The document describes a proposed smart health care system for rural areas in India using IoT and machine learning. Sensors would be attached to patients' bodies to monitor vitals like heart rate, blood pressure, blood sugar, and temperature. The sensor data would be sent to a health care app via an Arduino and node MCU. The app would analyze the data using machine learning algorithms and alert doctors if any readings require attention. This system aims to improve medical care in rural India by remotely monitoring patients and reducing strain on local hospitals and doctors.
Technology plays the most important role in healthcare not only for sensory devices but besides in communication, recording and display device. It is very important to monitor various medical parameters and post operational days. Therefore the latest development in Healthcare communication method using IOT is adapted. Internet of things serves as a catalyst for the healthcare and plays prominent role in wide range of healthcare applications. In this project the PIC16F877A microcontroller is used as a gateway to communicate to the various sensors such as temperature sensor, Respiration sensor, Blood Oxygen level and heart beat sensor. The microcontroller picks up the sensor data and sends it to the network through IOT and hence provides real time monitoring of the health care parameters for doctors. The data can be access anytime by the doctor. The controller is in addition connected with buzzer to alert the caretaker about variation in sensor output. Other than the main issue in remote patient monitoring system is that the data as to be securely transmitted to the destination end and provision is made to allow only authorized user to access the data. The security problem is be addressed by transmitting the data through the password protected internet which will be encrypted by standard AES128 and the Doctors can access the records by logging to the html webpage. Next to the instance of extremity situation alert message is send to the doctor through IOT connected to the controller. For this reason quick provisional medication can be easily done by this system. This system is capable with low power consumption capability, easy setup, high performance and time to time response.
Implementation Of Real Time IoT Based Health monitoring systemkchakrireddy
The main aim of this project is to interconnect the available medical resources and offer smart, reliable, and effective healthcare service to elderly people. Health monitoring for active and assisted living is one of the paradigms that can use the IOT advantages to improve the elderly lifestyle in this project we present an IOT architecture customized for healthcare applications. The proposed architecture collects the data and relays it to the cloud where it is processed and analyzed. Feedback actions based on the analyzed data can be sent back to the user.
Survey of a Symptoms Monitoring System for Covid-19vivatechijri
The Internet of Things (IOT) depicts the organization of actual items that are implanted with sensors, programming, and different advances for the point of interfacing and trading information with different gadgets and frameworks over the web . In this day and age, there are numerous IOT based, these IOT based gadgets and machines range from wearable like brilliant watches to RFID stock following chips. IOT associated gadgets convey by means of organizations or cloud-based stages associated with the snare of Things. Among the applications that Internet of Things (IOT) encouraged to the planet , Healthcare applications are generally imperative . There are numerous wellbeing checking gadgets accessible. These framework comprises two sensors that is Heartbeat and blood heat sensor and furthermore contains Arduino UNO. This versatile gadget will screen heartbeat and blood heat utilizing sensors. The framework utilizes Arduino board which is associated with heart beat sensor and temperature sensor. The framework will take contribution from the guts beat and blood heat sensors and can send the data to Arduino. The Arduino will send the information of two sensors to LCD alphanumeric presentation . This presentation will show the perusing of the heartbeat sensor and blood heat sensor in BPM (Beats Per Minute) and in Celsius or Fahrenheit.
Technology plays the most important role in healthcare not only for sensory devices but besides in communication, recording and display device. It is very important to monitor various medical parameters and post operational days. Therefore the latest development in Healthcare communication method using IOT is adapted. Internet of things serves as a catalyst for the healthcare and plays prominent role in wide range of healthcare applications. In this project the PIC16F877A microcontroller is used as a gateway to communicate to the various sensors such as temperature sensor, Respiration sensor, Blood Oxygen level and heart beat sensor. The microcontroller picks up the sensor data and sends it to the network through IOT and hence provides real time monitoring of the health care parameters for doctors. The data can be access anytime by the doctor. The controller is in addition connected with buzzer to alert the caretaker about variation in sensor output. Other than the main issue in remote patient monitoring system is that the data as to be securely transmitted to the destination end and provision is made to allow only authorized user to access the data. The security problem is be addressed by transmitting the data through the password protected internet which will be encrypted by standard AES128 and the Doctors can access the records by logging to the html webpage. Next to the instance of extremity situation alert message is send to the doctor through IOT connected to the controller. For this reason quick provisional medication can be easily done by this system. This system is capable with low power consumption capability, easy setup, high performance and time to time response.
Implementation Of Real Time IoT Based Health monitoring systemkchakrireddy
The main aim of this project is to interconnect the available medical resources and offer smart, reliable, and effective healthcare service to elderly people. Health monitoring for active and assisted living is one of the paradigms that can use the IOT advantages to improve the elderly lifestyle in this project we present an IOT architecture customized for healthcare applications. The proposed architecture collects the data and relays it to the cloud where it is processed and analyzed. Feedback actions based on the analyzed data can be sent back to the user.
