BSN is a prior and emerging technology in the medical field .BSN care system first deploy light weight ,tinypowered
sensors on patient body which communicate with each other and the coordinator node which is on
the body.This system mainly focuses on the measurement and estimation of important parameters like
ECG,temperature,level of blood. This real time system focuses on several parameters like patient location,
data storage, motion detection and transmission of data as well as alert messages to first responder and
server of hospital.In this system we are using three types of sensors ECG sensor,temperature sensor and
level sensor which gathers patients information and sends to micro-controller via which it goes to
BTC(Bluetooth Controller) through it is transferred to an Android smart phone of patient via Wi-Fi/Internet it
goes to server and from the server data is sends to doctors Android App. We are additionally using NFC(Near
Field Communication) technology,motion detection of patient by continuous grabbing of feed from
camera.Subsequently, by using this customized algorithm we proposed IOT based healthcare system using
body sensors which efficiently accomplish requirement.
Spatiotemporal Analysis of Infant and Maternal Morality of Mother and Child T...IJMTST Journal
Community healthcare is significant societal issue with profound suggestions for government organization
and with huge effect on individual standards of livelihood. The maintaining and monitoring of numerous
health associated government schemes are done through information technology where involvement of
Geographic Information System (GIS) is missing. This Project intends in integrating a GIS with Infant and
Maternal Mortality of Mother and Child Tracking System (MCTS). Thematic Mapping is a component of GIS
where it has constantly characterized to demonstrate the current status of health issues in an influential
way. The open source tool Quantum GIS (QGIS) is used to represent Infant and Maternal Mortality on
Thematic Maps which helps in identifying the areas with higher and weaker distributions of affected
population.
Advances in information and communication technologies have led to the emergence of Internet of Things
(IoT). In the modern health care environment, the usage of IoT technologies brings convenience to physicians and
patients since they are applied to various medical areas (such as real-time monitoring, patient information and healthcare
management). The body sensor network (BSN) technology is one of the core technologies of IoT developments in
healthcare system, where a patient can be monitored using a collection of tiny-powered and lightweight wireless sensor
nodes
An intelligent approach to take care of mother and baby healthIJECEIAES
This is the era of technology and is widely used in every sector. In Bangladesh the use of technology is increasing day by day in many sectors. Health sector is one of them. This research is designed and developed to help the pregnant women to get weekly information on development and conditions of their health and the growing child inside their womb. This system will notify expectant mothers automatically about their health checkup date and time. It provides general and special health information to the expectant mothers. It is designed with user friendly interface so that an expectant mother can use this system very effectively. This system allows a unique secure login system and provides a unique suggestion to the expectant mothers.This system is very user friendly and useful.
Spatiotemporal Analysis of Infant and Maternal Morality of Mother and Child T...IJMTST Journal
Community healthcare is significant societal issue with profound suggestions for government organization
and with huge effect on individual standards of livelihood. The maintaining and monitoring of numerous
health associated government schemes are done through information technology where involvement of
Geographic Information System (GIS) is missing. This Project intends in integrating a GIS with Infant and
Maternal Mortality of Mother and Child Tracking System (MCTS). Thematic Mapping is a component of GIS
where it has constantly characterized to demonstrate the current status of health issues in an influential
way. The open source tool Quantum GIS (QGIS) is used to represent Infant and Maternal Mortality on
Thematic Maps which helps in identifying the areas with higher and weaker distributions of affected
population.
Advances in information and communication technologies have led to the emergence of Internet of Things
(IoT). In the modern health care environment, the usage of IoT technologies brings convenience to physicians and
patients since they are applied to various medical areas (such as real-time monitoring, patient information and healthcare
management). The body sensor network (BSN) technology is one of the core technologies of IoT developments in
healthcare system, where a patient can be monitored using a collection of tiny-powered and lightweight wireless sensor
nodes
An intelligent approach to take care of mother and baby healthIJECEIAES
This is the era of technology and is widely used in every sector. In Bangladesh the use of technology is increasing day by day in many sectors. Health sector is one of them. This research is designed and developed to help the pregnant women to get weekly information on development and conditions of their health and the growing child inside their womb. This system will notify expectant mothers automatically about their health checkup date and time. It provides general and special health information to the expectant mothers. It is designed with user friendly interface so that an expectant mother can use this system very effectively. This system allows a unique secure login system and provides a unique suggestion to the expectant mothers.This system is very user friendly and useful.
Big Data, CEP and IoT : Redefining Holistic Healthcare Information Systems an...Tauseef Naquishbandi
Healthcare industry has been a significant area for innovative application of various technologies over decades. Being an area of social relevance governmental spending on healthcare have always been on the rise over the years. Event Processing (CEP) has been in use for many years for situational awareness and response generation. Computing technologies have played an important role in improvising several aspects of healthcare. Recently emergent technology paradigms of Big Data, Internet of Things (IoT) and Complex Event Processing (CEP) have the potential not only to deal with pain areas of healthcare domain but also to redefine healthcare offerings. This paper aims to lay the groundwork for a healthcare system which builds upon integration of Big Data, CEP and IoT.
An Intelligent Healthcare Serviceto Monitor Vital Signs in Daily Life – A Cas...IJERA Editor
Vital signs monitoring for elderly in daily life environment is a promising concept that efficiently can provide medical services to people at home. However, make the system self-served and functioning as personalized provision makes the challenge even larger. This paper presents a case study on a Health-IoT system where an intelligent healthcare service is developed to monitor vital signs in daily life. Here, a generic Health-IoT framework with a Clinical Decision Support System (CDSS) is presented. The generic framework is mainly focused on the supporting sensors, communication media, secure and safe data communication, cloud-based storage, and remote accesses of the data. The CDSS is used to provide a personalized report on persons‟ health condition based on daily basis observation on vital signs. Six participants, from Spain (n=3) and Slovenia (n=3) have been using the proposed healthcare system for eight weeks (e.g. 300+ health measurements) in their home environments to monitor their health. The sensitivity, specificity and overall accuracy of the DSS‟s classification are achieved as 90%, 97% and 96% respectively while k=2 i.e., top 2 most similar retrieved cases are considered. The initial user evaluation resultdemonstrates the feasibility and performance of the implemented system through the proposed framework.
