scope of a journal in the field of Information Technology and Computer Engineering. This journal accepts various types of articles, including research articles, review articles, and short communications.
IoT and machine learning (ML) are becoming increasingly efficient in the medical and telemedicine areas all around the world. This article describes a system that employs latest technology to give a more accurate method of forecasting disease. This technology uses sensors to collect data from the body of the patient. The obtained sensor information is collected with NodeMcU before being transferred to the Cloud Platform "ThinkSpeak" through an ESP8266 Wi-Fi module. ThinkSpeak is a cloud server that provides real-time data streams in the cloud. For the best results, data currently saved in the cloud is evaluated by one of the machine learning algorithms, the KNN algorithm. Based on the findings of the analysis and compared with the data sets, the disease is predicted and a prescription for the relevant disease is issued.
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.
IoT and machine learning (ML) are becoming increasingly efficient in the medical and telemedicine areas all around the world. This article describes a system that employs latest technology to give a more accurate method of forecasting disease. This technology uses sensors to collect data from the body of the patient. The obtained sensor information is collected with NodeMcU before being transferred to the Cloud Platform "ThinkSpeak" through an ESP8266 Wi-Fi module. ThinkSpeak is a cloud server that provides real-time data streams in the cloud. For the best results, data currently saved in the cloud is evaluated by one of the machine learning algorithms, the KNN algorithm. Based on the findings of the analysis and compared with the data sets, the disease is predicted and a prescription for the relevant disease is issued.
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.
Design and Implementation of Smart Monitoring Systems in Hospital Wagon using...ijtsrd
Nowadays, many researchers are contributing their research in the field of Internet of things IOT , since it is important and attractive technology. IOT means communication between human to device or device to device, anywhere in real time. This communication takes place with the help of different smart sensors which are connected via internet. In the IOT infrastructure different sensors can sense, analyse, transmit and store all the datas on cloud. This paper presents a wearable sensor network system for Internet of Things IoT connected safety and health applications. The wearable sensors on different subjects can communicate with each other and transmit the data to a gateway via a Local Area Network which forms a heterogeneous IoT platform with wifi based medical signal sensing network. It consists of two sections the basic information and condition of patient is collected in the wagon by the means IoT Internet of Things and make it available to hospital before the emergency vehicle reaches the hospital. On the base of such data, the system is able to detect anomalous situations and provide information about the status directly and exclusively to the hospital. The second path is control of traffic lights from the wagon and makes free for its path automatically. This project is to save the time of major late time aspects in more efficient manner and save the life. Mrs. S. Kirthica | Mrs. S. Priyadharsini "Design and Implementation of Smart Monitoring Systems in Hospital Wagon using IoT Technology: A Case Study" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31731.pdf Paper Url :https://www.ijtsrd.com/mathemetics/other/31731/design-and-implementation-of-smart-monitoring-systems-in-hospital-wagon-using-iot-technology-a-case-study/mrs-s-kirthica
Today, health monitoring relies heavily on technological advancements. This
study proposes a low-power wide-area network (LPWAN) based, multinodal
health monitoring system to monitor vital physiological data. The suggested
system consists of two nodes, an indoor node, and an outdoor node, and the
nodes communicate via long range (LoRa) transceivers. Outdoor nodes use an
MPU6050 module, heart rate, oxygen pulse, temperature, and skin resistance
sensors and transmit sensed values to the indoor node. We transferred the data
received by the master node to the cloud using the Adafruit cloud service. The
system can operate with a coverage of 4.5 km, where the optimal distance
between outdoor sensor nodes and the indoor master node is 4 km. To further
predict fall detection, various machine learning classification techniques have
been applied. Upon comparing various classifier techniques, the decision tree
method achieved an accuracy of 0.99864 with a training and testing ratio of
70:30. By developing accurate prediction models, we can identify high-risk
individuals and implement preventative measures to reduce the likelihood of
a fall occurring. Remote monitoring of the health and physical status of elderly
people has proven to be the most beneficial application of this technology.