Survey of a Symptoms Monitoring System for Covid-19vivatechijri
The Internet of Things (IOT) depicts the organization of actual items that are implanted with sensors, programming, and different advances for the point of interfacing and trading information with different gadgets and frameworks over the web . In this day and age, there are numerous IOT based, these IOT based gadgets and machines range from wearable like brilliant watches to RFID stock following chips. IOT associated gadgets convey by means of organizations or cloud-based stages associated with the snare of Things. Among the applications that Internet of Things (IOT) encouraged to the planet , Healthcare applications are generally imperative . There are numerous wellbeing checking gadgets accessible. These framework comprises two sensors that is Heartbeat and blood heat sensor and furthermore contains Arduino UNO. This versatile gadget will screen heartbeat and blood heat utilizing sensors. The framework utilizes Arduino board which is associated with heart beat sensor and temperature sensor. The framework will take contribution from the guts beat and blood heat sensors and can send the data to Arduino. The Arduino will send the information of two sensors to LCD alphanumeric presentation . This presentation will show the perusing of the heartbeat sensor and blood heat sensor in BPM (Beats Per Minute) and in Celsius or Fahrenheit.
The Internet of things (IOT) is the network of physical devices vehicles home appliances and other items embedded with electronics, software, sensors ,actuators, and network connectivity which enable these objects to connect and exchange data.
Smart farming is a concept quickly catching on in the agricultural business. Offering high-precision crop control, useful data collection, and automated farming techniques, there are clearly many advantages a networked farm has to offer.
As elderly population increases day by day caretaking demands are also increasing. Hence patient health monitoring systems are gaining importance these days. This paper is based on monitoring of patients. We have designed and developed a reliable, energy efficient patient monitoring system. It is able to send parameters of patient in real time. It enables the doctors to monitor patient's health parameters (temp, heartbeat, ECG, position) in real time. In the current proposed system the patient health is continuously monitored using different sensors which is connected to the Arduino board. And the acquired data is send to the server using Ethernet shield attached to the Arduino board. If any of the parameter values goes beyond the threshold value an alert is given to the doctor using an Android application installed in the doctor’s smartphone.
IoT-based intelligent irrigation management and monitoring system using arduinoTELKOMNIKA JOURNAL
Plants, flowers and crops are living things around us that makes our earth more productive and
beautiful. In order to growth healthy, they need water, light and nutrition from the soil in order to effect
cleaning air naturally and produce oxygen to the world. Therefore, a technology that manage to brilliantly
control plants watering rate according to its soil moisture and user requirement is proposed in this paper.
The developed system included an Internet of Things (IoT) in Wireless Sensor Network (WSN)
environment where it manages and monitors the irrigation system either manually or automatically,
depending on the user requirement. This proposed system applied Arduino technology and NRF24L01 as
the microprocessor and transceiver for the communication channel, respectively. Smart agriculture and
smart lifestyle can be developed by implementing this technology for the future work. It will save
the budget for hiring employees and prevent from water wastage in daily necessities.
Implementation Of Real Time IoT Based Health monitoring systemkchakrireddy
This is a project implemented by me and my friends during our final year. It is designed for doctors who are not able to be with the patients all the time. This improves the gap between the patients and the doctors.
Revised edition of IoT with more knowledge ,advantages of iot,results of iot,methodology,block diagram,flowchart of iot,details of hardware and software,details of sensor and powerfull features with diagram ,digramatical representation of iot will found very useful to the beginners also .domain iot in healthcare
Internet of Things (IoT) links the objects of the real world to the virtual world, and enables anytime, anywhere connectivity for anything that has an ON and OFF switch. It constitutes to a world where physical objects and living beings, as well as virtual data and environments, interact with each other. Large amount of data is generated as large number of devices are connected to the internet. So this large amount of data has to be controlled and converted to useful information in order to develop efficient systems. In this paper, we focus on to an application of IoT in military service that is used to reduce the time and increase speed. IoT based intelligent transportation systems, deffense & security,Industry & most important Health monitoring system are designed to support the Smart City vision & various field which aims at employing the advanced and powerful technologies for the administration of the people and many service. Renuka Chandrakant Sonare | Dinesh V. Rojatkar"Application OF IoT in Military Service" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-6 , October 2017, URL: http://www.ijtsrd.com/papers/ijtsrd4629.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/4629/application-of-iot-in-military-service/renuka-chandrakant-sonare
Want to watch the video of this talk & hear about free speaker hangouts?
Hop over here: http://bit.ly/IoTForum16Talks We will keep you up to date with new talks. We will never sell your email address and you can unsubscribe at any time.
Alison Vincent, Cisco, IoT Forum 2016, What Problems Will IoT Solve?
AN AMELIORATED METHODOLOGY FOR THE DESIGN AND IMPLEMENTATION OF HOME AUTOMATI...AM Publications,India
n this era of digitization and automation, the life of human being is getting simpler because almost everything is automatic where the old manual systems is replaced with the automated system. There is anincrease in demand for the internet and most of the businesses are automated today. At the same time, people are also fully dependent on the internet for day-to-day activites. In this paper, we are proposing an automated tool which controls the operations of Home appliances such as light, cooler, water tank, motion sensor, T.V., smoke detector through the use of mobile phone. This system uses the hardware devices such as arduino, ethernet shield, relay board, PIR sensor, MQ2 sensor; temperature sensor.Internet of things (IOT) provides a platform that allows devices to connectand control remotely across a network infra structured. In this paper, we have proposed an automated system (HAS) using andruino that employee the integration of cloud networking, wireless communication to provide the user with remote control of various home appliances. The system will automatically change the status of the home appliance on the basis of sensors data.This system is designed to be a low cost and expandable to other appliance.
