This study aims to explore, identify and understand the design and the strategy for healthcare delivery at both macro and micro levels in an informatics field in the Kingdom of Saudi Arabia. For both patients and professionals, health information technology offers greater quality, safer treatment, and much more. Despite their potential, they are expensive to create and execute. The success of applied information technology in healthcare, on the other hand, is determined by user acceptance and utilisation. This study offers a framework for analysing how health professionals view and intend to use health information technology. To define the primary factors to be assessed, thorough literature research was done. As a measuring methodology, a questionnaire was created and sent to the experts, who are information systems professionals with at least five years of experience. According to a five-point Likert scale, the replies were generally highly agreed, with roughly 79 per cent agreeing. Female respondents were more accepting of electronic data storage than male ones. Other notable distinctions between occupations were also discovered.

In this paper we propose a method where imaginary function “V(x,y)” is used for a solution of a complex variable where the real part “U(x,y)” is unknown. A function f (z) is defined and differentiable at All points all points of “D”. The paper utilizes the following methods in finding the unknown part “Real part U(x,y)” of the analytic function f(z):”The Direct Method, Milne Thompson Method and Exact Differentiable Equation Method”. It was found that, out of the three methods used in finding “the real part” of the analytic function, Direct Method is more efficient as it yields results more faster, efficient and accurate.

This analysis examines a non-uniform heat source or sink, the flow of a power-law fluid induced by vertical parallel plates, and heat transfer using variable viscosity and thermal conductivity. Temperature likely exponentially changes viscosity and thermal conductivity. The implicit finite difference approach solves governing partial differential equations. Power-law index, Prandtl number, variable viscosity, and thermal conductivity are analysed. Skin friction, Nusselt number, and Sherwood number are graphically depicted to analyse channel fluid behaviour.

With advancement of technology at present health monitoring is one of the most emerging fields. Recently Internet of things is used in various applications like remote monitoring of parameters; control the process far away from the plant etc. In our work we used internet of things to design a health monitoring system using Arduino and several sensor network. This system will monitor the body temperature, environmental temperature, humidity, heart rate and fall detection of the patients. The measured value will be communicated to the thingspeak cloud platform. The thingspeak will read the values and send an alert message to the responsible person in the family and also to the respective doctors to do the immediate aid for the patients under abnormal conditions.

In this study, a mathematical model on the transmission dynamics of tuberculosis was formulated and analyzed. The basic reproduction number ( ) for each model is calculated and determined using the next generation method and condition for elimination (disease free equilibrium) or persistence (endemic equilibrium) in a population. Stability analysis shows that disease free equilibrium is locally asymptotically stable whenever the reproduction is less than unity. Furthermore, tuberculosis case detection continued to persist whenever the reproduction number exceeds unity. However, the models consisting of system of first order nonlinear differential equations.