The information technology played an important role in information
and knowledge dissemination in the last decade. The usage of IT to
transfer information and knowledge in the animal health care domain
using expert systems is one of the areas investigated by many
institutions. The current era is witnessing a vast development in all
fields of animal health care. Therefore there is a need for an
unconventional method to transfer the knowledge of experts in this
domain to the general public of livestock holders, especially that the
number of experts in new technologies is lesser than their demand in a
certain domain. The transfer of knowledge from veterinary consultants
& scientists to livestock holders represents a bottleneck for the
development of animal health care in any country. Expert systems are
simply computer software programs that mimic the behaviour of human
experts. They are one of the successful applications of the Artificial
Intelligence field, a branch in Computer Science that investigates how
to make the machine think like human or do tasks that humans do.
Expert Systems are very helpful to ensure an effective and nationally
coordinated approach in response to emergency incidents and in routine
bio-security activities. Such systems enable better management of the
information and resources used to manage animal’s diseases and
emergency responses to incursions.
Giris basics of biomedical informatics generalSerkan Turkeli
At the end of this course, students will be able to
• Define medical informatics
• Define information management, information technology and informatics
• Define concepts of medical informatics
• Selecting best techniques to manage a medical informatics project.
Presented at the Master of Science and Doctor of Philosophy Programs in Data Science for Healthcare and Clinical Informatics, Department of Clinical Epidemiology and Biostatistics, Faculty of Medicine Ramathibodi Hospital, Mahidol University, Bangkok, Thailand on October 7, 2020
At Modern Health Talk, we see the future of mHealth as less about Mobile health and more about MODERN healthcare that includes all sorts of solutions for addressing demographic shift of retiring baby boomers and the resulting doctor shortage.
These solutions include mobile technologies (smartphones & tablets) and big broadband support of high-def video calls with medical imaging, as well as new delivery options such as retail clinics and insurance-funded home care (and home modifications), remote sensor monitoring, healthcare robots, Watson-like cloud services, new laws & regulations, support of family caregivers, and more.
Survey of IOT based Patient Health Monitoring Systemdbpublications
The Internet of things has provided a promising opportunity and applications for medical services is one of the most important way or solution for taking care of population which is in rapid growth. Internet of things consists of communication and sensors; wireless body area network is highly suitable tool for the medical IOT device. In this survey we discuss mainly on practical issues for implementation of WBAN to health care service tool for the medical devices. The IoT applications are key enabling technologies in industries. A main aim of this survey paper is that it summarizes the present state-of-the-art IOT in industries and also in workflow hospitals systematically. In recent years wide range of opportunity and powerful of IOT applications are developed in industry. The health monitoring system is a big challenge for several researchers. In this paper introduced on the survey of different IOT applications are used for the health monitoring system. The IoT applications are used to decrease the problems which are related to health care system.
SURVEY ON A MODERN MEDICARE SYSTEM USING INTERNET OF THINGS | J4RV3I12024Journal For Research
Since the population of the world is aging rapidly, how to provide appropriate health care to the elderly and unwell people becomes an important issue and draws high attention from medical, academic and industrial fields of the society. The Internet of Things (IoT) drives the evolution of the Internet and is regarded as a great potential to improve quality of life for the surging number of elderly people, significantly. As Android operating system gains immense popularity nowadays, it is a trend to make use of it for the wider access of IoT utility. This project presents a health monitoring system prototype based on IoT, with the increasing use of sensors by medical devices, remote and continuous monitoring of a patient’s health. This network of sensors and other mobile communication devices referred to as the Internet of Things for Medical Devices (IoT-MD), is poised to revolutionize the functioning of the healthcare industry. Untimed medicine administration can always show adverse effects on the health of the patients. The proposed system is designed to help these patients to take the required medicine in the right proportion at the right time. The basic ideology is integrating the principle of IoT with weight-based slot sensing on a normal pillbox. To make it more state-of-the-art, it is inbuilt with a Wi-Fi module for alerting the patient and also the chemist at the needed instant using IoT.
The worldwide network of internet of things (IOT) combined with advancements in sensor networks, FID and software platform connects objects of various application fields and technology. IOT is most commonly described as an ecosystem of technologies but it requires necessary components to enable communication between devices and objects. Components being RFID and sensors. Many organization have already implemented IOT. Healthcare industry too have adopted IOT and can be extensively used in the future for the benefit of patients, elderly people and caregivers. A new concept named 'Health Internet of Things (HIOT)' was proposed to exploit sensor technologies and wireless networks in monitoring medical conditions. Also advancements in E textile technologies make the textile multifunctional, adaptive and responsive system which combined with IOT performs functions such as communication, computation and health care benefits. Cloud is used to store, control and retrieve or transform or classify information. The use of cloud based application in healthcare industries is constantly growing to benefit patients so that they can monitor their health, store and share records. This paper aims at developing a dependable, productive, high performance and assured smart healthcare system to deliver service to patients avoiding health risks using e textile technologies
IoT is a modest way to elevate our production and yield with the help of internet. We can supervise and control and communicate with the help of internet. Internet Of Things imagines a future physical and digital entities are to be linked by proper information and communication technologies which will sanction new class of applications and services. In this survey we will ensure a survey of applications and research difficulties for Internet Of Things in Healthcare. Shivani Ramesh Sharma ""Internet of Things (IoT): IoT in Healthcare"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23971.pdf
Paper URL: https://www.ijtsrd.com/computer-science/computer-security/23971/internet-of-things-iot-iot-in-healthcare/shivani-ramesh-sharma
Big Data, CEP and IoT : Redefining Holistic Healthcare Information Systems an...Tauseef Naquishbandi
Healthcare industry has been a significant area for innovative application of various technologies over decades. Being an area of social relevance governmental spending on healthcare have always been on the rise over the years. Event Processing (CEP) has been in use for many years for situational awareness and response generation. Computing technologies have played an important role in improvising several aspects of healthcare. Recently emergent technology paradigms of Big Data, Internet of Things (IoT) and Complex Event Processing (CEP) have the potential not only to deal with pain areas of healthcare domain but also to redefine healthcare offerings. This paper aims to lay the groundwork for a healthcare system which builds upon integration of Big Data, CEP and IoT.