An iot based smart garden with weather station systemCloudTechnologies
An iot based smart garden with weather station system
Cloud Technologies providing Complete Solution for all
Academic Projects Final Year/Semester Student Projects
For More Details,
Contact:
Mobile:- +91 8121953811,
whatsapp:- +91 8522991105,
Email ID: cloudtechnologiesprojects@gmail.com
This Presentation contains every thing that you need to about IOT. Its more of pictures so people imagine whats being talked about . It starts with a brief introduction about history of IOT and then its various application. Then a basic architecture and Introduction on few devices to start of with.
The epidemic growth of wireless technology and mobile services in this epoch is creating a great impact on our life style. Some early efforts have been taken to utilize these technologies in medical industry. In this field, ECG sensor based advanced wireless patient monitoring system concept is a new innovative idea. This system aims to provide health care to the patient. We have sensed the patient’s ECG through 3 lead electrode system via AD8232 which amplifies minor and small bio-signals to the arduino which processes them, along with saline level. Saline level is detected through IR sensors. The output of the electrical pulse is shown with the serial monitor. The saline level is indicated by LCD. The major output ECG analog signal is displayed on serial plotter. The outputs are displayed through mobile application.
The Internet of things (IOT) is the network of physical devices vehicles home appliances and other items embedded with electronics, software, sensors ,actuators, and network connectivity which enable these objects to connect and exchange data.
Smart farming is a concept quickly catching on in the agricultural business. Offering high-precision crop control, useful data collection, and automated farming techniques, there are clearly many advantages a networked farm has to offer.
As elderly population increases day by day caretaking demands are also increasing. Hence patient health monitoring systems are gaining importance these days. This paper is based on monitoring of patients. We have designed and developed a reliable, energy efficient patient monitoring system. It is able to send parameters of patient in real time. It enables the doctors to monitor patient's health parameters (temp, heartbeat, ECG, position) in real time. In the current proposed system the patient health is continuously monitored using different sensors which is connected to the Arduino board. And the acquired data is send to the server using Ethernet shield attached to the Arduino board. If any of the parameter values goes beyond the threshold value an alert is given to the doctor using an Android application installed in the doctor’s smartphone.
IoT-based intelligent irrigation management and monitoring system using arduinoTELKOMNIKA JOURNAL
Plants, flowers and crops are living things around us that makes our earth more productive and
beautiful. In order to growth healthy, they need water, light and nutrition from the soil in order to effect
cleaning air naturally and produce oxygen to the world. Therefore, a technology that manage to brilliantly
control plants watering rate according to its soil moisture and user requirement is proposed in this paper.
The developed system included an Internet of Things (IoT) in Wireless Sensor Network (WSN)
environment where it manages and monitors the irrigation system either manually or automatically,
depending on the user requirement. This proposed system applied Arduino technology and NRF24L01 as
the microprocessor and transceiver for the communication channel, respectively. Smart agriculture and
smart lifestyle can be developed by implementing this technology for the future work. It will save
the budget for hiring employees and prevent from water wastage in daily necessities.
Implementation Of Real Time IoT Based Health monitoring systemkchakrireddy
This is a project implemented by me and my friends during our final year. It is designed for doctors who are not able to be with the patients all the time. This improves the gap between the patients and the doctors.
Revised edition of IoT with more knowledge ,advantages of iot,results of iot,methodology,block diagram,flowchart of iot,details of hardware and software,details of sensor and powerfull features with diagram ,digramatical representation of iot will found very useful to the beginners also .domain iot in healthcare
Internet of Things (IoT) links the objects of the real world to the virtual world, and enables anytime, anywhere connectivity for anything that has an ON and OFF switch. It constitutes to a world where physical objects and living beings, as well as virtual data and environments, interact with each other. Large amount of data is generated as large number of devices are connected to the internet. So this large amount of data has to be controlled and converted to useful information in order to develop efficient systems. In this paper, we focus on to an application of IoT in military service that is used to reduce the time and increase speed. IoT based intelligent transportation systems, deffense & security,Industry & most important Health monitoring system are designed to support the Smart City vision & various field which aims at employing the advanced and powerful technologies for the administration of the people and many service. Renuka Chandrakant Sonare | Dinesh V. Rojatkar"Application OF IoT in Military Service" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-6 , October 2017, URL: http://www.ijtsrd.com/papers/ijtsrd4629.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/4629/application-of-iot-in-military-service/renuka-chandrakant-sonare
Want to watch the video of this talk & hear about free speaker hangouts?
Hop over here: http://bit.ly/IoTForum16Talks We will keep you up to date with new talks. We will never sell your email address and you can unsubscribe at any time.
Alison Vincent, Cisco, IoT Forum 2016, What Problems Will IoT Solve?
AN AMELIORATED METHODOLOGY FOR THE DESIGN AND IMPLEMENTATION OF HOME AUTOMATI...AM Publications,India
n this era of digitization and automation, the life of human being is getting simpler because almost everything is automatic where the old manual systems is replaced with the automated system. There is anincrease in demand for the internet and most of the businesses are automated today. At the same time, people are also fully dependent on the internet for day-to-day activites. In this paper, we are proposing an automated tool which controls the operations of Home appliances such as light, cooler, water tank, motion sensor, T.V., smoke detector through the use of mobile phone. This system uses the hardware devices such as arduino, ethernet shield, relay board, PIR sensor, MQ2 sensor; temperature sensor.Internet of things (IOT) provides a platform that allows devices to connectand control remotely across a network infra structured. In this paper, we have proposed an automated system (HAS) using andruino that employee the integration of cloud networking, wireless communication to provide the user with remote control of various home appliances. The system will automatically change the status of the home appliance on the basis of sensors data.This system is designed to be a low cost and expandable to other appliance.
