The Role of Technology in Improving HSE Culture Assignment Sample

Introduction Of The Role of Technology in Improving HSE Culture, by Using IOT

IoT is essential to improving the HSE lifestyle. IoT devices' monitoring capabilities as well as data feeds help people learn about threats immediately. Through the identification of trends and the prevention of crises, statistical analysis can enable risk management. IoT devices boost collaboration as well as communication to ensure employee safety while making reporting emergencies easier. IoT enhances learning and instruction with VR (Virtual reality) and AR (Augmented reality). By highlighting areas for improvement, knowledge-driven decision-making that utilises IoT-generated facts enhances HSE practices (Wanasinghe, et.al. 2020). Securing IoT may alter workplaces, allowing them to be less hazardous and more beneficial to the environment.

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The study's subject matter focuses on the role of IoT in enhancing the HSE environment within a business organisation or sector. Organisations from a wide range of industries are increasingly using IoT in today's quick-paced and technologically driven economy to enhance environmentally friendly practices along with safeguarding businesspractices. Nevertheless, there are still many problems inside groups or sectors, such as insufficient real-time tracking regarding security variables, reflexive instead of constructive risk administration, limited interaction and teamwork, old-fashioned teaching strategies, and a decline in decision-making based on information (Okpala, et.al. 2020). These challenging circumstances make it impossible to develop a strong HSE environment while creating potential threats to the health and safety of both personnel as well as the environment.

Aim of the study:

The implementation of enhancing the HSE environment within a certain commercial organisation or business.

Objectives of the study:

The following are the objectives of the examination:

• To examine the efficiency of IoT for real-time threat detection, response, and preventive governance.
• To investigate how IoT-enabled communication and cooperation affect the development of a protection-focused approach to living.
• Investigate how IoT technologies, such as VR and AR, might improve health and safety education and decision-making according to the best available data.

Research Questions:

The following are the research questions that will influence the scope of the ongoing study:

• Q1. How does the real-time monitoring as well as information collection provided by the Internet of Things contribute to the identification and effective management of potential hazards in HSE procedures?
• Q 2. What effect can IoT-enabled interactions and working together have on encouraging a safety-oriented lifestyle along with transparent monitoring within the employer/industry?
• Q 3. How might IoT technologies, such as VR and AR, enhance HSE education and enable data-driven decision-making to improve standard HSE practices?

Figure 1 Application of IoT in Healthcare: Keys to Implementation of the Sustainable Development Goals

(Source: Angeles, V. E., Jose, L., R., Francisco, M.M., and Macarena, E.E., 2021)

Literature Review

Introduction:

The role of IoT (Internet of Things) in improving the HSE (health, safety, and environment) subculture has garnered sizeable attention in recent years. As organizations attempt to beautify safety practices, mitigate risks, and enhance basic HSE overall performance, IoT has emerged as a promising generation. This literature evaluates targets to explore the present body of knowledge at the difficulty and spotlight how the research objectives of this observation fill the gaps and expand the information in the Field.

Real-time monitoring and risk identification: According to Khurshid, et.al. 2019, One key area of awareness within the literature is the effectiveness of actual-time tracking and records series through IoT gadgets in identifying safety hazards right away. Author performed a have a look at sustainable production safety control and located that statistics-pushed hazard evaluation using IoT-enabled devices facilitated the identification of capability risks in actual time.

Predictive analytics and proactive risk control: Any other critical thing are the position of predictive analytics enabled by way of IoT in proactive hazard control and a twist of fate prevention. Studies by using Lee, et.al. 2023 additionally highlighted using predictive analytics in assessing and dealing with Dangers associated with IoT-enabled gadgets. By studying historical statistics and using device studying algorithms, businesses can count on ability dangers and take preventive measures. This proactive approach to change management can drastically beautify overall HSE performance.

Communique, collaboration, and protection way of life: According to Paul, and Singh (2023) Effective communication and collaboration are critical for fostering a protection-orientated way of life within businesses. The literature emphasizes the impact of IoT-enabled communication and collaboration on safe lifestyle and open reporting. The study may evolve an IoT-primarily based wearable gadget for real-time protection tracking in production initiatives, improving communique channels among people and supervisors. Khurshid, et.al. 2023 proposed a framework for real-time IoT-based protection management within the oil and gas enterprise, enhancing collaboration and communication amongst stakeholders. That research highlights the capacity of IoT in Facilitating conversation, and collaboration, and cultivating a strong HSE way of life.

IoT for HSE training and information-pushed decision-making: According to Vallathan, Meyyappan, and Rajani (2022), furthermore, the literature discusses the capability of IoT technologies, along with VR (virtual truth) and AR (augmented reality), in improving HSE education and education. Author conducted a systematic overview pertaining to the usage of VR and AR in physical and occupational remedies, demonstrating their effectiveness in improving training reviews. Further, they explored the software of AR for danger identification and threat evaluation within the business area.

This literature evaluation did by Haaker, et.al. 2021 focused on IoT-based total protection control in construction tasks. It affords an overview of the programs of IoT technologies, including wearable devices, sensors, and real-time monitoring structures, for improving protection practices. The take look highlights the blessings and challenges of implementing IoT-primarily based protection control systems and identify areas for destiny studies.

This study's paper explores using smart wearable structures in construction protection. Gbadamosi, et.al. (2019) discussed the mixing of IoT-enabled wearable gadgets, such as clever helmets and vests, for actual-time monitoring of workers' physiological parameters and environmental situations. This evaluation article specializes in the application of IoT in protection control especially in underground coal mines. It discusses using IoT gadgets, inclusive of gasoline sensors, wearable technologies, and Wi-fi communication structures, to screen environmental situations, stumble on risks, and enhance conversation amongst people. The observation highlights the ability of IoT in improving safety practices and decreasing injuries in the mining enterprise.

