The author is [6] writes about patient health status monitoring system using Keil IDE, Visual Studio IDE, and Eclipse IDE. Temperature sensor, ECG’ sensor and heartbeat sensor are interfaced with the microcontroller. All the sensors are connected to the patient, then collected data are then transferred through ZigBee transmitter to central nurse station. The PC based application will receive all the parameters through ZigBee receiver, the datas will then be updated into database. Zigbee can differentiate the data coming from different patients. Android application will fetch the parameters for every changes and display on the smart phone application after processing the parameters. Patient health status will be monitored in real-time and …show more content…
A core Java Development Toolkit, which known as Plug-in Development Kit. Modules can be assembled in either Java or different advances which communicates with each other through standard, distributed Extension Points. The author in [7] develop a mobile app for real-time health monitoring on an Android platform. Data is initially acquired on a mobile phone through Bluetooth Low Energy (BLE) and later sent to a database server over WIFI for visualization and analysis. Database is built on the open source PostgreSQL object-relational database system. The system is open source, cross-platform JavaScript Runtime Environment that allows the developing of a wide range of JavaScript applications and tools. The graphical user interfaced created in webserver with specialized software such as Matlab or Labview. Author [8] designed a real-time remote vital signs monitoring and alarm system based on smartphone and mobile network with additional functions like automatic alarming, and GPS location etc. Mobile terminal sends control instruction to physiological acquisition module and writes the receiving data to smartphone SQLite database. APP for Android smartphone is developed in the development environment of Android Studio. Remote server receives monitoring data and GPS location data which are sent from patients’ smartphone. Author in [9] states that the objective is to build a system for patient to communicate and share their data with medical experts without knowing
A remote patient monitoring system provides physicians as well as other caregivers the means to view their patients’ medical statuses at any time. These wearable devices monitor a patient’s vital signs, including his or her heart rate, oxygen saturation, blood pressure, glucose levels and weight. Remote patient monitoring of chronically ill patients can lower hospital readmission rates: Healthcare providers receive the critical information they need to recognize problems before such issues become life threatening.
Health care is massive challenge in developing countries like Africa, Tanzania, and Rwanda etc. Mobile health technology becoming a native application linked to a specific primary healthcare facility. Non communicable diseases such as cancer, hypertension, diabetes and heart diseases, demand is also increasing in healthcare system that may rises rapidly. To overcome all situations, healthcare providers need to pay attention and also need to priorities early detection and treatment.
Innovations in mobile technology have brought remote healthcare management to the forefront of advanced medical care. The ability to record the cardiac activity of a patient at home has been available for some time. But that method utilized a recording device worn by the patient, which needed to be brought in to a hospital or doctor’s office for a healthcare professional to analyze. Today, real-time monitoring in the patient’s home is a reality.
As consumers utilize smartphones, tablets, and other devices for other functions like social media and email, they are starting to look at these features to assist them with their healthcare. Mobile body area network devices will be a growing trend in the coming years as a way to get patients engaged in their healthcare and also to give providers routine updates on the status of patients with chronic conditions. As DeGaspari (2014) indicates, these devices can lead to improved functionality for other devices used in hospitals, such as sensors for monitoring patients that might get up and wander or be a fall risk. Telemedicine will continue to grow as payers, providers, and patients all start to realize the mutual benefits that can be
The emergency department in the modern hospital is one of the most complex clinical settings to operate. According to Johnson, Sensei, & Capasso (2012), this department is an intersection of the diagnosis and treatment of emergency cases. As a result, it experiences immense volumes of patients every day. However, in most hospitals, patients visit the facilities with an indication of what they might be suffering from. Specifically, they use their iPhones to get a list of conditions that they might be having (Boncana, 2016). This method of detection has come to be known as mHealth. In this regard, mHealth, rather mobile health, is a method that patients use to enhance their health and medical practices via the use of mobile technology. The cell phones used in this approach are equipped with medical/health software, a personal digital assistant (PDA), and patient monitoring devices.
The typical daily cost for single in patients in hospitals was over $1,700 in 2013, according to the Kaiser Family Foundation [10]. Remote monitoring products such as the BodyGuardian provide the healthcare advantages such as the option to move patients to their home and retain monitoring of their status by doctors and nurses. A paper [11] proposes an original, IoT-aware, smart architecture for automatic monitoring and tracking of patients, personnel, and biomedical devices within medical
The other technology applied in the healthcare sector is that of applying the connected medical devices. These devices have been applied in making sure that patient information is picked up and automatically transmitted to other connected computers for analysis and easy treatment (Desourdis, 2009). The devices usually allow the patients to see how they are fairing in real-time as well as giving them an opportunity to monitor their own lives on real-time basis. The other important technology that is important in the merged healthcare system is the of installing electronic health record systems that are hosted on physical servers with few healthcare entities by applying cloud-based systems to make sure that data security in the
Provide and maintain life support and airway management and help prepare patients for emergency surgery.