An iot based smart garden with weather station systemCloudTechnologies
An iot based smart garden with weather station system
Cloud Technologies providing Complete Solution for all
Academic Projects Final Year/Semester Student Projects
For More Details,
Contact:
Mobile:- +91 8121953811,
whatsapp:- +91 8522991105,
Email ID: cloudtechnologiesprojects@gmail.com
This Presentation contains every thing that you need to about IOT. Its more of pictures so people imagine whats being talked about . It starts with a brief introduction about history of IOT and then its various application. Then a basic architecture and Introduction on few devices to start of with.
The epidemic growth of wireless technology and mobile services in this epoch is creating a great impact on our life style. Some early efforts have been taken to utilize these technologies in medical industry. In this field, ECG sensor based advanced wireless patient monitoring system concept is a new innovative idea. This system aims to provide health care to the patient. We have sensed the patient’s ECG through 3 lead electrode system via AD8232 which amplifies minor and small bio-signals to the arduino which processes them, along with saline level. Saline level is detected through IR sensors. The output of the electrical pulse is shown with the serial monitor. The saline level is indicated by LCD. The major output ECG analog signal is displayed on serial plotter. The outputs are displayed through mobile application.
IOT BASED HEALTH MONITORING BY USING PULSE OXIMETER AND ECGPonselvanV
Monitoring and Recording of various medical parameters of patient outside hospitals has become Widespread phenomenon. The Reason behind this project is to design a system for monitoring the patient’s body at any time using internet connectivity. The function of this system is measuring and detecting the heart pulse rate of the patient’s body by using Heart beat sensors and sends the values to IOT Cloud platform through WIFI-Module. All information about the patient heart pulse rate and health will be stored on the cloud, it enables the doctors to monitor patient’s health, where the doctor can continuously monitor the patient’s heart condition on his Smart phone.This project is implemented with Arduino Controller.
In the present research, the synthesis of silver nanoparticles by the green method is done using stem and leaves aqueous
extract of Tinospora cordifolia (T.C). The pathway of nanoparticles formation is by means of reduction of silver nitrate by
extracts, which act as both reducing and capping agents. The silver nanoparticles characterized by UV-Vis-spectrometer, Fourier
transform infra-red spectroscopy, X-ray diffractometer, Scanning electron microscopy, Energy dispersive spectroscopy. The sizes
of the synthesized silver nanoparticles are found to be in the range of 27- 58 nm. The energy dispersive spectrum confirmed the
presence of silver metal. The silver nanoparticles synthesized in this process have the efficient antimicrobial activity against
pathogenic bacteria like Bacillus subtilis, Escherichia coli, Klebsiella pneumonia, proteus mirabilis, Staphylococcus aureus
and Serratia marcescens using paper disc diffusion method.
The sensor housed on the patient’s finger, detects the pumping of the heart and produces a voltage output. This is then transferred to the Microcontroller.
In the Microcontroller the output is plotted with respect to real time to the heart beat rate.
This information can be stored on the computer and can be used to analyze a status of the patient.
An efficient IoT based biomedical health monitoring and diagnosing system usi...TELKOMNIKA JOURNAL
With the growing and aging population, patient auto monitoring systems are becoming more popular. Smart sensors linked with the internet of things (IoT) make patients' auto monitoring system possible. Nowadays myRIO with LabVIEW is more popular for easy data acquisition, instrument control, and automation. This paper proposed myRIO and IoT based health monitoring and diagnosing system (HMDS) to acquire heartbeat rate, pulse, blood pressure (BP), temperature and activities of the patient using various smart sensors with more accuracy. The acquired raw data from the various sensors had been sent to the myRIO using ESP 8266 Wi-Fi module. The received raw data by the myRIO would be processed to the equivalent medical parameters using LabVIEW and the same might be transferred to the remote monitoring system (RMS) using cloud via a gateway. The abnormalities in the obtained data would be monitored and the diagnosis was made. The experimental setup was developed using various wearable sensors, ESP 8266, myRIO with LabVIEW and cloud with the gateway.
The propose system gives us the development of a Raspberry Pi based system for Wireless heartbeat, temperature monitoring, eye monitoring for coma patient, saline level Detector. That will easily provide real time information available for many users and can send them alert in critical conditions over Internet. In India many patients are dying because of heart attacks and reason behind this factor is that they are not getting proper help during the period. To give them timely and proper help first want to continuous monitoring of patient health. The fixed monitoring system can be used only when the patient is lying on bed and these systems are huge and only available in the hospitals in ICU. The system is developed for home use by patients that are not in a critical condition but need to be timely monitored by doctor or family. In any critical condition the Mail is send to the doctor or any family member. So that it easily save many lives by providing them quick service. Nakul S. Palkhede | Sachin D. Mali | Prof. Manisha S. Shelar"IoT Based Patient Monitoring" 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/ijtsrd14216.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/14216/iot-based-patient-monitoring/nakul-s-palkhede
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
Understanding Inductive Bias in Machine LearningSUTEJAS
This presentation explores the concept of inductive bias in machine learning. It explains how algorithms come with built-in assumptions and preferences that guide the learning process. You'll learn about the different types of inductive bias and how they can impact the performance and generalizability of machine learning models.