An Intelligent Healthcare Serviceto Monitor Vital Signs in Daily Life – A Cas...IJERA Editor
Vital signs monitoring for elderly in daily life environment is a promising concept that efficiently can provide medical services to people at home. However, make the system self-served and functioning as personalized provision makes the challenge even larger. This paper presents a case study on a Health-IoT system where an intelligent healthcare service is developed to monitor vital signs in daily life. Here, a generic Health-IoT framework with a Clinical Decision Support System (CDSS) is presented. The generic framework is mainly focused on the supporting sensors, communication media, secure and safe data communication, cloud-based storage, and remote accesses of the data. The CDSS is used to provide a personalized report on persons‟ health condition based on daily basis observation on vital signs. Six participants, from Spain (n=3) and Slovenia (n=3) have been using the proposed healthcare system for eight weeks (e.g. 300+ health measurements) in their home environments to monitor their health. The sensitivity, specificity and overall accuracy of the DSS‟s classification are achieved as 90%, 97% and 96% respectively while k=2 i.e., top 2 most similar retrieved cases are considered. The initial user evaluation resultdemonstrates the feasibility and performance of the implemented system through the proposed framework.
The information technology played an important role in information
and knowledge dissemination in the last decade. The usage of IT to
transfer information and knowledge in the animal health care domain
using expert systems is one of the areas investigated by many
institutions. The current era is witnessing a vast development in all
fields of animal health care. Therefore there is a need for an
unconventional method to transfer the knowledge of experts in this
domain to the general public of livestock holders, especially that the
number of experts in new technologies is lesser than their demand in a
certain domain. The transfer of knowledge from veterinary consultants
& scientists to livestock holders represents a bottleneck for the
development of animal health care in any country. Expert systems are
simply computer software programs that mimic the behaviour of human
experts. They are one of the successful applications of the Artificial
Intelligence field, a branch in Computer Science that investigates how
to make the machine think like human or do tasks that humans do.
Expert Systems are very helpful to ensure an effective and nationally
coordinated approach in response to emergency incidents and in routine
bio-security activities. Such systems enable better management of the
information and resources used to manage animal’s diseases and
emergency responses to incursions.
Giris basics of biomedical informatics generalSerkan Turkeli
At the end of this course, students will be able to
• Define medical informatics
• Define information management, information technology and informatics
• Define concepts of medical informatics
• Selecting best techniques to manage a medical informatics project.
Presented at the Master of Science and Doctor of Philosophy Programs in Data Science for Healthcare and Clinical Informatics, Department of Clinical Epidemiology and Biostatistics, Faculty of Medicine Ramathibodi Hospital, Mahidol University, Bangkok, Thailand on October 7, 2020
At Modern Health Talk, we see the future of mHealth as less about Mobile health and more about MODERN healthcare that includes all sorts of solutions for addressing demographic shift of retiring baby boomers and the resulting doctor shortage.
These solutions include mobile technologies (smartphones & tablets) and big broadband support of high-def video calls with medical imaging, as well as new delivery options such as retail clinics and insurance-funded home care (and home modifications), remote sensor monitoring, healthcare robots, Watson-like cloud services, new laws & regulations, support of family caregivers, and more.
Survey of IOT based Patient Health Monitoring Systemdbpublications
The Internet of things has provided a promising opportunity and applications for medical services is one of the most important way or solution for taking care of population which is in rapid growth. Internet of things consists of communication and sensors; wireless body area network is highly suitable tool for the medical IOT device. In this survey we discuss mainly on practical issues for implementation of WBAN to health care service tool for the medical devices. The IoT applications are key enabling technologies in industries. A main aim of this survey paper is that it summarizes the present state-of-the-art IOT in industries and also in workflow hospitals systematically. In recent years wide range of opportunity and powerful of IOT applications are developed in industry. The health monitoring system is a big challenge for several researchers. In this paper introduced on the survey of different IOT applications are used for the health monitoring system. The IoT applications are used to decrease the problems which are related to health care system.
SURVEY ON A MODERN MEDICARE SYSTEM USING INTERNET OF THINGS | J4RV3I12024Journal For Research
Since the population of the world is aging rapidly, how to provide appropriate health care to the elderly and unwell people becomes an important issue and draws high attention from medical, academic and industrial fields of the society. The Internet of Things (IoT) drives the evolution of the Internet and is regarded as a great potential to improve quality of life for the surging number of elderly people, significantly. As Android operating system gains immense popularity nowadays, it is a trend to make use of it for the wider access of IoT utility. This project presents a health monitoring system prototype based on IoT, with the increasing use of sensors by medical devices, remote and continuous monitoring of a patient’s health. This network of sensors and other mobile communication devices referred to as the Internet of Things for Medical Devices (IoT-MD), is poised to revolutionize the functioning of the healthcare industry. Untimed medicine administration can always show adverse effects on the health of the patients. The proposed system is designed to help these patients to take the required medicine in the right proportion at the right time. The basic ideology is integrating the principle of IoT with weight-based slot sensing on a normal pillbox. To make it more state-of-the-art, it is inbuilt with a Wi-Fi module for alerting the patient and also the chemist at the needed instant using IoT.