Telemedicine, the remote delivery of healthcare services using telecommunications technology, has gained significant prominence in recent years, including its application in clinical research. Telemedicine in clinical research refers to the use of virtual visits, remote monitoring, and telecommunication tools to facilitate participant enrollment, data collection, study assessments, and monitoring in research studies. Here are some key aspects and benefits of telemedicine in clinical research:
Participant Recruitment and Access:
Telemedicine enables researchers to expand their participant pool beyond geographical limitations. By leveraging telecommunication tools, researchers can reach individuals who may face challenges with physical access to study sites, such as those living in remote areas or individuals with mobility issues. This broader reach enhances participant recruitment and diversity, contributing to the generalizability and representativeness of research findings.
Remote Study Visits and Data Collection:
Telemedicine allows for remote study visits, eliminating the need for participants to travel to study sites. Through video consultations and remote assessments, researchers can conduct interviews, collect data, perform examinations, and administer questionnaires remotely. This approach reduces participant burden, increases convenience, and enhances compliance by minimizing the time and effort required for in-person visits.
Real-Time Monitoring and Data Capture:
Telemedicine facilitates the collection of real-time data by remotely monitoring participants' health status and adherence to study protocols. Wearable devices, mobile health applications, and sensors can be used to capture vital signs, medication adherence, activity levels, and other relevant data. Researchers can access and analyze this data in real-time, enabling early detection of adverse events, improving safety monitoring, and enhancing the accuracy and completeness of data collection.
Patient Engagement and Retention:
Telemedicine enhances patient engagement by providing more frequent interactions with study staff and personalized support. Regular virtual check-ins, educational sessions, and feedback can strengthen the participant-researcher relationship, leading to increased participant satisfaction and retention. Telemedicine also offers flexibility in scheduling visits, reducing missed appointments, and improving overall study adherence.
Cost and Time Efficiency:
Telemedicine can reduce the overall cost and time associated with conducting clinical research. It eliminates or reduces travel expenses for participants and reduces the need for physical study site infrastructure.
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
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.
Telehealth care enhancement using the internet of things technologyjournalBEEI
Chronic diseases quickly become broader public health issues because of the difficulty in obtaining appropriate, often long-term health care. So that, it requires the extension of health care for patients with chronic diseases beyond the clinic to include patient’s home and work environment. To reduce costs and provide more appropriate healthcare, we need telehealth care where internet of things (IoT) technology plays an important role. The integration of the IoT and medical science offers opportunities to improve healthcare quality, and efficiency and to better coordinate healthcare delivery at home and in the workplace. In this paper, we present the realization of a remote healthcare system based on the IoT technology. The function of this system is the transmission via a gateway of internet collected data using biomedical sensors node based Arduino board (e.g., temperature, electrical activity of the heart, heart rate monitor). These data will be stored automatically in a cloud. The health can then be monitored by the doctor or patient using a web page in real-time from anywhere at any time in the world using laptops or smart phones, etc. This method also reduces the need for direct interaction between doctor and patient.
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.
Internet of Things IoT Based Healthcare Monitoring System using NodeMCU and A...ijtsrd
Today Internet has become one of the important parts of daily life. It has changed how people live, work, play and learn. Internet serves for many purposes educations, finance, Business, Industries, Entertainment, Social Networking, etc. The IoT is connected objects to the Internet and used to control of those objects or remote monitoring. A health care monitoring system is necessary to constantly monitor the patient's physiological parameters. The main advantage of this system is that the results can be viewed at any time and place. The doctors can be notified by using mobile phones messages if patient health is abnormal. In this system, heartbeat sensor, temperature sensor and blood pressure sensor are used. The system can analyze the signal to detect normal or abnormal conditions. In the system, the internet of things IoT is becoming a major platform for many services and applications. The IoT is generally considered as connecting objects to the Internet and using that connection for control of those objects or remote monitoring. Khin Thet Wai | Nyan Phyo Aung | Lwin Lwin Htay "Internet of Things (IoT) Based Healthcare Monitoring System using NodeMCU and Arduino UNO" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26482.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/26482/internet-of-things-iot-based-healthcare-monitoring-system-using-nodemcu-and-arduino-uno/khin-thet-wai
journal in research These are typically in-depth papers that present original research findings. Research articles in agriculture science would likely include experimental data, methodology, results, discussion, and conclusions related to agricultural topics.