The presentation also covers the positive and negative aspects of inductive bias, along with strategies for mitigating potential drawbacks. We'll explore examples of how bias manifests in algorithms like neural networks and decision trees.
By understanding inductive bias, you can gain valuable insights into how machine learning models work and make informed decisions when building and deploying them.
6th International Conference on Machine Learning & Applications (CMLA 2024)ClaraZara1
6th International Conference on Machine Learning & Applications (CMLA 2024) will provide an excellent international forum for sharing knowledge and results in theory, methodology and applications of on Machine Learning & Applications.
Harnessing WebAssembly for Real-time Stateless Streaming PipelinesChristina Lin
Traditionally, dealing with real-time data pipelines has involved significant overhead, even for straightforward tasks like data transformation or masking. However, in this talk, we’ll venture into the dynamic realm of WebAssembly (WASM) and discover how it can revolutionize the creation of stateless streaming pipelines within a Kafka (Redpanda) broker. These pipelines are adept at managing low-latency, high-data-volume scenarios.
Literature Review Basics and Understanding Reference Management.pptxDr Ramhari Poudyal
Three-day training on academic research focuses on analytical tools at United Technical College, supported by the University Grant Commission, Nepal. 24-26 May 2024
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
Hybrid optimization of pumped hydro system and solar- Engr. Abdul-Azeez.pdffxintegritypublishin
Advancements in technology unveil a myriad of electrical and electronic breakthroughs geared towards efficiently harnessing limited resources to meet human energy demands. The optimization of hybrid solar PV panels and pumped hydro energy supply systems plays a pivotal role in utilizing natural resources effectively. This initiative not only benefits humanity but also fosters environmental sustainability. The study investigated the design optimization of these hybrid systems, focusing on understanding solar radiation patterns, identifying geographical influences on solar radiation, formulating a mathematical model for system optimization, and determining the optimal configuration of PV panels and pumped hydro storage. Through a comparative analysis approach and eight weeks of data collection, the study addressed key research questions related to solar radiation patterns and optimal system design. The findings highlighted regions with heightened solar radiation levels, showcasing substantial potential for power generation and emphasizing the system's efficiency. Optimizing system design significantly boosted power generation, promoted renewable energy utilization, and enhanced energy storage capacity. The study underscored the benefits of optimizing hybrid solar PV panels and pumped hydro energy supply systems for sustainable energy usage. Optimizing the design of solar PV panels and pumped hydro energy supply systems as examined across diverse climatic conditions in a developing country, not only enhances power generation but also improves the integration of renewable energy sources and boosts energy storage capacities, particularly beneficial for less economically prosperous regions. Additionally, the study provides valuable insights for advancing energy research in economically viable areas. Recommendations included conducting site-specific assessments, utilizing advanced modeling tools, implementing regular maintenance protocols, and enhancing communication among system components.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
KuberTENes Birthday Bash Guadalajara - K8sGPT first impressionsVictor Morales
K8sGPT is a tool that analyzes and diagnoses Kubernetes clusters. This presentation was used to share the requirements and dependencies to deploy K8sGPT in a local environment.
Water billing management system project report.pdfKamal Acharya
Our project entitled “Water Billing Management System” aims is to generate Water bill with all the charges and penalty. Manual system that is employed is extremely laborious and quite inadequate. It only makes the process more difficult and hard.
The aim of our project is to develop a system that is meant to partially computerize the work performed in the Water Board like generating monthly Water bill, record of consuming unit of water, store record of the customer and previous unpaid record.
We used HTML/PHP as front end and MYSQL as back end for developing our project. HTML is primarily a visual design environment. We can create a android application by designing the form and that make up the user interface. Adding android application code to the form and the objects such as buttons and text boxes on them and adding any required support code in additional modular.
MySQL is free open source database that facilitates the effective management of the databases by connecting them to the software. It is a stable ,reliable and the powerful solution with the advanced features and advantages which are as follows: Data Security.MySQL is free open source database that facilitates the effective management of the databases by connecting them to the software.
Water billing management system project report.pdf
Smart health care System Using IOT and Machine learning
1. A SMART HEALTH CARE SYSTEM FOR MEDICAL FACILITY ON RURAL
AREA USING IOT AND MACHINE LEARNING
2. A SMART HEALTH CARE SYSTEM FOR MEDICAL FACILITY ON RURAL
AREA USING IOT AND MACHINE LEARNING
ABSTRACT
Elder people are suffered many kind of disease like heart disease, High pressure, High sugar.
The medical facility of Indian villages is very poor. Villagers face a great problem when anyone
of them is ill. A smart health care system is designed to monitor people from their home and
take their timely health status. It helps to reduce pressure over doctors and hospitals and saves
the life of many old people .Some sensors like heart beat sensor, blood pressure sensor, Blood
sugar sensors, temperature sensors are attached to human body. The sensors are connected to
a health care app. The app has two sections for both users and doctors. At first the patients have
to register in this app. Patients regular health records are sensed by the sensors and stored in
the database of this app. The system analysis the data. If any data is found wrong then it is
automatically sent to the nearest hospital through GPS tracker and they will take immediate
action.
