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      Artificial intelligence impacts the health care domain as AI is the development of computer systems able to perform tasks that requires human intellect. Tasks such as object detection, decision making, solving complex problems, and so on are a few main benefits of artificial intelligence. AI also gives us predictions with an increased level of accuracy, it helps in decision making processes, it has solved complex problems, and it quickly performs high‐level computations that take days for a human to solve. AI is something that makes human lives easier by performing high level computations and solving complex problems.

      According to the PricewaterhouseCoopers (PwC) report, artificial intelligence will contribute an additional $ 15.7 trillion to the world economy by 2030, and the greatest impact will be in the health care sector (pwc). Healthcare is getting more import and using AI in more advanced manner. The sudden importance of AI in the health care industry can be categorized into two major points. First, the high availability of medical data; many of us have tons and tons of medical data in the form of our medical history and the availability of data makes implementing artificial intelligence much easier (Bush, 2018). Second, the introduction of complex algorithms. Machine learning alone is not capable of handling high dimensionality data and medical histories are extremely high dimensional in character, there are thousands of attributes that are hard for humans to analyze and process data through machine learning. However, when neural networks and deep learning were introduced, the process become much easier. Neural networks and deep learning are focused on solving complex problems that involve high dimensionality data; their development played a significant role in the impact of AI on health care (Simon et al., 2007; Loria).

      AI benefits health care organizations by implementing cognitive technology to unwind a huge amount of medical records and perform power diagnosis. For instance, Nuance is a production service provider that uses artificial intelligence and machine learning to predict the intent of a particular user. By implementing Nuance in organization system to develop a personalized user experience, a company can make better actions that enhance customer experience and overall benefit the organization. Nuance helps in the storing, collecting, and reformatting of data to provide faster and more consistent access to allow further analysis or diagnosis. These are examples of how AI is gaining attention and being helpful to the health care industry (Aronson and Rehm, 2015; Schmidt‐Erfurth et al., 2018).

      Cloud Computing is significant in the health care sector as it supports big data analytics that are being used to improve decision support systems and contribute to therapeutic strategies in beneficial ways.

      Smart health care informatics involve the combined use of the IoT, big data analytics,cloud computing, and artificial intelligence. These technologies will be made of use in health care by the application of artificial intelligence to examine and fit a giant quantity of data to screen for exclusion standards and decide the most appropriate objectives, keeping the time of recruiting the topics, and enhancing the concentrated efforts on the goal population. Further, patients are supervised in actual time with the usage of smart wearable devices to acquire extra time‐sensitive and correct information, for instance, the practice of smart devices to display data in lung ailment clinical trials. Using big data analytics and synthetic genius in the field of health care research and the improvement of drugs will grow to be of greater convenience. The arrival of smart health care, mature standards, and structures has been organized. However, with the upcoming modern technologies, there is a huge scope for development, and many challenges are now coming out.

      1 S. Amendola, R. Lodato, S. Manzari, C. Occhiuzzi, and G. Marrocco. RFID technology for IoT‐based personal healthcare in smart spaces. IEEE Internet of Things Journal, 1(2):144–152, 2014. doi:10.1109/JIOT.2014.2313981.

      2 S.J. Aronson and H.L. Rehm. Building the foundation for genomics in precision medicine. Nature, 526(7573):336–342, Oct 2015.

      3 A. Belle, R. Thiagarajan, S.M.R. Soroushmehr, F. Navidi, D.A. Beard, and K. Najarian. Big data analytics in healthcare. BioMed Research International, 2015:370–194, Jul 2015. doi:10.1155/2015/370194.

      4 J. Bush. How ai is taking the scut work out of health care, Mar 2018. URL https://hbr.org/2018/03/how-ai-is-taking-the-scut-work-out-of-health-care. Accessed: 2021‐04‐30.

      5 T. Caulfield, J. Evans, A. McGuire, C. McCabe, T. Bubela, and et al. Reflections on the cost of “low‐cost” whole genome sequencing: Framing the health policy debate. PLOS Biology, 11(11):1–6, 11 2013.

      6 M. Cvach. Monitor Alarm Fatigue: An Integrative Review. Biomedical Instrumentation & Technology, 46(4):268–277, 07 2012.

      7 M.E. DeBakey. The National Library of Medicine: Evolution of a Premier Information Center. JAMA, 266(9):1252–1258, 09 1991.

      8 F.E. Dewey, M.E. Grove, and et al. Clinical Interpretation and Implications of Whole‐Genome Sequencing. JAMA, 311(10):1035–1045, 03 2014.

      9 P. Diogo, L.P. Reis, СКАЧАТЬ