Essay on Wireless technology
Wireless technologies and the growth of popularity of portable devices such as smartphones and tablets have created a variety of opportunities in the modern world. Wireless communications are changing the world because wireless devices are convenient, easy to use and can provide interconnectivity in virtually any place. Among the segments which are assumed to change dramatically due to the use of wireless technology one can name environmental protection, entertainment, business communications, sales, news reporting and healthcare.
The purpose of this paper is to discuss current and emerging wireless medical technologies, to describe wireless components in healthcare that are required for creating added business value, assess the changes to staffing and training in healthcare associated with the increasing use of wireless technologies, analyze potential challenges pertaining to wireless networks in healthcare institutions and methods of addressing these challenges.
Current and emerging wireless medical technologies
The use of wireless technologies in healthcare has numerous advantages: medical information can be delivered and shared in any setting, medical information and guidelines can be quickly distributed; wireless devices create space for such interconnectivity that could never be provided by wired devices. Wireless healthcare devices can be used for more advanced diagnostics, can deliver information between the patient and the healthcare institution in a continuous way, etc. One wireless device can implement several functions (e.g. providing medical information, gathering healthcare records, delivering physician’s recommendations, collecting statistics, etc.).
The integration of wireless technologies in healthcare is a very promising trend which might lead to a healthcare revolution. A notable invention are the Medical Body Area Network (MBAN) devices – special wearable sensors that collect various information about the patient, starting with respiratory functions and pulse and ending with ECG data (Information Week, 2012). Such novel approach to monitoring health will help to collect accurate medical information, diagnose patients in a better way, provide timely help in critical situations, etc.
Wireless technologies might be used to develop in-house wireless devices that have the potential to enhance performance inside healthcare organizations; for example, wireless connections can help to synchronize actions and information for anesthesiologists, surgeons, etc. Along with sharing information and tracking the patient’s state, wireless devices can be used to track provider care activities and data, to report the status of equipment and other devices, to integrate data from other devices into a global network, to perform drug tracking and other analytical functions (Cooper & Fuchs, 2013). Furthermore, wide use of smartphones and other WiFi enabled devices allows to create healthcare apps for exchanging healthcare information into one system. According to Terry (2012), the major growth of healthcare wireless industry is expected when healthcare providers fully adopt this technology and master processing of patient data and acting instantly basing on these data. Such interactivity might transform the whole approach to healthcare and turn it into a continuous process guided by healthcare institutions.
Wireless components needed for added business value
The technologies used for wireless healthcare devices include WiFi (IEEE 802.11x), Bluetooth, RFID et al. As a minimum, the components needed for added business value of healthcare wireless devices include wireless hardware, means of connecting this hardware to WLAN or WAN and software for handling the connections, measurements and data exchange. Additional components might include various sensors, assistive devices, wearable components, extensions, etc (Going wireless: five perspectives on the challenges in healthcare technology, 2013). In the case of data collection and processing on the provider’s side, there is a need for access points for wireless connections and a server authenticating and/or processing wireless requests.
Additional staffing and support requirements
The integration of wireless technologies in healthcare is likely to change the requirements to staffing and training of healthcare professionals. Medical professionals will have to be able to connect wireless devices, to use them, to collect data and send these data to the server. Professionals in data processing and data analysis will be in need. Furthermore, the changes of healthcare infrastructure will require hiring more IT professionals who will manage the wireless network, maintain network security, establish proper controls to secure the delivery of patient care, etc.
The need for software developers with healthcare expertise is increasing as the evolving set of wireless technologies should be made live with the relevant software. Regular healthcare professions will have to receive additional training on wireless devices; healthcare professionals should also be prepared to explain the new methods to the patients and show the basics of working with wireless devices to them.
Potential technical and regulatory problems and methods of their mitigation
Active and prolonged use of wireless technologies might also create risks for the patients’ health due to the novelty of wireless technologies and the lack of longitudinal research showing the impact of waves of the target spectrum on human beings. It is recommended to conduct studies on volunteers and/or laboratory animals in order to assess the long-term impact of radio frequencies.
According to Cooper and Fuchs (2013), the dependence of care delivery on wireless systems represents a significant threat to the healthcare itself as the errors or breaches in a wireless system might create an additional health risk for patients. In order to mitigate this risk, it is necessary to establish additional controls for wireless systems and include verification activities in the software handling data from wireless healthcare devices (Going wireless: five perspectives on the challenges in healthcare technology, 2013).
One of the potential problems is the regulation and use of different spectrum bands by wireless healthcare devices. Devices working on the same frequency might “crowd out” each other from the channel, while the devices working on too different frequencies might be unable to exchange information. One of the possible methods of addressing this challenge is the introduction of standards for the spectrum band use by healthcare wireless devices.
There exist several consensus groups which unite the manufacturers of medical devices, healthcare professionals and users is Institute of Electrical and Electronics Engineers (IEEE) (Witters, 2006). Another consensus group is FCC that proposed rules for dedicating a specific band of frequency spectrum to wireless devices in healthcare (Information Week, 2012). Due to these regulations, it will be possible to enhance the reliability of such devices and their interconnectivity.
The risks of wireless network failure can be addressed with the help of quality of service (QoS) technology use, with the help of data integrity maintenance, using various means of reducing electromagnetic emission and its effects and enhancing wireless network security with the help of secure authentication, encryption and accountability policies (Witters, 2011). Overall, the field of wireless healthcare technology is rapidly evolving and it is likely that wireless devices will change the whole approach to care delivery in the future.
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