Alinteri Journal of Agriculture Sciences is focused on creating a platform for researchers in the fields of agriculture, fisheries, veterinary, biology, and related disciplines to share and discuss recent scientific progress.
Design and Implementation of Smart Monitoring Systems in Hospital Wagon using...ijtsrd
Nowadays, many researchers are contributing their research in the field of Internet of things IOT , since it is important and attractive technology. IOT means communication between human to device or device to device, anywhere in real time. This communication takes place with the help of different smart sensors which are connected via internet. In the IOT infrastructure different sensors can sense, analyse, transmit and store all the datas on cloud. This paper presents a wearable sensor network system for Internet of Things IoT connected safety and health applications. The wearable sensors on different subjects can communicate with each other and transmit the data to a gateway via a Local Area Network which forms a heterogeneous IoT platform with wifi based medical signal sensing network. It consists of two sections the basic information and condition of patient is collected in the wagon by the means IoT Internet of Things and make it available to hospital before the emergency vehicle reaches the hospital. On the base of such data, the system is able to detect anomalous situations and provide information about the status directly and exclusively to the hospital. The second path is control of traffic lights from the wagon and makes free for its path automatically. This project is to save the time of major late time aspects in more efficient manner and save the life. Mrs. S. Kirthica | Mrs. S. Priyadharsini "Design and Implementation of Smart Monitoring Systems in Hospital Wagon using IoT Technology: A Case Study" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31731.pdf Paper Url :https://www.ijtsrd.com/mathemetics/other/31731/design-and-implementation-of-smart-monitoring-systems-in-hospital-wagon-using-iot-technology-a-case-study/mrs-s-kirthica
Today, health monitoring relies heavily on technological advancements. This
study proposes a low-power wide-area network (LPWAN) based, multinodal
health monitoring system to monitor vital physiological data. The suggested
system consists of two nodes, an indoor node, and an outdoor node, and the
nodes communicate via long range (LoRa) transceivers. Outdoor nodes use an
MPU6050 module, heart rate, oxygen pulse, temperature, and skin resistance
sensors and transmit sensed values to the indoor node. We transferred the data
received by the master node to the cloud using the Adafruit cloud service. The
system can operate with a coverage of 4.5 km, where the optimal distance
between outdoor sensor nodes and the indoor master node is 4 km. To further
predict fall detection, various machine learning classification techniques have
been applied. Upon comparing various classifier techniques, the decision tree
method achieved an accuracy of 0.99864 with a training and testing ratio of
70:30. By developing accurate prediction models, we can identify high-risk
individuals and implement preventative measures to reduce the likelihood of
a fall occurring. Remote monitoring of the health and physical status of elderly
people has proven to be the most beneficial application of this technology.
Telemedicine, the remote delivery of healthcare services using telecommunications technology, has gained significant prominence in recent years, including its application in clinical research. Telemedicine in clinical research refers to the use of virtual visits, remote monitoring, and telecommunication tools to facilitate participant enrollment, data collection, study assessments, and monitoring in research studies. Here are some key aspects and benefits of telemedicine in clinical research:
Participant Recruitment and Access:
Telemedicine enables researchers to expand their participant pool beyond geographical limitations. By leveraging telecommunication tools, researchers can reach individuals who may face challenges with physical access to study sites, such as those living in remote areas or individuals with mobility issues. This broader reach enhances participant recruitment and diversity, contributing to the generalizability and representativeness of research findings.
Remote Study Visits and Data Collection:
Telemedicine allows for remote study visits, eliminating the need for participants to travel to study sites. Through video consultations and remote assessments, researchers can conduct interviews, collect data, perform examinations, and administer questionnaires remotely. This approach reduces participant burden, increases convenience, and enhances compliance by minimizing the time and effort required for in-person visits.