The worldwide network of internet of things (IOT) combined with advancements in sensor networks, FID and software platform connects objects of various application fields and technology. IOT is most commonly described as an ecosystem of technologies but it requires necessary components to enable communication between devices and objects. Components being RFID and sensors. Many organization have already implemented IOT. Healthcare industry too have adopted IOT and can be extensively used in the future for the benefit of patients, elderly people and caregivers. A new concept named 'Health Internet of Things (HIOT)' was proposed to exploit sensor technologies and wireless networks in monitoring medical conditions. Also advancements in E textile technologies make the textile multifunctional, adaptive and responsive system which combined with IOT performs functions such as communication, computation and health care benefits. Cloud is used to store, control and retrieve or transform or classify information. The use of cloud based application in healthcare industries is constantly growing to benefit patients so that they can monitor their health, store and share records. This paper aims at developing a dependable, productive, high performance and assured smart healthcare system to deliver service to patients avoiding health risks using e textile technologies
IoT is a modest way to elevate our production and yield with the help of internet. We can supervise and control and communicate with the help of internet. Internet Of Things imagines a future physical and digital entities are to be linked by proper information and communication technologies which will sanction new class of applications and services. In this survey we will ensure a survey of applications and research difficulties for Internet Of Things in Healthcare. Shivani Ramesh Sharma ""Internet of Things (IoT): IoT in Healthcare"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23971.pdf
Paper URL: https://www.ijtsrd.com/computer-science/computer-security/23971/internet-of-things-iot-iot-in-healthcare/shivani-ramesh-sharma
Smart clothing is on tremendous high demand for the various safety purposes, for heath in hazardous environment, for improvising business performance, appearance and in entertainment. With the wearable devices like smart jackets and other accessories it is possible to collect and detect the signals for the organizations to respond the incidents in many different ways.Smart Clothing joins in materials and remote sensor and organizes with regards to human body observing with measurable strategies for the information and treatment. Thejashwini. K. S | Sayeeqa Anjum | Sowmya K. N | C R Manjunath"IoT Based Smart Clothing" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-4 , June 2018, URL: http://www.ijtsrd.com/papers/ijtsrd13055.pdf http://www.ijtsrd.com/engineering/computer-engineering/13055/iot-based-smart-clothing/thejashwini-k-s
Ecis final paper-june2017_two way architecture between iot sensors and cloud ...Oliver Neuland
Improving health care with IoT - Research into a weight monitoring bed - ECIS 2017 paper.
Resulting from smart furniture applications research project in Germany, Oliver Neuland and partners from AUT developed a smart bed concept which utilizes weight monitoring for AAL and elderly care. Initially strategies were applied to find meaningful use cases, later a prototype was developed. Here a paper presented during ECIS in Portugal which describes the architecture of the prototype.
The Future of mHealth - Jay Srini - March 2011LifeWIRE Corp
Jay Srini's presentation of her take on the Future of mHealth, presented at the 3rd mHealth Networking Conference, March 30, 2011. Aside from being one of the preeminent thought leader in the area of innovation and mhealth, she holds a number of positions including Assistant Professor at the University of Pittsburgh and CIO for LifeWIRE Corp.
In the last decade the healthcare monitoring systems have drawn considerable attentions of the researchers. The prime goal was to develop a reliable patient monitoring system so that the healthcare professionals can monitor their patients, who are either hospitalized or executing their normal daily life activities. In this work we present a mobile device based wireless healthcare monitoring system that can provide real time online information about physiological conditions of a patient. Our proposed system is designed to measure and monitor important physiological data of a patient in order to accurately describe the status of her/his health and fitness. In addition the proposed system is able to send alarming message about the patient’s critical health data by text messages or by email reports. By using the information contained in the text or e-mail message the healthcare professional can provide necessary medical
advising. The system mainly consists of sensors, the data acquisition unit, microcontroller (i.e., Arduino), and software (i.e., LabVIEW). The patient’s temperature, heart beat rate, muscles, blood pressure, blood glucose level, and ECG data are monitored, displayed, and stored by our system. To ensure reliability and accuracy the proposed system has been field tested. The test results show that our system is able to measure the patient’s physiological data with a very high accuracy.
Smart health monitoring system using IoT based smart fitness mirrorTELKOMNIKA JOURNAL
The smart fitness mirror proposed in this researchaims to provide the users with a platform to monitor their health and fitness status on a daily basis. The system employs a number of sensors to monitor the body mass index (BMI) and amount of body fat present in the user’s body. A weight scale consisting of four load sensors has been implemented to obtain the weight of the user whereas an ultrasonic sensor has been used to measure the height of the user. In addition, four electrode plates have been implemented on the foot weight scale to infuse a small amount of electric current (1mA) for BIA (bioelectrical impedance analysis) to estimate the amount of body fat percentage, lean body mass and total body water. An IR temperature sensor has been implemented in the research to measure the temperature of the user’s body from the forehead. Tests conducted on the system illustrate that it is able to accurately compute the body mass index and perform a bioelectrical impedance analysis on the user. The system is able to achieve a 92.5 % and 93.7 % accuracy in determining the body mass index and body fat percentage respectively. An accuracy of 95.3 % was observed in the determination of the body temperature.
7 Best Points of The Future of Digital Technology in Healthcare | The Entrepr...TheEntrepreneurRevie
Here are 7 Best Points of The Future of Digital Technology in Healthcare; 1. Smartphones and wearable technology, 2. Virtual Machines (VMs), 3. Telecommunications medicine,
We provide project guidance for final year MTech, BTech, MSc, MCA, ME, BE, BSc, BCA & Diploma students in Electronics, Computer Science, Information Technology, Instrumentation, Electrical & Electronics, Power electronics, Mechanical, Automobile etc. We provide live project assistance and will make the students involve throughout the project. We specialize in Matlab, VLSI, CST, JAVA, .NET, ANDROID, PHP, NS2, EMBEDDED, ARDUINO, ARM, DSP, etc based areas. We research in Image processing, Signal Processing, Wireless communication, Cloud computing, Data mining, Networking, Artificial Intelligence and several other areas. We provide complete support in project completion, documentation and other works related to project.Success is a lousy teacher. It seduces smart people into thinking they can't lose.we have better knowledge in this field and updated with new innovative technologies.
Call me at: 9037291113
Forklift Classes Overview by Intella PartsIntella Parts
Discover the different forklift classes and their specific applications. Learn how to choose the right forklift for your needs to ensure safety, efficiency, and compliance in your operations.
