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    <Journal>
      <PublisherName>aimsjournal</PublisherName>
      <JournalTitle>Allana Management Journal of Research, Pune</JournalTitle>
      <PISSN>? ?2581-3137 (</PISSN>
      <EISSN>) 2231 - 0290 (Print)</EISSN>
      <Volume-Issue>Volume 10, Issue 1</Volume-Issue>
      <PartNumber/>
      <IssueTopic>Multidisciplinary</IssueTopic>
      <IssueLanguage>English</IssueLanguage>
      <Season>January 2020 - June 2020</Season>
      <SpecialIssue>N</SpecialIssue>
      <SupplementaryIssue>N</SupplementaryIssue>
      <IssueOA>Y</IssueOA>
      <PubDate>
        <Year>-0001</Year>
        <Month>11</Month>
        <Day>30</Day>
      </PubDate>
      <ArticleType>Information Technology Management</ArticleType>
      <ArticleTitle>The Impact of Industry 4.0 on Healthcare 4.0</ArticleTitle>
      <SubTitle/>
      <ArticleLanguage>English</ArticleLanguage>
      <ArticleOA>Y</ArticleOA>
      <FirstPage>1</FirstPage>
      <LastPage>10</LastPage>
      <AuthorList>
        <Author>
          <FirstName>SamayaPillai</FirstName>
          <AuthorLanguage>English</AuthorLanguage>
          <Affiliation/>
          <CorrespondingAuthor>N</CorrespondingAuthor>
          <ORCID/>
          <FirstName>Dr.ManikKadam</FirstName>
          <AuthorLanguage>English</AuthorLanguage>
          <Affiliation/>
          <CorrespondingAuthor>Y</CorrespondingAuthor>
          <ORCID/>
          <FirstName>Dr. H. Acharya</FirstName>
          <LastName/>
          <AuthorLanguage>English</AuthorLanguage>
          <Affiliation/>
          <CorrespondingAuthor>Y</CorrespondingAuthor>
          <ORCID/>
        </Author>
      </AuthorList>
      <DOI/>
      <Abstract>We all are in the middle of a very historic make-over. It concerns the manufacturing or industrial
domain. “Industry 4.0”which has captured every-ones imagination is all about automation.Digitization in healthcare is progressing steadily. While currently processes are being optimized and processes are being facilitated, the breakthrough of digital medicine is still forthcoming. Digital medicine includes applications that focus on the patient and give them the promise of better care. Many digital health applications are raising attention in traditional healthcare, as they are increasingly showing evidence.

The Industry 4.0 Standard (I4S) employs technologies for automation and data exchange through cloud computing, Big Data (BD), Internetof Things (IoT), forms of wireless Internet, 5G technologies, cryptography, the use of semantic database (DB) design, Augmented Reality (AR) and Content-Based Image Retrieval (CBIR). Its healthcare extension is the so-called Health 4.0.This study informsabout Health 4.0 and its potential to extend, virtualize and enable new healthcare-related processes (e.g., home care, finitude medicine, and personalized/remotely triggered pharmaceutical









treatments) and transform them into services. In the future, these services will be able to virtualize numerous degrees of care, interface gadgets, and move to Personalized Medicine (PM).We can say that the health 4.0 constitutes computers, communications, storage, interfaces, sensors, and bio-actuators. Healthcare4.0 can suggest monitoring patients before, after and during any medical treatments.The upcoming technology of IOT is becoming core inpatient-monitoring and many other processes of the healthcare. The Iot devices can be used to set alerts and mobilise faster decision making it efficient patient caring system. As of now, the National Health Service tends to the utilization of specialized devices to patients and clinical groups to heighten the exchange of medicines from the emergency clinic to the home, without disturbance in outpatient administrations. Healthcare 4.0 can have tools and technology allowing data embedding and BD analysis. The co-existence of technology with human intervention can lead to enhanced healthcare. 