Real-Time Monitoring and Data Capture:
Telemedicine facilitates the collection of real-time data by remotely monitoring participants' health status and adherence to study protocols. Wearable devices, mobile health applications, and sensors can be used to capture vital signs, medication adherence, activity levels, and other relevant data. Researchers can access and analyze this data in real-time, enabling early detection of adverse events, improving safety monitoring, and enhancing the accuracy and completeness of data collection.
Patient Engagement and Retention:
Telemedicine enhances patient engagement by providing more frequent interactions with study staff and personalized support. Regular virtual check-ins, educational sessions, and feedback can strengthen the participant-researcher relationship, leading to increased participant satisfaction and retention. Telemedicine also offers flexibility in scheduling visits, reducing missed appointments, and improving overall study adherence.
Cost and Time Efficiency:
Telemedicine can reduce the overall cost and time associated with conducting clinical research. It eliminates or reduces travel expenses for participants and reduces the need for physical study site infrastructure.
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
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.
Telehealth care enhancement using the internet of things technologyjournalBEEI
Chronic diseases quickly become broader public health issues because of the difficulty in obtaining appropriate, often long-term health care. So that, it requires the extension of health care for patients with chronic diseases beyond the clinic to include patient’s home and work environment. To reduce costs and provide more appropriate healthcare, we need telehealth care where internet of things (IoT) technology plays an important role. The integration of the IoT and medical science offers opportunities to improve healthcare quality, and efficiency and to better coordinate healthcare delivery at home and in the workplace. In this paper, we present the realization of a remote healthcare system based on the IoT technology. The function of this system is the transmission via a gateway of internet collected data using biomedical sensors node based Arduino board (e.g., temperature, electrical activity of the heart, heart rate monitor). These data will be stored automatically in a cloud. The health can then be monitored by the doctor or patient using a web page in real-time from anywhere at any time in the world using laptops or smart phones, etc. This method also reduces the need for direct interaction between doctor and patient.
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.
Internet of Things IoT Based Healthcare Monitoring System using NodeMCU and A...ijtsrd
Today Internet has become one of the important parts of daily life. It has changed how people live, work, play and learn. Internet serves for many purposes educations, finance, Business, Industries, Entertainment, Social Networking, etc. The IoT is connected objects to the Internet and used to control of those objects or remote monitoring. A health care monitoring system is necessary to constantly monitor the patient's physiological parameters. The main advantage of this system is that the results can be viewed at any time and place. The doctors can be notified by using mobile phones messages if patient health is abnormal. In this system, heartbeat sensor, temperature sensor and blood pressure sensor are used. The system can analyze the signal to detect normal or abnormal conditions. In the system, the internet of things IoT is becoming a major platform for many services and applications. The IoT is generally considered as connecting objects to the Internet and using that connection for control of those objects or remote monitoring. Khin Thet Wai | Nyan Phyo Aung | Lwin Lwin Htay "Internet of Things (IoT) Based Healthcare Monitoring System using NodeMCU and Arduino UNO" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26482.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/26482/internet-of-things-iot-based-healthcare-monitoring-system-using-nodemcu-and-arduino-uno/khin-thet-wai
journal in research These are typically in-depth papers that present original research findings. Research articles in agriculture science would likely include experimental data, methodology, results, discussion, and conclusions related to agricultural topics.
Alinteri Journal of Agriculture Sciences is focused on creating a platform for researchers in the fields of agriculture, fisheries, veterinary, biology, and related disciplines to share and discuss recent scientific progress.
The primary focus of the journal is on Information Technology and Computer Engineering. This suggests that the journal covers a wide range of topics within these disciplines.
Alinteri Journal of Agriculture Sciences is focused on creating a platform for researchers in the fields of agriculture, fisheries, veterinary, biology, and related disciplines to share and discuss recent scientific progress.
These are typically in-depth papers that present original research findings. Research articles in agriculture science would likely include experimental data, methodology, results, discussion, and conclusions related to agricultural topics.
Agricultural Sciences has been published online biannually since 2007. This indicates a commitment to making agricultural research and knowledge accessible to a broader audience through regular online publications.
