AMBULANCE ALERT CELL

International Journal of Scientific Research in Science, Engineering and Technology, 2020

In these modern times where the technologies is evolving every day. In order to cope up with the need of proper ambulance services during medical emergency situation, an android mobile application named Jeevan Jyoti is introduced which will aim successful booking of ambulance with required medical support both in the ambulance and from the hospital. Mobile application is a growing and in-demand technology because of its easier accessibility and feasibility to remind users about the upcoming updates with the help of push notification. This idea approaches a system where whenever a request for ambulance is raised, it sends that request to all the nearby hospital(s) along with the parameters such as ambulance type, number of casualties, symptoms, medical report, etc. To expand this system, IoT is added which will help the doctor monitor the vital stats such as pulse rate and temperature of the patient continuously while the ambulance is en-route to the hospital.

TELKOMNIKA Telecommunication Computing Electronics and Control, 2020

During the last decade, attention was paid to detect the accident and call the ambulance as soon as possible, the situation was neglected after the arrival of the patient to the specified service point. This negligence led to an increase in the mortality rate, especially where the highest percentage of deaths occurred during the first hour after the accident. This highest Mortality can be avoided by providing proper health care after the arrival of the patient to the hospital, the proposed system reduces the rescue time after the arrival of a patient to the hospital, and it requires each hospital to be endowed with a reception model responsible for detecting and reporting accident situations to the emergency service. It was be found that there is an urgent need for a web-based hospital management system with a mobile web service to respond immediately to incidents in the event of an accident. This system utilizes the Android phone application to connect to the server for transferring the specified data to the hospital and it can be used for comprehensive accident analysis and management. In this paper, a combination of Android phone application, database, and visual studio 2012 was used to develop the system.

Internet of Things relates the real world with the world of automation. Automation is vastly used in manufacturing industries. Activities related to our day to day life can also be automated by different means .Here I have focused to solve the problem of ambulance transportation in heavy traffic using IOT based embedded system. Arduino hardware kit along with GSM and GPS module is used to alert the other vehicles about the arrival of ambulance. Embedded system used in ambulance will regularly send its location to the server and the server will send the alarm messages to the vehicles which are moving on its way to hospital or patient and that will be received by the receiver of those vehicles, so that the traffic will be alerted in advance to provide a hassle free movement of ambulance.

International Journal of Advanced Research in Science, Communication and Technology, 2023

Physical things can be connected to the Internet thanks to the Internet of Things (IoT). Different sensors, medical equipment, artificial intelligence, diagnosis and treatment, and cutting-edge imaging technologies are at the heart of IoT's application in the medical sector. Earnings per share must be able to deliver care swiftly and precisely in order to lower mortality and disability. This could improve the efficiency and quickness of emergency services. The Internet of Things (IoT) in healthcare enables medical personnel to remotely monitor patients by employing big data analytics to look at sensor output. Smart ambulances are important connected devices in EMS. IoT is a cutting-edge concept that delivers the greatest care and performs precision surgery for COVID-19 pa-disease patients. The GPS on the phone is used by the mobile application to follow a user and to send out SOS alerts. While a tracking session is active, the GPS tracking gadget records the path tresses using a GSM SIM card. Numerous sensors can be incorporated onto wearable IDs to send notifications about any medical condition directly to a smartphone application.

