Дисертації з теми "Internet of Medical Things (IoMT)"
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Sayeed, Md Abu. "Epileptic Seizure Detection and Control in the Internet of Medical Things (IoMT) Framework." Thesis, University of North Texas, 2020. https://digital.library.unt.edu/ark:/67531/metadc1703334/.
Повний текст джерелаGheryani, Mostafa. "Epileptic seizure and anomaly detection in internet of medical things." Electronic Thesis or Diss., Université Paris Cité, 2021. http://www.theses.fr/2021UNIP5211.
Повний текст джерелаThe goal of my PhD is to investigate the characteristics of inertial and physiological signals via IoMT systems generated by epileptic seizure and to develop an algorithm to detect the seizure. The focus of the algorithms lies in nocturnal seizures where the risk of SUDEP is high because the patients are unsupervised while sleeping. In chapter III analysis we propose an IoMT platform for seizure detection. The proposed framework approach starts by deriving the RMS for ACM and Gyro, followed by the normalization of whole signals (ACM, Gyro and EMG) in the same range, and aggregate all into one signal. The chart’s control with its upper and lower limits are derived in the training phase and used to detect abnormal seizures and to raise an alarm. In chapter IV Our proposed algorithm is based on deriving instantaneous power measurements in a sliding window containing 3D ACM or 3D Gyro or EMG. The residual between forecasted and measured power is used as input for the detection algorithm based on Shewhart Control Chart (SCC). When the difference between forecasted and derived power exceeds chart limits [lower, upper] for several consecutive slots, an alarm is raised. Our proposed approach provides low FAR (4%) and sensitivity of 97%. In Chapter V our proposed method starts by reducing the dimension of collected data using RMS to derive one signal from 3D ACM and one signal from 3D Gyro. With the derived 3 collected signals (ACM, Gyro and EMG), we apply VTP to derive one signal used as input for anomaly detection mechanism. The robust version of z-score is applied on the resulting product signal to detect deviations associated with seizures before raising an alarm. Our experimental results show that our proposed approach is robust against nocturnal movements and achieves a high level of detection accuracy with low false alarm rate. Afterward, we compare the performance of our approach with the zero-crossings method calculated from sEMG. Our approach shows that the detection accuracy using VTP outperforms zero-crossing count over an overlapping sliding window of 1 second. In chapter VI, we propose an approach using the IoMT devices to acquire EMG, ACM and Gyro data and to transmit the measurements to a LPU for processing. When the LPU detects abnormal changes in the measurements, it raises an alarm for assistant. Our proposed approach uses SVM with reject option to distinguish seizures from normal daily life activity. Features presenting physiological changes of muscular activity and inertial data were extracted in LPU and are used as input for the detection algorithm. The reject option in SVM is used to enhance the reliability of the monitoring system and to reduce FAR, where the user is notified and can discard the alarm in his smartphone in the absence of seizure. The conducted experiments proved that our proposed approach could achieve a good accuracy with only 4% of false alarm rate. Finally, since we are using IoMT sensors, which are susceptible to data security issues. We proposed a solution to prevent Man in the Middle (MitM) attack, which can identify healthcare emergencies of monitored patients and replay normal physiological data to prevent the system from raising an alarm. In this chapter, we propose a framework to prevent a MitM from disrupting the operations and prohibiting the remote healthcare monitoring system. To reduce energy consumption for normal data transmission, and preserve the privacy of health data, our framework transmits a smaller size signature derived from acquired data with message authentication code, where the key is derived from Received Signal Strength Indication (RSSI). Our experimental results for emergency detection show that our approach can achieve a high detection accuracy with a low false alarm rate of 3%
Poggi, Giovanni. "Internet of Medical Things." Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2019.
Знайти повний текст джерелаOlokodana, Ibrahim Latunde. "Kriging Methods to Exploit Spatial Correlations of EEG Signals for Fast and Accurate Seizure Detection in the IoMT." Thesis, University of North Texas, 2020. https://digital.library.unt.edu/ark:/67531/metadc1707311/.