Alınteri Journal of Agriculture Science is a peer-reviewed academic journal that focuses on publishing research articles related to agriculture and its interdisciplinary aspects. The fact that it was established in 2007, is published biannually, and follows an open-access policy suggests a commitment to disseminating knowledge widely.
journals like IJERST to provide a valuable resource for researchers, students, and professionals who are interested in the latest developments and insights in the field of Information Technology and Computer Engineering.
Alınteri Journal of Agriculture Science, as you mentioned, is an international peer-reviewed journal established in 2007. This journal is published biannually and follows an open access policy, meaning that its content is freely accessible to anyone interested.
The journal appears to cover a broad spectrum of topics related to agriculture, fisheries, veterinary science, biology, and related disciplines. This indicates that it accepts submissions in these areas and aims to publish research from these fields.
The International Journal of Engineering Research and Science & Technology (IJERST) is a peer-reviewed online journal that focuses on publishing research articles, short communications, and review articles in the fields of Information Technology and Computer Engineering
¬¬International Journal of Engineering Research and Science and Technology (IJERST) offers a fast publication schedule while maintaining rigorous peer review. This is an important feature for many researchers who want to disseminate their work quickly while ensuring the quality and credibility of their research.
Alinteri Journal of Agriculture Sciences is an online academic journal that has been published biannually since 2007. It is an open-access, international journal that follows a double-blind peer-review process.
Alinteri Journal of Agriculture Sciences is dedicated to promoting open access and facilitating the exchange of scientific knowledge among researchers. Open access journals play a crucial role in making research findings more accessible to a wider audience, which can ultimately lead to greater collaboration and innovation in the field of agriculture sciences.
IJERST is described as a publication dedicated to presenting the results of scientific and technical research in the fields of Engineering, Science, and Technology.
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
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.
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.
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.
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2. ISSN :2319-5991
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Vol. 16, Issuse.3,July 2023
ROBOTIC PATIENT MONITORING AND MEDICINE DELIVERY
DR S PRADEEP1
, M. LAASYA REDDY2
, M. HARIKA3
, KUSHNUMA4
, V. AARTHI5
ABSTRACT: In this project, I propose a robot with some functionality of providing
medicine as well as to measure the vital parameters (Heart rate, Blood Pressure, Temperature)
of the patient. We can attain the locomotion procedure of the robot using the principle of
Radio-frequency identification (RFID) that automatically identifies and tracks tags attached
to the objects. The movement and finding the path to patient location is done through a line
follower and with RFID tag. Line following method is used to identify the path with help of
two infrared sensors. The robot will move towards the patient’s room by following a non-
reflective line and use RFID cards to identify the patient’s room number. Using the Medicine
box, the medicine delivery is made possible to the patients. Relevant box will be open based
on the RFID reader. All the measured parameters will be stored to the cloud using the
application of the Internet of Thinking (IOT). If the read values varied from threshold, then
an alert message will be sent to doctors through GSM Module.
Keywords – Medicine delivery, IoT, Healthcare, RFID, Data
INTRODUCTION
In recent years, the healthcare industry has
shown rapid growth and has been a major
contributor to revenue and employment. A
few years ago, the diagnosis of diseases
and abnormality in the human body was
only being possible after having a physical
analysis in the hospital. Most of the
patients had to stay in the hospital
throughout their treatment period. This
resulted in an increased healthcare cost and
also strained the healthcare facility at rural
and remote locations. The technological
advancement that has been achieved
through these years has now allowed the
diagnosis of various diseases and health
monitoring using miniaturized devices like
smartwatches. The use of such
communication services in conjunction
with the rapidly growing technologies
(e.g., machine learning, big data analysis,
Internet of things (IoT), wireless sensing,
mobile computing, and cloud computing)
has improved the accessibility of the
healthcare facilities.