Objective of the Research Paper:The objective of the research paper was mapping of the concept of industry 4.0 to healthcare. The thought was to conduct an extensive literature review, identify the relevant gaps post the literature review. And lay a path for further research.</Abstract>
      <AbstractLanguage>English</AbstractLanguage>
      <Keywords/>
      <URLs>
        <Abstract>https://aimsjournal.org/ubijournal-v1copy/journals/abstract.php?article_id=8045&title=The Impact of Industry 4.0 on Healthcare 4.0</Abstract>
      </URLs>
      <References>
        <ReferencesarticleTitle>References</ReferencesarticleTitle>
        <ReferencesfirstPage>16</ReferencesfirstPage>
        <ReferenceslastPage>19</ReferenceslastPage>
        <References>Kim, K. K., and;Michelman, J. E. (1990). An examination of factors for the strategic use of information systems in the healthcare industry. MIS quarterly, 201-215.
	Roblek, V., Meand;scaron;ko, M., and;Krapež, A. (2016). A complex view of industry 4.0. Sage Open, 6(2), 2158244016653987.
	Manogaran, G., Thota, C., Lopez, D., and;Sundarasekar, R. (2017). Big data security intelligence for healthcare industry 4.0. In Cybersecurity for Industry 4.0 (pp. 103-126). Springer, Cham.
	Wan, J., Tang, S., Li, D., Imran, M., Zhang, C., Liu, C., and; Pang, Z. (2018). Reconfigurable smart factory for drug packing in healthcare industry 4.0. IEEE transactions on industrial informatics, 15(1), 507-516.
	Kumari, A., Tanwar, S., Tyagi, S., and; Kumar, N. (2018). Fog computing for Healthcare 4.0 environment: Opportunities and challenges. Computers and; Electrical Engineering, 72, 1-13.
	Pace, P., Aloi, G., Gravina, R., Caliciuri, G., Fortino, G., and; Liotta, A. (2018). An edge-based architecture to support efficient applications for healthcare industry 4.0. IEEE Transactions on Industrial Informatics, 15(1), 481-489.
	Hathaliya, J. J., Tanwar, S., Tyagi, S., and; Kumar, N. (2019). Securing electronics healthcare records in healthcare 4.0: a biometric-based approach. Computers and; Electrical Engineering, 76, 398-410.
	Mavrogiorgou, A., Kiourtis, A., Perakis, K., Miltiadou, D., Pitsios, S., and;Kyriazis, D. (2019). Analyzing data and data sources towards a unified approach for ensuring end-to-end data and data sources quality in healthcare 4.0. Computer methods and programs in biomedicine, 181, 104967.
	Daand;uacute;, G., Scavarda, A., Scavarda, L. F., and; Portugal, V. J. T. (2019). The healthcare sustainable supply chain 4.0: The circular economy transition conceptual framework with the corporate social responsibility mirror. Sustainability, 11(12), 3259.
	Chute, C., and; French, T. (2019). Introducing Care 4.0: an integrated care paradigm built on Industry 4.0 capabilities. International journal of environmental research and public health, 16(12), 2247.
	Abolghasem, S., Toloo, M., and;Amand;eacute;zquita, S. (2019). A dataset of healthcare systems for cross-efficiency evaluation in the presence of flexible measure. Data in brief, 25, 104239.
	Sharma, D., Singh Aujla, G., and; Bajaj, R. (2019). Evolution from ancient medication to human?centered Healthcare 4.0: A review on health care recommender systems. International Journal of Communication Systems, e4058.
	Hyer, J. M., Ejaz, A., Diaz, A., Tsilimigras, D. I., Gani, F., White, S., and;Pawlik, T. M. (2019). Characterizing and assessing the impact of surgery on healthcare spending among Medicare enrolled preoperative super-utilizers. Annals of surgery, 270(3), 554-563.
	Band;eacute;nard-Laribiand;egrave;re, A., Noize, P., Girodet, P. O., Lassalle, R., Dureau-Pournin, C., Droz-Perroteau, C., ...and; DRUGS-2M study group. (2019). Monitoring of drug misuse or potential misuse in a nationwide healthcare insurance database: A cross-sectional study in France. Therapies, 74(4), 469-476.
	Hoffman, G. J., Min, L. C., Liu, H., Marciniak, D. J., and;Mody, L. (2019). Role of Post?Acute Care in Readmissions for Preexisting Healthcare?Associated Infections. Journal of the American Geriatrics Society.