For more technical information, visit our website https://intellaparts.com
Quality defects in TMT Bars, Possible causes and Potential Solutions.PrashantGoswami42
Maintaining high-quality standards in the production of TMT bars is crucial for ensuring structural integrity in construction. Addressing common defects through careful monitoring, standardized processes, and advanced technology can significantly improve the quality of TMT bars. Continuous training and adherence to quality control measures will also play a pivotal role in minimizing these defects.
TECHNICAL TRAINING MANUAL GENERAL FAMILIARIZATION COURSEDuvanRamosGarzon1
AIRCRAFT GENERAL
The Single Aisle is the most advanced family aircraft in service today, with fly-by-wire flight controls.
The A318, A319, A320 and A321 are twin-engine subsonic medium range aircraft.
The family offers a choice of engines
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
CFD Simulation of By-pass Flow in a HRSG module by R&R Consult.pptxR&R Consult
CFD analysis is incredibly effective at solving mysteries and improving the performance of complex systems!
Here's a great example: At a large natural gas-fired power plant, where they use waste heat to generate steam and energy, they were puzzled that their boiler wasn't producing as much steam as expected.
R&R and Tetra Engineering Group Inc. were asked to solve the issue with reduced steam production.
An inspection had shown that a significant amount of hot flue gas was bypassing the boiler tubes, where the heat was supposed to be transferred.
R&R Consult conducted a CFD analysis, which revealed that 6.3% of the flue gas was bypassing the boiler tubes without transferring heat. The analysis also showed that the flue gas was instead being directed along the sides of the boiler and between the modules that were supposed to capture the heat. This was the cause of the reduced performance.
Based on our results, Tetra Engineering installed covering plates to reduce the bypass flow. This improved the boiler's performance and increased electricity production.
It is always satisfying when we can help solve complex challenges like this. Do your systems also need a check-up or optimization? Give us a call!
Work done in cooperation with James Malloy and David Moelling from Tetra Engineering.
More examples of our work https://www.r-r-consult.dk/en/cases-en/
Democratizing Fuzzing at Scale by Abhishek Aryaabh.arya
Presented at NUS: Fuzzing and Software Security Summer School 2024
This keynote talks about the democratization of fuzzing at scale, highlighting the collaboration between open source communities, academia, and industry to advance the field of fuzzing. It delves into the history of fuzzing, the development of scalable fuzzing platforms, and the empowerment of community-driven research. The talk will further discuss recent advancements leveraging AI/ML and offer insights into the future evolution of the fuzzing landscape.
Vaccine management system project report documentation..pdfKamal Acharya
The Division of Vaccine and Immunization is facing increasing difficulty monitoring vaccines and other commodities distribution once they have been distributed from the national stores. With the introduction of new vaccines, more challenges have been anticipated with this additions posing serious threat to the already over strained vaccine supply chain system in Kenya.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
Overview of the fundamental roles in Hydropower generation and the components involved in wider Electrical Engineering.
This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
2. 83 International Journal for Modern Trends in Science and Technology
Poonam More, Kanjana Memane, Trupti Londhe and H.J.Thanki : Advance IoT-based BSN Healthcare System for
Emergency Response of Patient with Continuous Monitoring and Motion Detection
each other and with software running in the
cloudthese devices can act as sensors,monitors
what is happening in environment and in
particular .they can also process information and
take required actions,such as controlling heating
and air conditioning ,locking doors and window
and reminding people to take medications or
encourage them to be active,or simply go for a
walk. IOT has its lots of contribution in medical
field as latest example is BSN technology where it
provides environment ,where vital parameters get
transmitted by medical devices like body sensors
to public cloud and secured private cloud in which
information can be stored, assembled and
analyzed.In this way such type of cloud can store
millions of patients health related data which can
be future analyzed.This paper truly discusses more
about BSN and its application .
II. IOT SERVICES
There are lots of recent researches in medical
field.These researches are done on the basis of new
technology,performance and benefits. The
researches are made with respect to users and
clinical equipments.Day-by-day new mobile
phones are getting launched having there special
features.Many mobile phones and adornments like
wrist watches contain biosensors in them. This
briefly tells us about Medical Health, which uses
smart-phones for consultation and practice of
health related issues. This reduces consultation
errors due to continuous monitoring. IOT health
care applications can be classified in to different
types based on their performance and way of
working[14].
1. Tracing patient's location.
2. Recognition and authorized.
3. Aggregation of data and its sensing.
Health trends can be analyzed and discovered with
respect to the application areas in medical practice.
Some of the applications areas are given below
along with the usage of IOT concept and their
benefits to humans.
1)Wireless monitoring system for patients:
This system is essential for identifying patients
essential parameters and activities remotely with
the help of sensors situated on human body.In this
model the real time data is being shared and send
to the caretakers and doctors.This system is
specially used for the management of disease heart
disease,hypertension, diabetes,asthma,etc. where
patient needs to continuously monitor. Example
:Wireless monitoring electronic device like
defibrillator.
2)Access of Mobile devices:
Access of Mobile devices is completely based on the
mobile technologies that allow hospitalization
systems to be remotely or virtually accessed.All
these hospitalization system can be easily
monitored using an Android application.This
Android application in healthcare is known as
e-health.If this Android application is used for
continuous monitoring and transmission of
health related data then it is known as m-health.
Examples: Android apps.
3)Sensor devices:
The sensor devices are used for capturing and
retrieving the key care constraints and health
management data.This is mainly used for checking
the patient is fit or not.Tracking the patients
movements which can be done by continuous
monitoring with the help of cameras.The data
gathered with the help of sensors,can be evaluated
by the physician. Examples:Wearables shirts, wrist
watches, google, etc.
4) Implicit Consultation :
Implicit Consultation is based on the remotely
consulting the patient with the help of multimedia
audio and video .It also helps in educating people
about their health, medicine delivery and
consultation in the case of emergency.Due to the
consultation time is getting to longer in many
countries,people have to face many
problems.Implicit consultation of a patient can be
done in few seconds.The remote problem detecting
with the help of screen has become common.