PROFESSOR& HOD1
, DEPARTMENT OF IOT, MALLA REDDY ENGINEERING COLLEGE FOR WOMEN, HYDERABAD
UGSCHOLAR2,3,4&5
, DEPARTMENT OF IOT, MALLA REDDY ENGINEERING COLLEGE FOR WOMEN, HYDERABAD
3. IoT has not only enhanced the
independence but also diversified the
ability of the human to interact with the
external environment. IoT, with help of
futuristic protocol and algorithms, became
a major contributor to global
communication. It connects a large number
of devices, wireless sensors, home
appliances, and electronic devices to the
Internet. The IoT devices have been
integrated with other physical devices to
monitor and exchange information using
different communication protocols such as
Bluetooth, Zigbee,and so on.Additionally,
environmental information such as
temperature, humidity, date, and time can
also be recorded. These data help in
making meaningful and precise inferences
on the health conditions of the patients.
The framework of the IoT that is applied
for healthcare applications aids to integrate
the advantages of IoT technology and
cloud computing with the field of
medicine. It also lays out the protocols for
the transmission of the patient’s data from
numerous sensors and medical devices to a
given healthcare network. The topology of
an H-IoT is the arrangement of different
components of an IoT healthcare
system/network that are coherently
connected in a healthcare environment. A
basic system contains mainly three
components such as publisher, broker, and
subscriber. The publisher represents a
network of connected sensors and other
medical devices that may work
individually or simultaneously to record
the patient’s vital information.Since the
topology for an depends on the healthcare
demand and application, it is hard to
suggest a universal structure for IoT.
Numerous structural changes have been
adopted in the past for an IoT system. It is
crucial to list out all associated activities
related to the desired health application
while designing a new IoT-based
healthcare system for real-time patient
monitoring. The success of the IoT system
depends on how it is satisfying the
requirements of healthcare providers.
Since each disease needs a complex
procedure of healthcare activities, the
topology must follow the medical rules
and steps in the diagnosis procedure.
LITERATURE SURVEY The
synchronization between IoT and robotics,
It talks about the technologies in IoT that
would benefit the robotics domain. The
advent of Cloud Robotics and its role in
aiding robot functions like sensing,
manipulation, and mobility.IoT-aided
robotic applications are discussed in
various domains like health-care, military,
industrial plants and rescue operations.
This concludes by considering the use case
of an Intelligent Transportation System
endowed by an IoT-inspired
architecture.The introduction of Robots
and IoT made the industries and firms
fully smart automated and digitalize [1]. In
other perspective, robots were also serving
medical sectors since many years
successfully in heart surgeries, fighting
cancer cells etc. and making the footprints
for further research and developments. An
attempt is made to highlight the methods
and applications of Robots & IoT in large
extent in medical and societal areas to
safeguard from corona virus [2].The path
to a mature development of IoTaided
robotics applications requires several
pivotal issues to be solved, design
methodologies to be consolidated, and
strong architectural choices to be
discussed, In particular, the present
contribution is four-folded. First, it
provides a solid state of the art on the main
topics related to IoTaided robotics
services: communication networks,
robotics applications in distributed and
pervasive environments, semantic-oriented
approaches to consensus, and network
security [3]. In this paper, an idea to
improve the current status of health care
worldwide through automation and
robotics has been propounded. Health Care
& proper monitoring is the most integral
part of medication as it is the recovery
4. stage of the patient [4]. The
comprehensive requirements for updating
the healthcare system, this presents a novel
system framework and designed a IoT
robot which based on cloud technology
and Internet of Things. The system based
on multi-core embedded
system,communication protocol, and cloud
technology [5].The experimental results
show that the well performance and
feasibility of the system.The study in
recent advancements in technology and the
availability of the Internet make it possible
to connect various devices that can
communicate with each other and share
data. It discusses a new semantic model for
patients' e-Health. The model named as
makes use of layers; the sensor layer, the
network layer, the Internet layer and the
services layer. All layers cooperate with
each other effectively and efficiently to
provide a platform for accessing patients'
health data using smart phones [6]. The
paper presents [7], finding the path using
line following method which identifies the
track with the help of two infrared
proximity sensor and using cards identifies
the room number of the patient. It can also
monitor the pressure and temperature
levels of the patient and record it in the
hospital patient database by incorporating
a pressure and temperature sensor in it
which is an added advantage in this model.