As handheld devices are becoming more pervasive, the variety of applications (apps) available for them is increasing exponentially. There are apps designed for virtually every task, pastime and work endeavor, including nursing. While some hospitals are limiting the use of smart phones on the job because of security risks, others are subscribing to suites of applications to make available to their providers. Unbound Medicine provides a suite of applications under the name Nursing Central, along with other nursing related apps (Krichke 2011).
For example, some electronic health record software allows a patient portal to be created within the system. A patient portal gives the patient the opportunity to e-mail their physician directly, schedule appointments, view results of their appointments, and to request refills of their prescriptions (HealthIT.gov, 2014). Having the ability to e-mail their physician directly allows the patient to communicate effectively with their doctors to address questions or concerns they may have without having to schedule an appointment. It is also easier for a patient to review a written reply from their doctor instead of trying to recollect the information mentioned in-person or from a telephone conversation (Weaver, Lindsay, & Gitelman, 2012). Health care providers also have the advantage of being able to connect with their patients through the portal. Similar to the connections amongst facilities, having an electronic connection to their patients allows the patients to receive pertinent information from their doctor in a timely manner, regarding conclusive lab results or regarding future appointments. The database of patients allows providers to send e-mails to select patients with a specific condition and update them with new health information as well. This means that those who have been diagnosed with a specific
A user-friendly technology design including the properties of quick accessibility, pop up system and easy scrolling and data entry. The no nonsense standardized health information system will be easily accessible for a provider even at the comfort of their home. The standardized electronic health record (SEHR) when selected by the healthcare network will eliminate the electronic miscommunication. While policies and procedures differ in healthcare systems, the integrated SEHR easily adjusted to protocol and modified to the user’s
The days are gone when a doctor walked into a patient's room and grabbed the paper chart at the end of his bed to check his medical history. Increasingly, they offer real-time care monitoring, allowing users to share health data with a doctor from a Smartphone. Some apps even allow doctors to virtually assess, diagnose and treat patients without ever having them leave home.
It is important to understand that patients are very satisfied with electronic health systems. For example, patients see a vast improvement in the speed at which they are being seen when they go their doctors’ office. Patients no longer have to wait on their physicians for hours due to the fact that their information can be readily available to their physicians when they come to see them. Moreover, all their information is transparent to their health care provider since all their data is in electronic form.
Here is a brief description of how the system functions. Overall, our system has a software part. Every patient is provided a unique id against their registration where their details are stored. Readings from the patient by the help of health worker are also stored into central database by using android application . We need the service of an experienced health worker to monitor all these activities. The software part comprises of two applications: an android mobile application and a windows desktop application. Application is designed in such a way that it raises notifications or send sms/email to the health worker and doctor if the input readings lie in critical ranges. This helps the health worker to take further measures. Windows desktop application also provide facility to directly store diagnosis report of the patient to the central database by the pathodology and helps doctor to view all the values measured corresponding to each patient’s details against its id. This helps the doctor to identify complexities associated with the fetus and thus helps the doctor in providing a more accurate diagnosis. He can provide his feedbacks and report for each patient which will be stored back into the central database. By using the Windows desktop application, the health worker can directly view the doctor feedback and further provide require diagnosis to the patient.
Abstract—Wearable devices, refer to electronic technologies or computers that are designed to be worn on the human body. The health issues are increasing day by day and many chronic diseases are there which needs continuous monitoring Hence we need a System which can monitor person continuously. Hence we have developed the system which will monitor person on continuously without any support from Professionals. Also it will send measured parameter to server so that anyone can monitor it from anywhere. The wearable device will have some form of communications capability and will allow the wearer to access information in real time. We have developed mobile data acquisition (DAQ) solution based on an android, which collects personalized health information of the end-user physiological signals are acquired by the sensors which attached on the Human body, store analyze and visualize it on the smart phone and sends it towards the server for further processing. Also for continuous monitoring, we need our system to be power efficient hence we use BLE Device which is more efficient than our classical Bluetooth. Thus it will increase the efficiency of our device and since we are monitoring the human body