3. A SMART HEALTH CARE SYSTEM FOR MEDICAL FACILITY ON RURAL
AREA USING IOT AND MACHINE LEARNING
INTRODUCTION
The population of India is increasing day by day. A recent survey said that the population of
India is increasing almost 15% in every decade. So the number of patients are also increasing
at the same rate. It will create pressure upon doctors and hospitals. If the patients can be
monitored from their home then the pressure upon doctors and hospital will be reduced and it
will be very economical for Government also. In the rural areas of India not a good treatment
facility is available. Even there is some villages in India where not a single doctor is available.
They face a big problem when a patient’s condition is very serious. To solve this problems In
this paper we will discuss about a smart health care system. The smart health care system is
designed using IOT.IOT means Internet of Things that means things connected to the internet.
Using this IOT technology we can control any substance from anywhere through internet.
Some sensors are connected to human body which take the data .The data are se a health care
app. All the data are uploaded to the cloud database of the app and it detects whether the
patients’ condition is serious or not. If the patients’ condition is found serious then the data is
automatically sent to the doctors and they take immediate action.
4. A SMART HEALTH CARE SYSTEM FOR MEDICAL FACILITY ON RURAL
AREA USING IOT AND MACHINE LEARNING
LITERATURE SURVEY
HEALTH CHALANGES:
One of the main concern is death of elder people. The causes of their death are high blood
pressure, high blood sugar and heart disease. In India the medical facility in the village is very
poor. In a recent survey it has been noticed that 80% villages and rural areas in India has no
quality medical facility. Among them there are some villages where not a single doctor is
available. They face a big problem when anyone of them is ill. The current population of India
is 135 core. This huge population is the one of main causes of the poor health facility.
INTERNET OF THINGS:
The full form of IOT is internet of things. The term IOT was first used by Kavin Asthon in
1999. The concept of IOT is connected all devices to internet or cloud. It may be car, electric
bulb, Electric fan, laptop, sensor and even human and we can control those devices from
anytime and anywhere. IOT can make our life more easy and comfortable. Some applications
of IOT are smart health care, smart city, smart home, smart car, smart agriculture e.t.c.
SMART HOME
SMART HEALTH CARE USING IOT:
Smart health care is an application of IOT. The concept of smart health care is to control the
health care system through internet of things. It makes a barrier between patient and doctors
80%
poor Health care
20%
IOT
SSMART
AGRICULTURE
SSMART HEALTH
CARE
SMART CARSMART
SMSMART
AMBULENCE
SMART LAPTOP
5. A SMART HEALTH CARE SYSTEM FOR MEDICAL FACILITY ON RURAL
AREA USING IOT AND MACHINE LEARNING
Some health sensors are connected to human body. These sensors sense the health data from
the body and update to the cloud. The doctors watch the data and take further action.
SMART BLOOD PRESSURE MONITOR SYSTEM
Blood pressure is the pressure of blood in artery. It is pumped by heart throughout the body.
When heart beats it pumps blood through artery to rest of the body. This force creates pressure
on arteries. High blood pressure may be the cause of heart attack and stroke. Blood pressure
sensor measures the blood pressure throughout the day. It is a wireless sensor and it is based
on an Arduino board. It measures the two pressure-systolic and diastolic pressure. It measure
the real time blood pressure of our body and send it to the cloud. The normal blood pressure of
human is 120/80. Here 120 is the systolic pressure and 80 is the diastolic pressure.
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SMART PULSE MEASUREMENT SYSTEM:
Pulse sensor measures the pulse of an user. It generally measures the heartbeat of user. It works
using the photo plethysmography technique. It is connected with the finger. When finger is
placed on It, It gives output. The sensor works on a working voltage of +5V DC.
The sensor is connected to an Arduino. The Arduino collects the data from the sensors .Arduino
is connected to node MCU. The data are sent to the cloud to node MCU. The doctors can see
the data anytime and anywhere.
Patient ID Pulse Time Status
A001 72 12:00 Normal
A002 60 14:00 Marginal
B001 55 13:05 Abnormal
B002 75 16:00 Normal
B003 78 7:00 Normal
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SMART ECG MONITORING SYSTEM
Many people have heart disease like cardiac arrest, Heart blockage, heart damage. A huge
number of people are died due to heart attack and heart failure. So heart disease is a major
concern for human. Through ECG we can familiar our current condition of heart. In smart
ECG monitoring system we can take our ECG from home using an ECG sensor. The ECG
sensor is connected to human body and It collects the ECG data from our skin. In this system
four modules are used-i>sensor module ii>controller module iii>WI-FI module iv> power
module
SENSOR MODULE:
Sensor module sense the ECG data from human body. The frequency of ECG signal is from
0.5Hz to 100Hz. A band pass filter is used to remove the noise of outside frequency band.
Then an operational amplifier amplified the filtered signal. Finally with the help of a sensor
module ECG signal 0v to 3.3 v are gathered.
CONTROLER MODULE:
Controller module process the gathered ECG signal and send to WI-FI module. All the signal
processing functions are performed in a MCU.
WI-FI MODULE:
WI-FI module takes the ECG data and from the controller module. Then the WI-FI module
sends the real time ECG data to cloud storage to fast internet access.
POWER MODULE:
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Power module supply energy to rest of three modules. USB AND Lithium battery are used to
provide power supply.
CLOUDE STORAGE SERVER:
Storage server is used to store the ECG data of users. Storage server stores real time ECG
data into its database. The database is designed by MYSQL. Users and doctors can see the
data in anytime and anywhere.
