Individual Environmental Risk Assessment and Management in Industry 4.0: An IoT-Based Model

Lemos, Janaína; Gaspar, Pedro Dinis; Lima, Tânia M.

doi:10.3390/asi5050088

Cited by 8 publications

(4 citation statements)

References 33 publications

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“…As mentioned earlier in this study, concerning tests, in [23], it is described how this technological solution was tested to check the functioning of the web application concerning employee registration, the full information path, which includes data acquisition from temperature/humidity and light sensors by ESP32, the sending of encrypted data over the Internet through the MQTT protocol, the processing of the data on the server, storage in InfluxDB, and display graphs in Grafana. The tests regarding the suitability of the hardware resources available on the server (memory, disk, and CPU) are described.…”

Section: Resultsmentioning

confidence: 99%

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A System for Individual Environmental Risk Assessment and Management with IoT Based on the Worker’s Health History

Lemos,

de Souza,

Falcetta

et al. 2024

Applied Sciences

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This paper presents a monitoring system to measure dust, noise, ultraviolet radiation, illuminance, temperature, and humidity and to check the presence of flammable gases—liquefied petroleum gas (LPG), propane, hydrogen, butane, methane, and carbon monoxide. The system is composed of monitoring devices, a server to process data received from the devices and that runs a web application for employers, and a mobile application for workers to check their exposure data. During employee registration, the health history of the worker concerning common diseases and symptoms related to the monitored agents must be informed. This information is analyzed through a set of predefined rules to generate alerts that the company can consider for planning professional activities to minimize exposure to risk agents. The tests presented in this work are focused on verifying the functionalities of the web interface for employee registration, especially regarding the provision of health information, the updating of this information, and the generation of corresponding alerts. At this stage, fictitious employee information was used. The results showed that the system adequately performs the proposed functionalities, and it was concluded that the solution is viable for testing in a work environment in the future stages of development. The innovative features of this study concern the correlation between workers’ health history and harmful agents to build suggestions and alerts to guide long-term OSH-related decisions.

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Section: Resultsmentioning

confidence: 99%

“…The architecture of the monitoring device and the web interface for recording employees of an early-stage version of the proposed system is described in Lemos et al [23]. At that stage, the monitoring device only had humidity, temperature, and illuminance sensors.…”

mentioning

confidence: 99%

A System for Individual Environmental Risk Assessment and Management with IoT Based on the Worker’s Health History

Lemos,

de Souza,

Falcetta

et al. 2024

Applied Sciences

Self Cite

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“…These devices incorporate biosensor systems that continually monitor physiological parameters such as heart rate, rhythm and skin temperature [39]. The exponential emergence of these technologies serves as invaluable tools for enhancing user performance, improving working conditions, monitoring and assessing risks, and for designing novel workspaces in industrial environments [40,41].…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Prototyping of a Sit-to-Stand Assisting Device

Rea,

Ruggiu,

Ottaviano

2024

Machines

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Assistive and rehabilitation technologies deal with solutions aiming at sustaining or enhancing individual’s capabilities and autonomy, thereby improving their overall welfare. In the framework of devices developed for daily life activities, we focus our attention on Sit-to-Stand (STS) devices, by proposing an innovative solution based on a mechanism that has been synthesized, designed, built and tested as a prototype version for accomplishing the task. The developed mechatronic system serves the requested motions of standing and sitting, possessing the main features of compactness and customization for being embedded in chairs and conventional seats, according to a procedure that will be detailed in the paper. A simulation in a realistic scenario using a 3D model of an individual was carried out to size and verify the mechanical design and actuation. The mechatronic design of the system and its operations were reported using a laboratory prototype to show its engineering soundness and first experimental tests.

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“…This evolution within the manufacturing sector results in a more adaptable yet finely tuned production setting, presenting a flexible and optimized manufacturing environment. IoT is changing the lives of humans and making them more comfortable [7][8][9]. IoT communications take place with a set of predefined models and protocols, such as ad hoc on-demand distance vector (AODV) routing, destination-sequenced distance vector vector (DSDV) routing, optimized link state routing (OLSR), dynamic source routing (DSR), routing protocol for low power and lossy networks (RPL), constrained application protocol (CoAP), and 6LoWPAN (Ipv6 over low-power wireless personal area networks).…”

Section: Introductionmentioning

confidence: 99%

Security Framework for Network-Based Manufacturing Systems with Personalized Customization: An Industry 4.0 Approach

Hammad,

Jillani,

Ullah

et al. 2023

Sensors

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Smart manufacturing is pivotal in the context of Industry 4.0, as it integrates advanced technologies like the Internet of Things (IoT) and automation to streamline production processes and improve product quality, paving the way for a competitive industrial landscape. Machines have become network-based through the IoT, where integrated and collaborated manufacturing system responds in real time to meet demand fluctuations for personalized customization. Within the network-based manufacturing system (NBMS), mobile industrial robots (MiRs) are vital in increasing operational efficiency, adaptability, and productivity. However, with the advent of IoT-enabled manufacturing systems, security has become a serious challenge because of the communication of various devices acting as mobile nodes. This paper proposes the framework for a newly personalized customization factory, considering all the advanced technologies and tools used throughout the production process. To encounter the security concern, an IoT-enabled NBMS is selected as the system model to tackle a black hole attack (BHA) using the NTRUEncrypt cryptography and the ad hoc on-demand distance-vector (AODV) routing protocol. NTRUEncrypt performs encryption and decryption while sending and receiving messages. The proposed technique is simulated by network simulator NS-2.35, and its performance is evaluated for different network environments, such as a healthy network, a malicious network, and an NTRUEncrypt-secured network based on different evaluation metrics, including throughput, goodput, end-to-end delay, and packet delivery ratio. The results show that the proposed scheme performs safely in the presence of a malicious node. The implications of this study are beneficial for manufacturing industries looking to embrace IoT-enabled subtractive and additive manufacturing facilitated by mobile industrial robots. Implementation of the proposed scheme ensures operational efficiency, enables personalized customization, and protects confidential data and communication in the manufacturing ecosystem.

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Individual Environmental Risk Assessment and Management in Industry 4.0: An IoT-Based Model

Cited by 8 publications

References 33 publications

A System for Individual Environmental Risk Assessment and Management with IoT Based on the Worker’s Health History

A System for Individual Environmental Risk Assessment and Management with IoT Based on the Worker’s Health History

Synthesis and Prototyping of a Sit-to-Stand Assisting Device

Security Framework for Network-Based Manufacturing Systems with Personalized Customization: An Industry 4.0 Approach

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