Examples:Audio-Video consultation,
Tele-consultations
III. IOT HEALTHCARE SERVICES
1) m-HEALTH using Internet of Things[8]:
m-health is a body sensors mobile , and
communications technologies which provides
health services. In theory, m-IOT works with 4G
networks which connects the 6LoWPAN and it is
related to healthcare connectivity model. for future
internet-based m-health services. m-IOT refers to
3. 84 International Journal for Modern Trends in Science and Technology
Poonam More, Kanjana Memane, Trupti Londhe and H.J.Thanki : Advance IoT-based BSN Healthcare System for
Emergency Response of Patient with Continuous Monitoring and Motion Detection
medical based IOT services. The m-IOT services
are used for checking the capacity for sensing the
glucose level in blood.The context aware issues
and m-IOT services.
2) Healthcare System for Monitoring Community
Healthcare System for Monitoring of community is
the system in which group of people or community
are covered . This can be used for the people in
government hospital, private hospitals,
residential area, or in rural areas. The
combination of all these network is known as
co-operative network structure. The resident
healthcare system is based on functional model
which is used sharing the data between the
clinical services and facilities for obtaining the
health records.
3) Health Report of Children
It is very important to make people aware about
the children's health .The children healthcare
system tells that the children should have good
nutritional habits. This researches have developed
children healthcare system to serve the need of
children's in a proper manner. This system deals
with educating, empowering the hospitalized
children.
4) Accessing the Wearable Devices:
WSN-based healthcare system use different types
of sensor. These sensors are good enough to
provide the required services to IOT. The sensors
can be integrated together to form a wearable
product. The variable nature of various sensor is a
challenges to integrate to form a wearable product.
Wearable devices have some enticing features with
respect to IOT. This system uses various medical
application through mobile devices like smart
phones and watches.
5) Healthcare System with Indirect Emergency:
In various health issues emergency conditions
elaborated are climatic conditions, accidents
during transportation caused due to vehicle, ship,
train. This service provided is known as indirect
emergency healthcare which provide solution like
availability of information, accident actions and
keep track of records.
IV. IOT IN HEALTHCARE APPLICATION
The various applications of IOT are as follows[12]:
1) ECG Recording :
Electrical activity of heart called as
electrocardiogram is measured by using
electrocardiography. It measures heart bits rate as
well as rhythm of heart which can be further
utilized for detecting diseases. Nowadays IOT
based ECG monitoring system are developed
which consist of transmitter and receiver.This
system also measures cardiac function of heart on
real time bases..
2) BP(Blood Pressure Monitoring):
combination of a KIT blood pressure (BP) meter
and an NFC-enabled KIT mobile phone becomes
part of BP monitoring based on the IOT is
addressed. A motivating summary in which BP
must be regularly controlled remotely is presented
by showing the communications structure
between a health post and the health center. The
question of how the BP device operates depends on
the connection to an Apple mobile computing
device is addressed in. A device for BP data
collection and transmission over an IOT network is
proposed . This device is composed of a BP
apparatus body with a communication module. A
location-smart and intelligent terminal for
carry-on BP monitoring based on the IOT is
proposed .
3) Temperature Monitoring:
Body temperature monitoring is very important
part in healthcare diagnosis as it is sign of
maintenance of body.In the BSN care system
using different sensors or using temperature
sensors temperature of body can be measured.
The m-IOT concept can be checked and verified
using a body temperature sensor that is embedded
in the TelosB mote. A temperature measurement
system is based on a home gateway over the IOT.
The home gateway transmits the patients body
temperature with the help of infrared detection.
Another IOT-based temperature monitoring
system is developed . The main system
components are responsible for temperature
measuring and transmission are the RFID module
and the module for monitoring body temperature.
4) Wheelchair for physically disabled people:
Generally wheelchair system was designed for
physically disabled people.This chair provides full
control for disable people due to which they can
accelerate or improve speed of working[40].This
design is WBAN’s integrated with various
sensors.This system can detect the status of
wheelchair user and also provides chair vibration
control .Best example of wheelchair is wheelchair
designed by Intel’s IOT department.This chair can
gather data of user surrounding which also
provides location of user
5) Improved healthcare using smartphone:
Now a days too much android apps are developing
for smartphones with having their specific
features.There are lots medical apps as well as
4. 85 International Journal for Modern Trends in Science and Technology
Poonam More, Kanjana Memane, Trupti Londhe and H.J.Thanki : Advance IoT-based BSN Healthcare System for
Emergency Response of Patient with Continuous Monitoring and Motion Detection
apps for patient which helps them.Different
diagnosis apps are available which are used to get
diagnosis and treatment information this kind of
also gives information about dosage of drug to
take. Smartphone can be used for detection of
heart rate, blood pressure etc. Such type of apps
can be used for analysis of wounds of diabetic
patient .Best benefit of this is that it is low cost
solution but it require more power consumption
.This system provides quality care.
6) Managing chronic diseases:
Now a days changing lifestyle, pollution , stress
,consuming of junk food causes people to have
different diseases like hypertension, obesity,
pulmonary problems ,diabetes. Managing the
lifestyle of the patient via continuous engagement,
to help the patient to have proper control or
management on diseases
7) Keeping the fitness record :
Now a days people or most of the youth become to
much aware about their health . They want to stay
healthy and fit. They do their daily exercise and
fitness regimes and use an app or android based
application to store the data and keep record of
their progress. These kind of apps are also used to
keep schedules created by trainers.
V. BENEFITS OF IOT-MEDICAL DEVICES
Different benefits are[14]:
1) Cost minimization for patient :
Here the patient can be monitored from far
distance also.so it minimizes patient travelling
cost and time wastage for multiple visit.Home care
can be taken whenever received .This system
minimizes hospital bill.
2) Earlier services:
This system provides time to time care for patient
requires.Systempatient outcomes can be
increases because doctor can use evidence based
medicine..
3) Disease management on real time basis:
Here the patient are get treated as early as
possible before their health get too much worse.
This totally minimizes cost of care.
4) Quality of life get improved:
This system helps aged people also critically ill
people .now they people can live at any place they
wantswithout any care because from that place
also their help care can be take
VI. CHALLENGES OF IOT SERVICES:
IOT world has challenges in many directions . The
main focus is on providing security and privacy
as this is the essential cause of other challenges
[5]
1) Scalability :
As the many IOT devices gets connected
throughout the wireless network, big volume of
data needs to be processed. The system which
gather, stores, analyses these information from
the IOT devices must be scalable.