This shows that it provide stable and
reliable system and keeps the
manufacturing cost low.The performance
analysis of scheduling multiple robots for
hospital logistics. A fleet of autonomous
mobile robots are used in the hospital for
the delivery service [8]. To increase the
efficiency of using multiple robots, an
appropriate task allocation algorithm is
required. The indoor service robot which
has the capabilities to follow human
commands and handle emergency is
designed and implemented. A location
algorithm of the robot based on the
wireless sensor network is proposed.
Stability of the proposed home monitoring
system in longtime monitoring tasks is
tested [9]. Automatically classifying
affective and informative. Various websites
today provide medical information and this
information can either be affective or
informative, contains information which
are facts and information which are
opinions from a fellow patient, doctor or
nurse who try to analyze the given query
and give an opinion [10].
EXISTING SYSTEM:
In the existing system of the smart
medicine remainder box, it will blink led,
based on the medicine number along with
a buzzer. In this also they have used the
Arduino and an RTC module to get the
current time and an LCD display and push
buttons to set and observe the time. When
it’s time to take medicine, the buzzer will
alarm along with the led blink. The main
drawback in this is if the person is far
away from the system, he won’t get to
know that it is medicine taking time.
DRAWBACKS:
If the person is far away from the
system, he won’t get to know that it
is medicine taking time which
might affect the person’s health.
PROPOSED SYSTEM:
Our project MedRobo is an alternate
solution to the difficulties faced by the
hospital staff in treating the coronavirus
positive patients, who raised this problem.
It delivers the medicine to the patient and
checks the important parameters of the
patient such as temperature, heart rate
without the involvement of humans or by
avoiding the direct contact of hospital staff
with the patients. By using the reference
parameters which are given to the system,
will compare with the measured
parameters. Then the recorded parameters
data will be sent to the doctors through the
IOT platform. The movement and finding
the path to patient location is done through
a Bluetooth and with RFID tag. The
medical staff will be aware whether the
medicine is delivered or not.Also can
reevaluate and view the datas of individual
5. patients after a particular interval of time
to make sure that all those patients
suffering from coronavirus are feeling
better and are in good condition.
Though the person is far away from
the system, it reminds through
SMS is sent through GSM so that
he can make time to reach and take
pills.
It has the provided with a voice
circuit module, which speaks
which medicine has to take at this
time
APPLICATIONS
It can be useful for anyone who
forgets to take pills while working.
It can be used for those who goes
far away from home and forgets to
take pills with them.
It can be helpful as it has provided
with a voice circuit module that
speaks the medicine number when
it is time to take that pill.
BLOCK DIAGRAM
DRIVER CIRCUIT (L293D) L293D IC
generally comes as a standard 16-pin DIP
(dualin line package). This motor driver IC
can simultaneously control two small
motors in either direction; forward and
reverse with just 4 Microcontroller pins (if
you do not use enable pins) It works on the
concept of H-bridge. H-bridge is a circuit
which allows the voltage to be flown in
either direction. As you know voltage need
to change its direction for being able to
rotate the motor in clockwise or
anticlockwise direction, Hence H-bridge
IC are ideal for driving a DC motor. In a
single l293d chip there two h-Bridge
circuit inside the IC which can rotate two
dc motor independently. Due its size it is
very much used in robotic application for
controlling DC motors. Given below is the
pin diagram of a L293D motor
controller.There are two Enable pins on
l293d. Pin 1 and pin 9, for being able to
drive the motor, the pin 1 and 9 need to be
high. For driving the motor with left H-
bridge you need to enable pin 1 to high.
And for right H-Bridge you need to make
the pin 9 to high. If anyone of the either
pin1 or pin9 goes low then the motor in the
corresponding section will suspend
working. It’s like a switch
Fig: Driver CircuitL293D
TEMPERATURE SENSOR Temperature
is the most-measured process variable in
industrial automation.Most commonly, a
temperature sensor is used to convert
temperature value to an electrical value.