According to Paul, and Singh (2023), the studies target of this take a look at aims to fill these gaps employing assessing the effectiveness of actual-time monitoring, comparing the impact of IoT-enabled verbal exchange and collaboration, and exploring the capability of IoT technology for HSE schooling and information-driven selection-making. Recently, there has been a lot of discussion on how the IoT (Internet of Things) may enhance the HSE (health, safety, and environment) cultural phenomenon. IoT has shown promise as organisations work to improve fundamental HSE performance, reduce risks, and improve safety processes.

Real-time surveillance and risk detection: According to Saponara, Elhanashi, and Gagliardi (2021), Asingle topic ofsignificantfocus in the scientific literature is the capability of real-time tracking and data collection using IoT devices to quickly discover security risks. An investigation on environmentally friendly manufacturing security management discovered that the recognition of potential threats in real-time was made easier by data-driven hazard evaluation utilising IoT-enabled equipment, additionally establishing a data-driven approach for identifying threats in IoT devices used in the architecture industry.

Research Process

• Research type: Qualitative and quantitative are the main two research types which scholars can select for investigation purposes. In this, aspects related to culture and IOT can be evaluated by referring to underlying theories and opinions. Further, concerned elements also cannot be presented in a quantifiable manner. Thus, qualitative research will be initiated to ascertain the influence of IOT in building competent culture within HSE.
• Research approach and philosophy: To conduct qualitative research prominently inductive approach and interpretivism philosophy will be followed. Accordingly, observations will be evaluated to present new generalized framework. Hence, by interpreting qualitative aspects solution will be presented.
• Data collection: For evaluating the research problem both primary and secondary data will be gathered. In order to deal with research problem prominently survey will be conducted on 20 manager of HSE with the help of questionnaire. Moreover, questionnaire helps in gaining suitable data according to the research issue which is being investigated. Further, books, journals and scholarly articles will also be evaluated related to IOT & culture.
• Sampling: In the context of current study, 20 employees of HSE will be selected by taking into account simple random sampling technique. Moreover, employees can indicate effectually about the extent to which culture has been improved using IOT.
• Data analysis: Thematic perception test technique will be used for deriving suitable results via qualitative research or investigation. On the basis of this, all the derived themes will be evaluated and supported with brief thesis drafted in LR section.
• Ethical considerations: Consent will be taken from respondents with the motive to comply with ethical aspects.
• Reliability and validity: Latest, authentic and topic related data sources will be considered for secondary data gathering.

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Research Plan And Timelines Of Thesis Submission

The following is the plan of action for each phase:

References

Books and Journals

• Elghaish, F., Hosseini, M.R., Matarneh, S., Talebi, S., Wu, S., Martek, I., Poshdar, M. and Ghodrati, N., 2021. Blockchain and the ‘Internet of Things' for the construction industry: research trends and opportunities. Automation in construction. 132. p.103942.
• Gbadamosi, A.Q., Oyedele, L., Mahamadu, A.M., Kusimo, H. and Olawale, O., 2019. The role of the internet of Things in delivering smart construction.
• Haaker, T., Ly, P.T.M., Nguyen-Thanh, N. and Nguyen, H.T.H., 2021. Business model innovation through the application of the Internet-of-Things: A comparative analysis. Journal of Business Research. 126. pp.126-136.
• Khurshid, K., Danish, A., Salim, M.U., Bayram, M., Ozbakkaloglu, T. and Mosaberpanah, M.A., 2023. An In-Depth Survey Demystifying the Internet of Things (IoT) in the Construction Industry: Unfolding New Dimensions. Sustainability.15(2). p.1275.
• Lee, J., Shin, D.P., Park, S.H. and Byon, C., 2023. Development and Application of Smart Construction Objects and Management Systems for an Efficient and Cost-Effective Safety Management. Buildings. 13(6). p.1383.
• Okpala, I., Parajuli, A., Nnaji, C. and Awolusi, I., 2020, November. Assessing the feasibility of integrating the Internet of things into safety management systems: a focus on wearable sensing devices. In Construction Research Congress 2020: Computer Applications (pp. 236-245). Reston, VA: American Society of Civil Engineers.
• Paul, P. and Singh, B., 2023. Healthcare Employee Engagement Using the Internet of Things: A Systematic Overview. The Adoption and Effect of Artificial Intelligence on Human Resources Management. Part A. pp.71-97.
• Saponara, S., Elhanashi, A. and Gagliardi, A., 2021. Real-time video fire/smoke detection based on CNN in antifire surveillance systems. Journal of Real-Time Image Processing. 18. pp.889-900.
• Vallathan, G., Meyyappan, S. and Rajani, T., 2022. Healthcare: Energy Optimization Techniques Using IoT and Machine Learning. Hybrid Intelligent Approaches for Smart Energy: Practical Applications. pp.279-290.
• Wanasinghe, T.R., Gosine, R.G., James, L.A., Mann, G.K., De Silva, O. and Warrian, P.J., 2020. The Internet of things in the oil and gas industry: a systematic review. IEEE Internet of Things Journal. 7(9). pp.8654-8673.

Online

• Espinosa, V. A., Ruiz, j. L., Mata, M. F. and Estevez, E.M., 2021. Application of IoT in Healthcare: Keys to Implementation of the Sustainable Development Goals. (Online). Available through: <https://www.mdpi.com/1424-8220/21/7/2330>. Accessed on 12th June 2023.