International Journal of Electrical and Computer Engineering (IJECE), 2019

Global Burden of Disease Report, released in Sept 2017, shows that Cardiovascular Diseases caused 1.7 million deaths (17.8%) in 2016 and it is the leading cause of deaths in India [1]. According to the Indian Heart Association, 25% of all heart attacks happen under the age of 40. In most cases, the initial heart attacks are often ignored. Even post-diagnosis, as per government data [2], 50% of heart attack cases reach the hospital in more than 400 minutes against the ideal window time of 180 minutes; post which damage is irreversible. The delay is often attributed to delay in reaching a hospital or receiving primary aid. In India, traffic conditions also add to the grimace of the situation. Although the government is taking various measures; a holistic solution is required to minimize the delay at each of the steps like accessing the patient situation, contacting the Medical aid or making available the nearest aid possible. In this paper, we aim at providing the holistic solution using the Internet of Things technology (IOT) along with data analytics. IoT enables real-time capturing and computation of medical data from smart sensors built-in wearable devices. The amalgamation of Internet-based services with Medical Things (Smart sensors) enhance the chances of survival of patients. The proposed system analyses the inputs collected from the sensors fit with the patients prone to cardiovascular diseases to ascertain the emergency situation. In addition, to these data, the system also considers age, maximum and minimum heart rate. Based on computational results received from the input parameters, the system triggers the alert to emergency contacts such as the close relatives of the patient, doctors, the hospitals and nearby ambulance. The proposed system combines with the optimized navigation platform to guide the medical assistance to find the fastest route.

International Journal of Computing and Digital Systems

An alarm is an audio or visual signal to alert people of a problem, danger or something undesirable. Some alarm systems are used for security purposes during producing warning signal in form of sound, light or send alarm message to warn people of a particular danger. In this research a framework of mobile emergency alarm system (MEAS) is proposed. The system consists of two parts: Transmitted and Central emergency. The aim of the first part is to detect the event, its type and trace the location using global position system (GPS) receiver device, furthermore it sends all these gathered information's as SMS message to central emergency part using Global system for mobile communication (GSM). The aim of the second part is monitoring and analyzing the alarm message and finding the nearest helping center. The system uses Arduino microcontroller R3, sound sensor and three push buttons for (fire, car accident and earthquake). Internet of thing (IOT) is used in this system to send and receive the alarms between the transmitted part and central emergency part. The proposed system follows the object-oriented software engineering (OOSE) approach using unified modeling language (UML).

International Journal of Scientific Research in Science, Engineering and Technology, 2020

India is a second most populous country in the world. So, in day to day use people uses vehicles for their daily purpose and it causes heavy traffic on the roads. Hence it is very time consuming and difficult for the ambulances to avoid the traffic and reach to the hospital as early as possible. We developed a Smart Ambulance Service that alerts to traffic police who is present on the same route from where the Ambulance is passing. It notifies the traffic police when Ambulance is 1 km away from him.

International Journal of Innovative Technology and Exploring Engineering, 2019

Health care has become a huge issue nowadays due to lack of availability of quick health services. This paper is concerned with smart (108) ambulance support. The patient or person requesting the service registers himself in the app. Ambulance picks up the patient from his location. Then the sensors monitor the condition of the patient. The patient’s data will be transferred to the database that can be accessed by the hospital staffs for quick arrangement. This is done in order to prepare the services before the patient arrives at the hospital.

The significance of the sonic, especially of vocal music, in the context of animism and perspectivism was hitherto underestimated in anthropological theory. Working on examples of Shipibo-Konibo magical songs from the author's own ethnomusicological fieldwork recordings, in this paper it is proposed that the first-person experience of médicos (healers or sorcerers) has to be considered most valuable for interpreting structures of relationships between humans and non-humans. This experience surfaces most obviously in singing styles and lyrics of songs performed by médicos in the current state of interaction with non-humans during ritual curing, worshipping, or fighting. Results obtained from this analysis include: 1) The ascription of consciousness and human or humanoid physicality to non-humans is the result of the médico's perceptions during musically induced or controlled altered states of perception and cognition (ASPC); 2) The transformation into and identification with non-humans involve full conscious experience by the médico and therefore pertain to the highest level of evidentiality in Shipibo discourse which is ontologically determining; 3) Human physicality and competence of perception and action is not universal among all beings but is a matter of grading dependent on magical and practical powers of the respective species; 4) A "sonic perspectivism" allowing for agency in the construction of perspectives, and an "ambient multinaturalism" extending the notion of transformation from body to environment, are introduced by analysing sonic phenomena. Finally, the author proposes to focus more on indigenous praxis than on analysis and comparison of narratives in order to understand indigenous ontologies.