SMART TEMPARATURE MONITORING SYSTEM
Smart temperature monitoring system monitors the temperature of human body. In this
system a temperature sensors is used to sense the body temperature. It is generaly used to
detect the fever. The sensor is a lypad temperature sensor.
Local ambinent temperature is established doing an analog to digital conversion on the signal
line. The output will be o.5v at 0o
c, 0.75V at 25o
c. The sensor sense the temperature from our
body. The sensor is connected to an Arduino. The Arduino is connected to a node MCU. The
Arduino collects the data from the sensor and through node MCU the data are sent to the
cloud storage. All the real time data are updated in the cloud database. Doctors can watch the
data from the database from anytime and anywhere.
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Patient ID Temperature Time Status
A2011 97 12:00 Normal
B2014 98 13:00 Marginal
B1502 99.4 9:00 Feaver
BN1236 102.5 8:00 High fever
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PROPOSED WORK AND METHODOLOGY
Architecture of Smart Health Care:
The architecture of IOT based smart health care system mainly consists of 5 parts-Health care
app-i> heartbeat sensor ii> blood pressure sensor iii> blood sugar sensor iv> body
temperature sensor v> Arduino vi> Node MCU vii>ECG sensor
Arduino:
Arduino is an electronics device based on hardware and software. It uses microcontroller
Atmega328. It has both Analog and digital pins. All the sensors are connected to Arduino. The
Analog pins are used to connect with the sensors. It reads the input light of a sensor And
converts it to output. Arduino collects all the data from the sensors and sends them to Database
storage through MCU Node.
MCU Node:
MCU node is an open source IOT device. It uses microcontroller Esp8266. Node MCU is
connected to Arduino and enabled through Wi-Fi. It receives all the data from Arduino and
Sends them to cloud database storage through Wi-Fi.
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GPS TRACKER:
GPS tracker tracks the current location of an object. In this case it tracks the current location
of the patients. GPS works by providing the information of exact location. It uses global
positioning system to track the current location of object.
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Temperature sensor:
Temperature sensor measures the temperature of body. One can wear it and measures the body
temperature in anytime and anywhere. The temperature sensor is connected to an Arduino. The
Arduino collects the data from sensor. The connected data is sent through the node MCU to
cloud storage database.
Blood pressure Sensor:
Blood pressure sensor is used to measure the blood pressure of human body. It has the same
function of sphygmomanometer but instead of mercury column a pressure sensor is used to
detect the blood pressure .A pressure sensor detects the pressure in artery .It measures both
systolic and diastolic pressure. It is a wearable and wireless sensor. The sensor is connected to
an Arduino. The Arduino collects the sensed data from sensor. The sensed data is stored in the
cloud storage database through node MCU.
Pulse Sensor:
Heart disease is a major disease in current generation. It is the cause of death of many old
people. A pulse sensor helps to measure the pulse of a human body. It generally measures our
heartbeat. The sensor is attached to finger. When the finger place on it it sense data. It measures
the pulse of human body. It is connected to an Arduino. The Arduino collects the data from the
sensors and the data are sent to the cloud database storage through node MCU.
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Blood Sugar Sensor:
Blood sugar is the concentration of glucose present in the blood of human body. High blood
sugar increase the chances of heart attack and stroke. Blood sugar sensor measures the blood
sugar of human body. It measures the amount of glucose in blood. It is a wearable and wireless
sensor. It is connected to an Arduino. The Arduino collects the data and the data is sent to the
online storage database through Node MCU.
Many people have heart disease like cardiac arrest, Heart blockage, heart damage. A huge
number of people are died due to heart attack and heart failure. So heart disease is a major
concern for human. Through ECG we can familiar our current condition of heart. In smart
ECG monitoring system we can take our ECG from home using an ECG sensor. The ECG
sensor is connected to human body and It collects the ECG data from our skin. In this system
four modules are used-i>sensor module ii>controller module iii>WI-FI module iv> power
module
SENSOR MODULE:
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Sensor module sense the ECG data from human body. The frequency of ECG signal is from
0.5Hz to 100Hz. A band pass filter is used to remove the noise of outside frequency band.
Then an operational amplifier amplified the filtered signal. Finally with the help of a sensor
module ECG signal 0v to 3.3 v are gathered.
CONTROLER MODULE:
Controller module process the gathered ECG signal and send to WI-FI module. All the signal
processing functions are performed in a MCU.
WI-FI MODULE:
WI-FI module takes the ECG data and from the controller module. Then the WI-FI module
sends the real time ECG data to cloud storage to fast internet access.
POWER MODULE:
Power module supply energy to rest of three modules. USB AND Lithium battery are used to
provide power supply.
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ARDUINO
TEMPARATURE
SENSOR
PULSE SENSOR
MCU NODE CLOUD
STORAGE
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Healthcare app:
A health care app is designed to analyse, store all the data taken by the sensors. In this app
there is a page for registration for both patients and doctors. Patients and doctors can register
in this page .Then they get their user ID and password. By this user Id and password patients
can login the system. The health data sent from the sensors are stored in the database of the
app. The app system analysis the data and If anybody is found unwell then it is automatically
reported to the doctors of nearest hospital.
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Patients can enter their symptoms here.
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Doctors are registered by their name, department, qualification, age and degree,E-
mail. After registration they get username and password.
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Doctors and users can login by username and password.