Temperature Sensors are the key to read
temperatures correctly and to control
temperature in industrials applications. A
large distinction can be made between
temperature sensor types. Sensors differ a
lot in properties such as contact-way,
temperature range, calibrating method and
sensing element. The temperature sensors
contain a sensing element enclosed in
housings of plastic or metal. With the help
of conditioning circuits, the sensor will
reflect the change of environmental
temperature
Features: 1.Calibrated directly in Celsius
(centigrade) 2. 0.50 C Ensured accuracy
6. (at +250 C) 3. Suitable for remote
applications 4. Operate from 4 to 30 V
SPO2 SENSOR Pulse oximeter is a
simple, relatively cheap and noninvasive
technique to monitor oxygenation. It
monitors the percentage of haemoglobin
that is oxygen-saturated. Oxygen
saturation should always be above 95%,
although in those with long-standing
respiratory disease or antibiotic congenital
heart disease, it may be lower,
corresponding to disease severity. The
Oxyhaemoglobin dissociation curve
becomes sharply steep below about 90%,
reflecting the more rapid desaturation that
occurs with diminishing oxygen partial
pressure PaO2 . On most machines the
default low oxygen saturation alarm
setting is 90%.Pulse oximeter does not
provide information on the oxygen content
of the blood or on ventilation. Thus care is
needed in the presence of anaemia and in
patients developing respiratory failure due
to carbon dioxide retention
RFID READER AND TAG The reader,
functions similarly to a bar-code scanner;
however, while a bar-code scanner uses a
laser beam to scan the bar-code, an RFID
scanner uses electromagnetic waves. To
transmit these waves, the scanner uses an
antenna that transmits a signal,
communicating with the tags antenna. The
tags antenna receives data from the
scanner and transmits its particular chip
information to the scanner The data on the
chip is usually stored in one of two types
of memory. The most common is Read-
Only Memory (ROM); as its name
suggests, read-only memory cannot be
altered once programmed onto the chip
during the manufacturing process. The
second type of memory is Read/Write
Memory; though it is also programmed
during the manufacturing process, it can
later be altered by certain devices RFID
tag is a small device which stores and
sends data to RFID reader. They are
categorized in two types – active tag and
passive tag. Active tags are those which
contain an internal battery and do not
require power from the reader. Typically
active tags have a longer distance range
than passive tags. Passive tags are smaller
and lighter in size than the active tags.
They do not contain an internal battery and
thus depend on RFID reader for operating
power and certainly have a low range
limited up to few meters
CONCLUSION IOT is a combination of
various technologies that empower a
diverse range of appliances, devices and
objects to interact and communicate with
each other using different networking
technologies. The Internet of Things has
made the lives of the human being
straightforward and comfortable. It has
made the lives of the people very
convenient.Whereas on the other hand
with the increased use of the Internet of
Things the treat for security and safety has
also increase. So we should be careful
while providing the details on the Internet
platform. However, we can see a lot of
necessary steps are being taken but still
keeping your data safe with you is
essential.So far, much of the information
found on the Internet is supplied by human
beings. In case of IOT smart objects
provide the information. There exist a
wide variety of applications based on IOT,
including healthcare, which is the primary
focus of this work. Healthcare systems
makes use of interconnected smart devices
to establish an IOT network for healthcare
analysis, patient monitoring and
automatically identifying situations where
a physician involvement is needed.This
research helps to reduce human to human
contact in hospitals and thus prevents the
doctors and medical staff from getting
affected by Corona virus. The time of both
patients and doctors is saved.
FUTURE WORK Future we can have an
intelligent system which could perform
problem solving tasks such as diagnosing
the patient in the doctor’s absence and if
anything suspicious is detected it would
provide required solution. The robot can
be so designed that it can monitor as many
patients admitted to the particular ward.
7. The database of the hospital can be linked
with robot to track and register the entry
and exit of patients. Robotics, the
medicinal robotics market is going to
increase exponentially in the coming years.
There is a steep rise in the production and
development of mobile medicinal as well
as service robots and one of the major
reasons is the corona virus outbreak.
Robots like can be supported with
Artificial Intelligence and computer vision
so that they can cater to the patients in a
more sensitive way. Voice recognition
system including text to speech and speech
to text could be implemented and the
ability to talk to patients, make phone calls
to their knows over the internet could be
made possible by making them smart by
connecting it to the internet and cloud
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