Повний текст джерелаMaioli, Edoardo. "Internet of Medical Things e Sviluppo di Sistemi Interoperabili basati su Standard FHIR: Un caso di studio basato sull'integrazione di un Dispositivo EGA." Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2021. http://amslaurea.unibo.it/24306/.
Повний текст джерелаChisanga, Fredrick. "Medical application of the Internet of Things (IoT): prototyping a telemonitoring system." Master's thesis, University of Cape Town, 2018. http://hdl.handle.net/11427/27940.
Повний текст джерелаSundaravadivel, Prabha. "Application-Specific Things Architectures for IoT-Based Smart Healthcare Solutions." Thesis, University of North Texas, 2018. https://digital.library.unt.edu/ark:/67531/metadc1157532/.
Повний текст джерелаDellgren, Emelie. "A case study on how the Apple Watch can benefit medical heart research." Thesis, KTH, Skolan för datavetenskap och kommunikation (CSC), 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-211493.
Повний текст джерелаLu, Andy. "Forensic analysis on wireless medical devices." Thesis, Edith Cowan University, Research Online, Perth, Western Australia, 2022. https://ro.ecu.edu.au/theses/2541.
Повний текст джерелаJönsson, Mattias. "TempScanner : An application to detect fever." Thesis, Malmö universitet, Fakulteten för teknik och samhälle (TS), 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:mau:diva-40768.
Повний текст джерелаOlsson, Joel, and Junior Asante. "Using Node-Red to Connect Patient, Staff and Medical Equipment." Thesis, Linköpings universitet, Institutionen för systemteknik, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-129781.
Повний текст джерелаSCRUGLI, MATTEO ANTONIO. "Adaptive cognitive sensor nodes for the internet of medical things." Doctoral thesis, Università degli Studi di Cagliari, 2022. http://hdl.handle.net/11584/333530.
Повний текст джерелаUrbini, Elia. "Sviluppo di sistemi interoperabili nell’ambito di internet of medical things basati su standard fhir: un caso di studio." Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2021. http://amslaurea.unibo.it/24307/.
Повний текст джерелаЧеботарьова, Д. В., та Я. В. Юр’єв. "Бездротова мережа як засіб зв’язку для пристоїв медичного інтернету речей". Thesis, ФОП Петров В. В, 2021. https://openarchive.nure.ua/handle/document/18671.
Повний текст джерелаNan, Yucen. "High-Credibility Edge Analytic System for Early Medical Intervention." Thesis, The University of Sydney, 2022. https://hdl.handle.net/2123/27309.
Повний текст джерелаWu, Longfei. "Designing Effective Security and Privacy Schemes for Wireless Mobile Devices." Diss., Temple University Libraries, 2017. http://cdm16002.contentdm.oclc.org/cdm/ref/collection/p245801coll10/id/469736.
Повний текст джерелаPh.D.
The growing ubiquity of modern wireless and mobile electronic devices has brought our daily lives with more convenience and fun. Today's smartphones are equipped with a variety of sensors and wireless communication technologies, which can support not only the basic functions like phone call and web browsing, but also advanced functions like mobile pay, biometric security, fitness monitoring, etc. Internet-of-Things (IoT) is another category of popular wireless devices that are networked to collect and exchange data. For example, the smart appliances are increasingly deployed to serve in home and office environments, such as smart thermostat, smart bulb, and smart meter. Additionally, implantable medical devices (IMD) is the typical type of modern wireless devices that are implanted within human body for diagnostic, monitoring, and therapeutic purposes. However, these modern wireless and mobile devices are not well protected compared with traditional personal computers (PCs), due to the intrinsic limitations in computation power, battery capacity, etc. In this dissertation, we first present the security and privacy vulnerabilities we discovered. Then, we present our designs to address these issues and enhance the security of smartphones, IoT devices, and IMDs. For smartphone security, we investigate the mobile phishing attacks, mobile clickjacking attacks and mobile camera-based attacks. Phishing attacks aim to steal private information such as credentials. We propose a novel anti-phishing scheme MobiFish, which can detect both phishing webpages and phishing applications (apps). The key idea is to check the consistency between the claimed identity and the actual identity of a webpage/app. The claimed identity can be extracted from the screenshot of login user interface (UI) using the optical character