User can register by t heir name, age, blood group, address, phone no, E-mail-Id. After the
registration they will get their User-ID and password. By this User-ID and password they can
login the system and their health details are stored in the database through sensors. The system
analysis the data. If it is not suitable for patient’s health then a notification sent to the patient’s
email and phone no and asked them to enter their another symptoms if they have. All the
symptoms are stored in the database and sent to the nearest hospital through GPS tracker.
Patients can also add their own symptoms without any notification. Doctors have to register in
this app by their name, qualification details, Department, mail-id and they get a user-Id and
password. By this user-ID and password they can login the system and check the details of the
users and prescribed medicine. If the patients’ condition is found serious then ambulance will
be sent to the patients’ home through GPS tracker and admit them to hospitals.
If any user’s heart condition is found unwell then the user can take the ECG in his/her home
through smart ECG sensor. Then the ECG report is sent to the cloud.
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This web based application is installed in smart phone or laptop. This app has three tire-
The front end is designed by HTML, CSS, JAVA-SCRIPT.
The middle tire is designed by python. It contains the main system logic. The logic is set by
machine language.
The back-end tire is database server. The database server is create by MYSQL. In this database
server all the register data of doctors and patients are stored. The health data records of every
user are stored in this database.
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MACHINE LEARNING CONCEPT
Machine Learning:
Machine learning is a subset of Artificial Intelligence(AI) which provides the machine to learn
automatically from experience without being explicitly programed.
Classification of Machine Learning:
i>Supervised Learning
ii>Unsupervised Learning
iii>Semi Supervised Learning
iv>Re-Inforcement Learning
Supervised Learning:
In supervised Learning machines learn through labelled data. It is the learning through
guidance. In this learning machines learn through input output based labelled data. In this
learning machine learns through input output based training data. In supervised learning
machine learns for a particular input what the desired output should be.
Classification of supervised Learning:
i>Classification
ii>Regression
Classification:
In supervised learning if input data are different classes then the input data are classify by
classification problem.
Regression:
In supervised learning regression problem is when the output variable is a real or continuous
value. The simple regression model is linear regression.
In this project the machine learning technique is used in the system. Supervised learning
method is used in the system. The sensors will give some input to the system and the system
has to give an output. So the system will be learned by supervised learning that for a certain
input value what the desired output should be. Classification and regression both supervised
learning methods are used.
LOGISTIC REGRESSION ALGORITHM:
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Decision tree:
A decision tree is a machine learning technique in tree like structure. It uses for both prediction
and classification. In tree like structure it guides the machine for a particular input what the
desired output should be. Decision tree mainly uses supervised learning method and uses both
classification and regression technique. In decision tree each node denotes a test on an attribute
and each branch represents the outcome of the test and each leaf node holds a class level.
In this project decision tree method is used. It guides the system like tree structure for a
particular input what the desired output should be. The sensors measure our pulse, sugar,
pressure, temperature. By this decision tree the system is guided that in which input what the
output will be or what action the system has to take.
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The sensors measure the health data continuously. The system will take a mean readings while
analysis.
Mean Pressure=20 times pressure readings/20
Mean pulse=20 times Pulse readings/20
Mean Sugar=20 times sugar readings/20
X=Normal pulse detected by doctor Y=Normal Blood sugar detected by doctor
Z=Normal Blood pressure detected by doctor
DECISION TREE
Temperature
> =98.40
F <98.40
F
Enter symptom? Uploaded to database
YES NO
Symptom +Temperature Temperature
Sent to Nearest Hospital sent to nearest hospital
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Pulse sensor
X=Normal pulse rate set by doctors
!x =x
Store database
Yes No
Sugar sensor
Y= Normal Blood sugar range set by
doctors
=Y !Y
Store to database
Yes No
Pressure Sensor
=z !=z z= Normal Pressure reading set by
doctors
Any Symptom?
YES No
Mean Pulse?
Any
symptom? Store database
Symptom+
pulse+sugar+pressur
e sent to hospital
Ppulse+pressure+
sugar sent to hospital
to
Mean sugar?
Store database
any smptom?
Pulse+sugar+symptom+
pressure sent to
hospital
Pulse+sugar +pressure
sent to hospital
Mean Pressure
Any symptom?
Pressure+Sugar+Pulse+Symptom
sent
Pressure+Sugar+Pulse sent
Store
database
ordatabase
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S
FUTURE WORK
In this paper we see that Different sensors measure body temperature, pressure, sugar, pulse
and sent to cloud storage database. The system analysis the data and if anyone is found unwell
then it gives notification to patients and sends the data to the nearest hospitals and the doctors
watch the patients’ health condition and take action. In future the project can be developed as
the system will give treatment to users of the primary diseases instead of doctors.
CONCLUSION
This paper is about a smart health care system using machine learning where a system monitors
our regular health data and if there is anyone is found unwell then it is automatically reported
to doctors and users. It reduces the extra pressure over doctors and hospitals.
The life Many Elder people having blood pressure, heart disease, high sugar will be saved by
using this system. The condition of medical facility in most of Indian villages is very poor.
Even there is some villages in India where a single doctor is not available. They face a great
problem when anyone is ill. This projects can solve their problem also. If any villager is found
unwell then their Swhole medical report will reach to nearest hospital’s doctors and they get
proper treatment. In serious condition an ambulance will be sent to patients’ location through
gps tracker and admit the patient to hospital.
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REFERENCES
https://www.arduino.cc
https://www.nodemcu.com
www.courseera.org