	Jell, A., Vogel, T., Ostler, D., Marahrens, N., Wilhelm, D., Samm, N., ...and;Kranzfelder, M. (2019). 5th-Generation Mobile Communication: Data Highway for Surgery 4.0. Surgical technology international, 35.
	Ravensbergen, W. M., Drewes, Y. M., Hilderink, H. B. M., Verschuuren, M., Gussekloo, J., and;Vonk, R. A. A. (2019). Combined impact of future trends on healthcare utilisation of older people: A Delphi study. Health Policy, 123(10), 947-954.
	Ratia, M., Mylland;auml;rniemi, J., and;Helander, N. (2019). The potential beyond IC 4.0: the evolution of business intelligence towards advanced business analytics. Measuring Business Excellence.
	Gupta, R., Tanwar, S., Tyagi, S., and; Kumar, N. (2019). Tactile-Internet-Based Telesurgery System for Healthcare 4.0: An Architecture, Research Challenges, and Future Directions. IEEE Network, 33(6), 22-29.
	Mavrogiorgou, A., Kiourtis, A., Perakis, K., Miltiadou, D., Pitsios, S., and;Kyriazis, D. (2019). Analyzing data and data sources towards a unified approach for ensuring end-to-end data and data sources quality in healthcare 4.0. Computer methods and programs in biomedicine, 181, 104967.
	Hatachi, T., Inata, Y., Moon, K., Kawamura, A., Yoshida, K., Kinoshita, M., ...and; Takeuchi, M. (2019). Effects of Healthcare-Associated Infections on Length of PICU Stay and Mortality. Pediatric Critical Care Medicine, 20(11), e503-e509.
	Jayaraman, P. P., Forkan, A. R. M., Morshed, A., Haghighi, P. D., and; Kang, Y. B. (2019). Healthcare 4.0: A review of frontiers in digital health. Wiley Interdisciplinary Reviews: Data Mining and Knowledge Discovery, e1350.
	Tortorella, G. L., Fogliatto, F. S., Mac Cawley Vergara, A., Vassolo, R., and;Sawhney, R. (2019). Healthcare 4.0: trends, challenges and research directions. Production Planning and; Control, 1-16.
	Kiourtis, A., Nifakos, S., Mavrogiorgou, A., and;Kyriazis, D. (2019). Aggregating the syntactic and semantic similarity of healthcare data towards their transformation to HL7 F
	Larrucea, X., Moffie, M., Asaf, S., and; Santamaria, I. (2020). Towards a GDPR compliant way to secure European cross border Healthcare Industry 4.0. Computer Standards and; Interfaces, 69, 103408.
	Tanwar, S., Parekh, K., and; Evans, R. (2020). Blockchain-based electronic healthcare record system for healthcare 4.0 applications. Journal of Information Security and Applications, 50, 102407.
	Mistry, I., Tanwar, S., Tyagi, S., and; Kumar, N. (2020). Blockchain for 5G-enabled IoT for industrial automation: A systematic review, solutions, and challenges. Mechanical Systems and Signal Processing, 135, 106382.
	Tanwar, S., Parekh, K., and; Evans, R. (2020). Blockchain-based electronic healthcare record system for healthcare 4.0 applications. Journal of Information Security and Applications, 50, 102407.
	Marr, B. (2018). What is industry 4.0? Hereand;#39;s a super easy explanation for anyone. Forbes Magazine, 2.
	Hathaliya, J. J., Tanwar, S., Tyagi, S., and; Kumar, N. (2019). Securing electronics healthcare records in healthcare 4.0: a biometric-based approach. Computers and; Electrical Engineering, 76, 398-410.
	
	https://exigotech.com.au/automation-in-healthcare-defining-a-new-perspective-for-patient-care-and-hospital-operations/
	https://www.proschoolonline.com/blog/what-is-industry-4-0-and-is-india-prepared-for-the-change
	https://www.i-scoop.eu/internet-of-things-guide/internet-things-healthcare/
	https://jbhi.embs.org/wp-content/uploads/sites/44/2019/06/JBHI-Health4.0-CFP-updated.pdf
	
	https://jbhi.embs.org/special-issues/enabling-technologies-in-health-engineering-and-informatics-for-the-new-revolution-of-healthcare-4-0/
	https://ai.myesr.org/healthcare/embracing-healthcare-4-0-digitalizing-healthcare-as-a-key-enabler-for-high-value-care/
	https://www.ncbi.nlm.nih.gov/pubmed/29411045
	https://onlinelibrary.wiley.com/doi/pdf/10.1002/widm.1350</References>
      </References>
    </Journal>
  </Article>
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