2) Interoperability:
This helps in generating common model and
specific standard for IOT devices.This lack of
interoperability is preventing us from moving
towards the aim of truly connected everyday
interoperable smart objects.
3) Patients safety:
Most of the times IOT devices are implantable or
wearable. Any ignorance in security can be proved
to be life threatening and considered very critical .
4) Keeping Security and personal privacy :
The IOT in healthcare should provide
Confidentiality, Integrity, and Availability of
patients ,personal data.Personal detail should not
be leaked
VII. DESIGN CHALLENGES:
As the IOT becoming crucial part of our life. As the
technology is growing at very fast. design
challenges can be met in the early future. These
are:
1.Limited energy
2.Limited memory
3.Limited compute power
VIII. IOT MEDICAL SERVICE REQUIREMENTS[13]:
1) Integrity
Medical data should not change in transmission
path which can be proved to be life taking.
5. 86 International Journal for Modern Trends in Science and Technology
Poonam More, Kanjana Memane, Trupti Londhe and H.J.Thanki : Advance IoT-based BSN Healthcare System for
Emergency Response of Patient with Continuous Monitoring and Motion Detection
2) Authentication
This ensures the identity of the IOT devices which
are connected
3) Availability
System must survive for healthcare system or
should prevent itself from denial-of-service attack.
4) Data Freshness
there is a need to ensure that no message is old.
Data freshness basically indicate that each data
set is of new data or fresh data.
5) Authorization
Authorization ensures that only authorized
terminals are accessible for network services or
resources.
6) Fault Tolerance
A security scheme should continue to provide
respective security services in the presence of a
fault like a software glitch, a device compromise,
and a device failure
IX. RELATED WORK:
According to world population record of 2013
number of older population has increased in the
developed nations.two thirds of total population of
old people are living in developed nation.older
population in less developed regions is growing
faster .conclusion shows that upto 2050, nearly 8
in 10 of the world’s older population will live in the
less developed regions[2].
Code-Blue is popular healthcare research
project based on BSN healthcare which was
developed at harward sensor network.It is a health
monitoring infrastructure made for continuous
patient monitoring.this system provides security
for all wireless devices, personal computer which
may be used to monitor and treat patients .
Code--Blue supports filteration and aggregation of
events as they flow through network. Code-Blue
can operate on multiple devices. This system lacks
of security also require more data storage[3].
This paper presents a system which uses
removable media or also uses mobile phone for
storing patient biomedical data which is encrypted
form .which can be accesses by authorized
medical staff only for further consultation. Here
the information is stored on removable disk or
data storage so it can be accessed even device is
not working. The system may be implemented in
java. This system is implemented with the
currently available and relatively cheap
technology. This system is more secure than
Code-Blue .This system requires more memory as
well as power consumption[7].
Alarm-net was designed at the university of
Virginia .In this health monitoring of patient in
assisted living and home environment can be
done. It is the network of MICAZ Sensors target,
gateways. This system consist of IPAQ ,PDA’S and
PC’s. .here in this customized dust sensors and
integrated temperature,light ,pulse and body
oxygenation sensors are present .alarm-net
facilitates network and data security for
physiological environment. Alarm-net is
susceptible to confidentiality attack which leaks
resident’s location[8].
Ubimon was proposed in the department of
computing,Imperial college,London.This system
include context awareness aspect. Here the
continuous monitoring of patient is done under
physiological parameter. This system consist of
biosensors which continuously gather, collect and
analyze data.Due to context awareness aspect it
enhances the capturing of any clinical relevant
episode[9].
Mobicare was first designed by chakravorty in
2006.this is the healthcare system which is having
full control on human body via network of sensors.
Due to this health provider have control,access on
patient body on always on basis .In this system
physician can have time time access, review
,update and send patient data from wherever they
want .continuous supervising of patient is done
here. Mobicare is an ongoing project and much
work is left. There are many security issues such
as secure localization[8].
Medisn is network for monitoring patients
physiological data in hospital and during disaster.
This system consist of Physiological Monitors(PM)
which collect ,encrypt and sign patient’s data
before transmitting them to a network of Relay
points(RPs) .Medisn also includes a backend server
that which stores medical information and
presents them to authenticated GUI clients .this
system helps in easily delivering large volumes of
data while meeting the applicants QOS
requirement[11] .
6. 87 International Journal for Modern Trends in Science and Technology
Poonam More, Kanjana Memane, Trupti Londhe and H.J.Thanki : Advance IoT-based BSN Healthcare System for
Emergency Response of Patient with Continuous Monitoring and Motion Detection
This telemedical system mainly focuses on the
measurement of important parameters like
ECG,temperature,level of blood etc.This system
consists of body area network and an Android
smartphone.The system consist of more patient
localization and data storage, motion of patient
details and transmission of data as well as alert
messages to first responder and server of hospital..
In this two approaches data are transferred to
coordinator node via Bluetooth to an Android
based smartphone[1].
X. PROPOSED SYSTEM:
(Fig I.: Propose System)
We propose the development of an Automated
Epileptic Patient Monitoring System which detects
patients vital statistics like temperature, saline,
etc. also it detect when a patient is having
seizures/epilepsy and sends patients vital
information to doctor via SMS.Also identifies
patient state(conscious,death,sleep) depending on
their motion. and update alarms accordingly
.System Maintain a complete log of patient activity
automatically at doctors end on a PC (A customized
software shall be developed for the same) .It
Creates audio visual alarms at patients end for
nurses or other people to respond and alert them.
System also captures patients image .
XI. FEATURES:
1. System is able to monitor heart rate,
temperature, etc. specs of multiple patients at a
time.
2. The system also sends the vital data (under
shoot or over shoots in values) to administrator
via SMS.
3. Administrator is able to send the
data/commands back to system.
4. The microcontroller hardware board is
connected to the PC where a centralized
database/log of all the activities must be
maintained.
