The executives of this clinic may face the challenge of the inability to access WIFI especially if the hospital lacks access points. To counter this challenge M3 has ever been tried in the hospital in areas where there was no coverage for wifi. Nonetheless, a seamless session is required to transfer coverage sessions across networks. There could be a negative impact of the system to the user especially through the request of passwords whenever the patients are switching networks. Data security is another difficulty that the IT managers can grapple with in the hospital. The IT managers need to manually encrypt each client’s information and also ensure that it is secured (Groeneweg, 2018).
Mobility XE is the main flagship product offered by net motion company. Necessarily, this product is client //server—based and is used in extending the grid of the enterprise to mobile platform securely. It enhances the workers’ productivity through securing and maintaining the connections of data. Mobile XE can be utilized in both non-wireless and wireless networks. It can also flawlessly roam between the underlying networks. St Luke’s hospital is one of the customers and users of this the system in the US and other areas.
Mobility XE has been of great benefit to St. Luke’s hospital (Lisk, 2008). It has a history of escalating productivity and efficiency of their users via the provision of secure, and timely access to patients’ data whenever required by them. According to ST. LUKE’S EPISCOPAL HEALTH SYSTEM CASE STUDY. (n.d.)., The use of wireless gadgets like tablet PCs is essential in accessing data any time and from anywhere in the world hence promoting productivity and efficiency
As earlier indicated the XE technology anytime, anything and anywhere access to the information of the clinicians. Also, the network helps in the seamless transition from a wireless grid to the cellular one. Its session persistence assists in resolving the problem of re-login by the clinicians especially when they intend to switch networks. This ensures continuity of work in the hospital as breakdowns are effectively managed (Groeneweg, 2018). Mobility XE again allows applications to operate in remote areas. That is places with low or poor network coverage. In certain instances, some clinicians may not be in a position to perform scanning or rays due to poor network coverage. It is important to note that the Mobility XE network can help in solving a problem of this kind.
Furthermore, this kind of technology ensures that its VPN adds an extra level to the security of the hospital. In short, Mobility XE assists in beefing up the clinic’s security measures. The technology ensures that all information transferred from PCs or tablets to the underlying server has a kind of encryption referred to as 128-bit AES ironclad. Mobility XE provides improved scalability via the utilization and creation of Lightweight Directory Access Protocol and to the setting of the store and server pools. In this way, the technology ensures scaling for deployments which support various cellular mobile workers. This means that hospitals can improve the capacity of the servers without actually disrupting the services of the systems. Mobility XE also provides a centralized administration of wireless devices through providing an in-built interface via any browser of the web. Lastly, this technology facilitates constant reliability. The new automatic failover coupled with load balancing capabilities automatically distribute synchronized wireless device connections across many other servers that are based on their immediate capacity and load (Lisk, 2008). The system again allocates the clients of Mobility connections across the pool of servers for optimal utilization of resources depending on CPU usage, network, and memory.
Faster technological developments characterize the current society. As a result, new sophisticated systems and computers are being manufactured daily. Many mobile devices of all types and complexities are also being released every day. Majority of the US citizens today have cell phones including children and old people. These growing trends of technology is a significant threat to the mobility solution provided in this paper in that massive influx of many gadgets in hospitals can clog out the network and cause frustrations to the clinicians. The large populations in hospitals act as an obstacle to data transfer between the patient and the doctor which brings suboptimal ties and inefficiencies in the dispensation of medical services to clients (Lisk, 2008).
Furthermore, the clogging of the network means that the rampant growth of cybercrimes will end up being unnoticed in the medical fraternity. The more technology is advancing; the more cybercrimes are escalating. The issue has become unsolvable due` to the lack of a common international law that promotes the netting and repression of the perpetrators who can phish outpatients’ information without consent (Lax & Dammander, 2006).
The solution to this issue is the utilization of EMR systems supported by manual backups of the client information. The two systems will enhance the security of the clinician’s data. furthermore, international law should be passed to counter cyber crimes since the perpetrators at a specific location can flee to another country and evade apprehension
Lax, M. C., & Dammander, A. (2006). WiMAX-A Study of Mobility and a MAC-layer Implementation in GloMoSim. University Department of Computing Science SE-901, 87.
Groeneweg, K. K. (2018). U.S. Patent Application No. 15/180,474.
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