatize the data collection of permafrost research studies on interconnecting remote wireless sensor networks (WSNs) through near vertical incidence skywave (NVIS) long fat networks (LFN). The proposed architecture presents some properties from challenging networks that require the use of delay tolerant networking (DTN) opportunistic techniques that send the collected data during the night as a bulk data transfer whenever a link comes available. This process might result in network congestion and packet loss. This is a complex architecture that demands a thorough assessment of the solution’s viability and an analysis of the transport protocols in order to find the option which best suits the use case to achieve superior trustworthiness in network congestion situations. A heterogeneous layer-based model is used to measure and improve the trustworthiness of the service. The scenario and different transport protocols are modeled to be compared, and the system’s trustworthiness is assessed through simulations.

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“…The original concept of dependability can be briefly described as the capability of a system to provide users with trusted, reasonable, reliable, and correct services, or, in other words, the ability to ensure continuous and uninterrupted provision of critical services. 19 In Junior and Kamienski, 20 it is attributed by the authors that the two terms Dependability and Trustworthiness refer to the same concept that explains that the trustworthiness of IoT systems is largely determined by their ability to adapt and respond to what vulnerability flaws are present during their operational cycles. Based on a brief review of the current state of research, it can be concluded that the term Dependability is often restricted to the study of security performance in dealing with malicious network attacks under IoV scenarios.…”

Section: Introductionmentioning

confidence: 99%

Joint timeliness and security provisioning for enhancement of dependability in Internet of Vehicle system

Jing

Wang

et al. 2022

International Journal of Distributed Sensor Networks

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The Internet of Things has emerged as a wonder-solution to numerous problems in our everyday lives, such as smart homes and intelligent transportation. As an extension of the IoTs, the Internet of Vehicles (IoVs) also requires increasingly high security and timeliness. This article proposes a vehicle-assisted batch verification (VABV) system for IoV, in which some vehicles called auxiliary authentication terminal (AAT) are selected to assist the roadside unit for Basic Safety Message (BSM) verification. As a measure to enhance the timeliness performance for system dependability, comprehensive AAT selection strategies are designed. To overcome the security weaknesses of VABV system, a Sybil detection scheme based on Extreme Learning Machine is developed. For the evaluation of VABV system, the quantified Age of Information (AoI) is used as an integrated timeliness and security indicator. The proposed AoI indicator synthesizes the effects of BSM verification, re-verification for failure of some AATs, Sybil attack, and Sybil detection scheme. As illustrated by the simulation results, by employing AoI as a performance evaluation indicator, we can better and more intuitively design an AAT optimal selection strategy based on changes in AoI. Simultaneously, the performance of the proposed Sybil detection scheme can be evaluated more intuitively and effectively under different IoV scenarios based on AoI.

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A Survey on Trustworthiness for the Internet of Things

Cited by 30 publications

References 146 publications

A User-Centered Security Approach to Create an IoT based Multi-Layered Fog-Cloud Architecture for Data Optimization in Raised Bed Farming

A User-Centered Security Approach to Create an IoT based Multi-Layered Fog-Cloud Architecture for Data Optimization in Raised Bed Farming

DTN Trustworthiness for Permafrost Telemetry IoT Network

Joint timeliness and security provisioning for enhancement of dependability in Internet of Vehicle system

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