recognition (OCR) technique, while the actual identity is indicated by the secondary-level domain name of the Uniform Resource Locator (URL) to which the credentials are submitted. Clickjacking attacks intend to hijack user inputs and re-route them to other UIs that are not supposed to receive them. To defend such attacks, a lightweight and independent detection service is integrated into the Android operating system. Our solution requires no user or app developer effort, and is compatible with existing commercial apps. Camera-based attacks on smartphone can secretly capture photos or videos without the phone user's knowledge. One advanced attack we discovered records the user's eye movements when entering passwords. We found that it is possible to recover simple passwords from the video containing user eye movements. Next, we propose an out-of-band two-factor authentication scheme for indoor IoT devices (e.g., smart appliances) based on the Blockchain infrastructure. Since smart home environment consists of multiple IoT devices that may share their sensed data to better serve the user, when one IoT device is being accessed, our design utilizes another device to conduct a secondary authentication over an out-of-band channel (light, acoustic, etc.), to detect if the access requestor is a malicious external device. Unlike smartphones and IoT devices, IMDs have the most limited computation and battery resources. We devise a novel smartphone-assisted access control scheme in which the patient's smartphone is used to delegate the heavy computations for authentication and authorization. The communications between the smartphone and the IMD programmer are conducted through an audio cable, which can resist the wireless eavesdropping and other active attacks.
Temple University--Theses
Jagtap, Vinayak. "Cyber Physical System for Continuous Evaluation of Fall Risks to Enable Aging-In-Place." Digital WPI, 2015. https://digitalcommons.wpi.edu/etd-theses/508.
Повний текст джерелаIngabire, Paula. "Convergence of eco-system technologies : potential for hybrid electronic health record (EHR) systems combining distributed ledgers and the Internet of Medical Things towards delivering value-based Healthcare." Thesis, Massachusetts Institute of Technology, 2018. http://hdl.handle.net/1721.1/118548.
Повний текст джерелаCataloged from PDF version of thesis.
Includes bibliographical references (pages 64-66).
The Healthcare industry, just like any industry, is constantly racing to stay abreast with pace of technological innovations, especially at such a time where the industry is experiencing a strain on the global healthcare infrastructure. Specifically, the evolution of record management systems in the healthcare system has taken a slow and gradual transformation with each stage of transformation carrying over certain aspects and functions of previous stages. A survey of record management practices reveals that record management begun with paper-based records that have since partially been replaced with centralized Electronic Health Records (EHR). With the advent of Electronic Health Records enabled by distributed ledgers, we continue to see the inclusion of traditional paper-based functions beyond centralized EHR functions. Electronic data sharing in the healthcare ecosystem is constrained by interoperability challenges with different providers choosing to implement systems that respond to increasing their productivity. Prioritizing a patient-focused strategy during implementation of EHRs forces providers to implement systems that are more interoperable. A system engineering approach was adopted to guide the development and valuation of candidate architectures from Stakeholder analysis to concept generation and enumeration. Nine (9) key design decisions were selected with their combinations yielding 512 feasible hybrid architectures. In this paper, we proposed a hybrid EHR solution combining distributed ledger technologies and Internet of Medical Things, which contributes towards providing value-based healthcare. Leveraging properties of distributed ledgers and IoMT, the hybrid solution interconnects various data sources for health records to provide real-time record creation and monitoring whilst enabling data sharing and management in a secure manner.
by Paula Ingabire.
S.M. in Engineering and Management
Corrêa, Volpini Bruna. "Development of an Ambient Intelligence Environment to improve Patient Safety in Critical Care." Doctoral thesis, Universitat de Barcelona, 2021. http://hdl.handle.net/10803/673228.
