An Overview of Medical Electronic Hardware Security and Emerging Solutions

Taheri, Shayan; Asadizanjani, Navid

doi:10.3390/electronics11040610

Cited by 3 publications

(1 citation statement)

References 107 publications

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“…However, AI technology not only improves the security of medical services, but also has some security problems and challenges. Scholar Taheri S [73] pointed out that AI and computer vision can be used to deal with network vulnerabilities of medical tools, malicious medical errors and security attacks on medical data and devices. However, scholars Batista E [74] further pointed out that the devices and systems involved in medical artificial intelligence systems are numerous, varied and complex, and many challenging factors need to be considered, especially from the perspective of security and privacy.…”

Section: Research Hotspots Of Medical Ai Abroadmentioning

confidence: 99%

Knowledge atlas on the medical artificial intelligence research: a bibliometric analysis based on CiteSpace and VOSviewer

Shi

Han²,

Huang³

et al. 2023

Second Guangdong-Hong Kong-Macao Greater Bay Area Artificial Intelligence and Big Data Forum (AIBDF 2022)

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In order to draw and analyze the current status of the research on the application of artificial intelligence in the field of health in China and abroad, we explored the hotspots and frontiers of this research field and the evolution path from 2012 to 2022. This research uses 3743 articles included in the core database of Web of Science and 728 related research articles contained in CNKI as the basis for data analysis, and uses the advantages of bibliometrics visualization software of CiteSpace and VOSviewer to study institutions, countries, authors and literature keywords. In this research area, the research of medical artificial intelligence is growing day by day. By analyzing and sorting out the current research status, research hotspots and evolution path in this field of research, and trying to point out the deficiencies in the research in this field in China, the paper hopes to provide more references for researchers and practitioners of medical artificial intelligence related research.

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Section: Research Hotspots Of Medical Ai Abroadmentioning

confidence: 99%

Knowledge atlas on the medical artificial intelligence research: a bibliometric analysis based on CiteSpace and VOSviewer

Shi

Han²,

Huang³

et al. 2023

Second Guangdong-Hong Kong-Macao Greater Bay Area Artificial Intelligence and Big Data Forum (AIBDF 2022)

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Echo State Network-Enabled Intelligent Smart Sensor Design for Creating a Robotic Nervous System

Dawei

Bingxin

Zhou

2023

Int. J. Patt. Recogn. Artif. Intell.

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Introduction: The echo states that networks in the Internet of Things (IoT) are currently being implemented in the widest sense. Echo state networks are fast and efficient recurrent neural networks. This consists of an input layer, a reservoir with many sparsely connected neurons, and an output layer. Issues: In the existing wireless sensor networks, strong mobility may disrupt an existing link between two communicating nodes. There is an inconvenience in data communication, and then it searches for a new node to build a better connection. Methods: To overcome these issues, the recently introduced echo state network (ESN) model opened the way to an extremely efficient approach for designing neural networks for temporal data. The study focuses on the ESN-enabled Intelligent Smart Sensor Design (IS2D) for creating the robotic nervous system with a smart healthcare Digital Nervous System (DNS) using the techniques of IoT, DNS, and Smart Sensor Design and Strain Sensor Fabrication (SSF). Results: Experimental results demonstrate the training set testing against the IS2D, the confusion matrix for ESN outcome, the real-time healthcare monitoring for the DNS, the IS2D sensor accuracy, and the DNS intensity calculation. Discussion: The performance analysis of the proposed model in realistic environments attests to the benefits of energy-centric metrics such as energy consumption, network lifetime, delay, and throughput. Finally, we discuss the challenges and opportunities by summarizing the study and proposing possible future works. The training set testing against the IS2D is based on time count, and the voltage result is estimated. The first portion of the data set should be 11.46% at the initial level. Further, this will increase from 1% to 5%, from 6% to 10%, and from 16% to 28% at the consecutive data set. The confusion matrix for ESN outcome is based on accuracy 28.45% higher than the existing strategies. In this part, the initial accuracy is 8.45% while accessing the initial stage. This value should increase with consecutive data sets from 18.45% to 28.45%.

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Management of Electronic Medical Waste Disposal and Its Impact on the Sustainability of the Tourism Destination

Baričević,

Rajković,

Šimunić

2024

Tourism and Hospitality Industry

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Purpose - The management of electronic medical waste (e-waste) represents a significant challenge and an opportunity for sustainability in the health tourism industry. As large companies in tourist destinations increasingly use electronic devices for medical purposes, the disposal of these items becomes crucial for the health of the environment and the sustainable development of the destination. This paper examines the impact of healthcare e-waste disposal in destinations and discusses strategies for effective management to improve sustainability. Findings-Research - This study is based on a mixed methods design that includes a quantitative analysis of e-waste generation and qualitative case studies at major healthcare providers in leading tourism destinations. The paper evaluates different strategies for e-waste management, including Design for Environment (DfE) principles, the use of environmentally friendly materials, energy efficient practices, data security measures, recycling and reuse, and more. A multi-perspective approach will be used to discuss the challenges and opportunities of e-waste management that promotes sustainable tourism development. Design/methodology/approach - This study examines the management of electronic medical waste (e-waste) and its impact on sustainability in tourism destinations. With the increasing integration of technology into the healthcare services offered there, the proper disposal and recycling of e-waste is proving critical to maintaining environmental health and ensuring sustainable development of the tourism economy. This study aims to identify effective e-waste management strategies that can be implemented by large companies operating in tourism destinations and analyse their impact on the environmental sustainability and overall attractiveness of these places for tourists. Findings/ Originality of the research - This study not only represents an intersection between the healthcare industry’s management practices regarding the disposal of average-life devices by hospitals and sustainability in tourism, but also provides insights for policy makers, healthcare managers and tourism stakeholders regarding effective e-waste management approaches. The study highlights the role that sustainable e-waste management can play as a key differentiator for destinations, while ensuring the health and safety of tourists and the wellbeing of the host community. The argument of this study is therefore that the current management of e- waste in healthcare facilities needs an alternative approach to improve their attractiveness and sustainability.

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An Overview of Medical Electronic Hardware Security and Emerging Solutions

Cited by 3 publications

References 107 publications

Knowledge atlas on the medical artificial intelligence research: a bibliometric analysis based on CiteSpace and VOSviewer

Knowledge atlas on the medical artificial intelligence research: a bibliometric analysis based on CiteSpace and VOSviewer

Echo State Network-Enabled Intelligent Smart Sensor Design for Creating a Robotic Nervous System

Management of Electronic Medical Waste Disposal and Its Impact on the Sustainability of the Tourism Destination

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