5. A GUI based software, graphically displays all
the vital information in form of graphs.
6. Administrator changes the threshold values for
alarms for individual patients either via SMS or
via direct controlling the GUI based application
provided.
XII. CONCLUSION AND FUTURE WORK
This paper totally fulfills the primary requirements
reliability,scalability and range.We found suitable
Automated Epileptic Patient Monitoring System
that can detect patients vital statistics like
temperature, saline, etc. detect when a patient is
having seizures/epilepsy. The WBAN and Android
smartphone both together are used for performing
information gathering, storing, analysis. Security
and privacy on all levels of the layer of the system
must be further investigated, especially to define
trade-offs with respect to performance and
comfortable use. This system can be further
integrated to other surveillance systems for
security and remote location management. In this
paper we have used the customized algorithm .We
proposed IOT based healthcare system using body
sensors which efficiently accomplish
requirements.
ACKNOWLEDGEMENT
We would like to thank our project guide Prof. H. J.
Thanki, Associate Professor Computer
Department for her valuable co-operation and
guidance that she gave us throughout our Project.
We specially thank our project coordinator Prof. A.
V. Devare for inspiring us and for providing us all
the lab facilities. We would also like to thank to
our HOD Prof. H. A. Hingoliwala and Principal Dr.
M. G. Jadhav and all our friends who have
assisted and helped us throughout our hard work.
7. 88 International Journal for Modern Trends in Science and Technology
Poonam More, Kanjana Memane, Trupti Londhe and H.J.Thanki : Advance IoT-based BSN Healthcare System for
Emergency Response of Patient with Continuous Monitoring and Motion Detection
REFERENCES
[1] ”BSN-Care: A Secure IoT-based Modern Healthcare
System Using Body Sensor Network” by Prosanta
Gope,Tzonelih Hwang.
[2] UN “World population 2013,” 2013, pp. 8–10.
[3] P. Gope, T. Hwang, “Untraceable Sensor Movement
in Distributed IoT Infrastructure,” IEEE Sensors
Journal, Vol. 15 (9), pp. 5340 – 5348, 2015.
[4] P. Kumar,and H. Lee, “Security Issues in Healthcare
Applications Using Wireless Medical Sensor
Networks: A Survey.” Sensors (Basel, Switzerland)
12.1 (2012): pp. 55–91.
[5] K. Lorincz, D. J. Malan, T. R. F. Fulford-Jones, A.
Nawoj, A. Clavel, V. Shayder, G. Mainland, M. Welsh,
"Sensor Networks for Emergency Response:
Challenges and Opportunities", Pervas.Comput.
vol.3, pp.16–23, 2004.
[6] A. Wood, G. Virone, T. Doan, Q. Cao, L. Selavo, Y.
Wu, L. Fang, Z.He , S. Lin, J. Stankovic,
"ALARM-NET: Wireless Sensor Networks for
Assisted-Living and Residential Monitoring,"
Department of Computer Science, University of
Virginia; Charlottesville, VA, USA: 2006. Technical
Report CS-2006-01;
[7] S. Pai, M. Meingast, T. Roosta, S. Bermudez, S.
Wicker, D. K. Mulligan, S. Sastry, "Confidentiality in
Sensor Networks: Transactional Information," IEEE
Security and Privacy Magazine. 2008
[8] J.W.P. Ng, B.P.L Lo, O. Wells, M. Sloman, N. Peters,
A. Darzi,C. Toumazou, G. Yang, "Ubiquitous
Monitoring Environment for Wearable and
Implantable Sensors (UbiMon)," Proceedings of 6th
International Conference on Ubiquitous Computing
(UbiComp’04); Nottingham, UK. 7–14 September
2004.
[9] Office for Civil Rights, United State Department of
Health and Human Services Medical Privacy.
National Standards of Protect the Privacy of
Personal-Health-Information.Available
online:http://www.hhs.gov/ocr/privacy/hipaa/ad
ministrative/privacyrule/index.html (accessed on
15 June 2011).
[10]J. Ko, J. H. Lim, Y. Chen, R. Musaloiu-E, A. Terzis,
G. M. Masson,"Median: Medical Emergency
Detection in Sensor Networks," ACM Trans. Embed.
Comput. Syst. vol. 10, pp. 1–29, 2010.
[11]Android Based Body Area Network for the Evaluation
of Medical Parameters Matthias Wagner1, Benjamin
Kuch2, Carlos Cabrera1, Peter Enoksson3, Arne
Sieber4 1 FH Frankfurt am Main - University of
Applied Sciences, Germany 2 Scuola Superiore
Sant’Anna - RETIS Lab, Pisa, Italy 3 Chalmers
University of Technology, Gothenburg, Sweden 4
Institute of Micro and Nano Technology (IMEGO AB),
Gothenburg,Sweden
[12]The internet of things for medical
devices-prospects,challenges and the way
forward”white paper by tcs.
[13]A.M. Vilamovska, E. Hattziandreu, R. Schindler, C.
Van Oranje, H. DeVries, J. Krapelse, RFID
Application in Healthcare – Scoping andIdentifying
Areas for RFID Deployment in Healthcare Delivery,
RAND, Europe, February 2009.
[14]Prajakta Pande ,Internet of Things –A Future of
Internet: A Survey International Journal of Advance
Research in Computer Science and Management
Studies, Volume 2, Issue 2,February2014.
[15]Internet of Things: From Research and Innovation to
Market Deployment - IERC 2014.
research.eu/pdf/IERC_Cluster_Book_2014_Ch.3_S
RIA_WEB.pdf.
[16]M. S. SHAHAMABADI, B. B. M. ALI, P. VARAHRAM, AND A. J.
JARA, ``A NETWORK MOBILITY SOLUTION BASED ON
6LOWPAN HOSPITAL WIRELESS SENSOR NETWORK
(NEMO-HWSN),'' IN PROC. 7TH INT. CONF. INNOV.
MOBILE INTERNET SERVICES UBIQUITOUS COMPUT. (IMIS),
JUL. 2013, PP. 433_438.