Повний текст джерелаA finales de la década de 1990, cuando las computadoras personales y los dispositivos electrónicos se producían en masa, el concepto de inteligencia en el entorno (AmI – Ambient Intelligence en inglés) surgió. Un entorno que contiene AmI es un espacio con objetos que incluyen tecnologías, invisibles para los usuarios, y que les generan respuestas inteligentes cuando sea necesario. Actualmente, los profesionales sanitarios están trabajando dentro de un sistema complejo adaptativo en el que el entorno clínico y el estado de salud del paciente varían dinámicamente. Esto es especialmente importante en las Unidades de Cuidados Intensivos (UCIs), donde hay pacientes gravemente enfermos que necesitan infraestructuras y equipos avanzados para recibir monitorización de la forma más segura posible. En este contexto, el objetivo principal del trabajo que presento en esta tesis es desarrollar un entorno AmI para mejorar la eficiencia en los procesos relacionados con la seguridad del paciente en las UCIs. He elaborado esta tesis con la colaboración del equipo de la UCI inteligente del Hospital Clínic de Barcelona (HCB). El desarrollo de esta tesis se ha dividido en tres fases. En primer lugar, he diseñado, construido y probado un prototipo para simular el entorno AmI en un escenario de laboratorio considerando los principales problemas de seguridad clínica que ocurren en las UCIs. En segundo lugar, este prototipo ha sido adaptado e implementado en una UCI inteligente del HCB. En tercer lugar, he recogido y analizado los datos generados por el entorno inteligente. En conclusión, mi tesis evalúa la eficiencia del uso de nuevas tecnologías para mejorar los procesos de seguridad clínica en cuidados críticos, mejora los estándares clínicos y educativos sobre los procesos de seguridad del paciente en esta unidad y, finalmente, permite cuantificar los eventos relacionados con la seguridad clínica, así como ganar más conciencia sobre ellos.
Karboub, Kaouter. "Contribution à l'amélioration des performances des services médicaux urgents appliquant l'IoT et l'intelligence artificielle." Electronic Thesis or Diss., Université de Lorraine, 2022. http://www.theses.fr/2022LORR0093.
Повний текст джерелаInternet of Things (IoT) and Artificial Intelligence (AI)are two advancing technological areas utilizing the capabilities of performing hands free tasks and intelligent data analysis. These technologies are showing promising potentials of improving the Human-to-Machine interactions in clinical workflow, create a better foundation of clinical decision-making, and improve the accessibility of clinical data. The novel aspect, rapid advancement, and new application possibilities of IoT and AI are in the initial phases. Hence, the thesis research has the objectives of identifying and investigating the potential, challenges, and possibilities of using IoT and AI to assess clinical settings.From the other hand, Various organizations claim that increasing attention should be put on an efficient use of healthcare resources. The internationally rising life expectancy and population size is accompanied by hospitals that are relying more on short admissions, and thus on limited bed capacity. The international World Health Report published by the World Health Organization shows that 20-40% of all healthcare resources are not being sufficiently utilized. Thus, tools that benefit an efficient healthcare system is greatly relevant to the present society. The goal of this thesis is to expand methods in the field of IoT and AI and modeling and optimization to hospital patient flow with a view to provide management and planners with a range of decision tools for improving the utilization of hospital resources. We elaborate on several relevant hospital optimization problems which relate to decision making on both the strategic, tactical and operational level. In addition, we focus on various types of patient flow, from inpatient to outpatient admissions, which has led to many different research studies. Methodologically we mainly focus on evaluating the different instances of patient flow but specifically on patients with cardiovascular diseases (CVD) based on Markov chain modeling.Mainly, the focus was on separating the patient stay in the hospital into three main phases. Each phase in an interdependent, time varying and function of the other phase. The core of the contribution is to assess and give every step of the process of admitting, treating, and discharging patients with solutions that can help physicians take decisions in short time but also take them efficiently. These techniques used IoT in order to collect electrocardiogram signals (ECG) from patients with different CVD pathologies and to transfer these data into a platform that can preprocess it and store it. AI that is used to automatically classify these signals along with three MIT dataset and decide which patients have cardiovascular diseases with no physician intervention. Then AI was used to efficiently predict which patients need to be discharged based on their epidemiological, physiological signals and characteristics and also based on their Length of Stay (LOS) and on their admission and transfer history. Finally, comes the role of using metaheuristic optimization. This last one, into account the admission, treatment trajectory and first survival analysis of these patients to decide which patients will be allocated to a bed in which ward mainly in the Intensive Care Unit (ICU).The proposed system for studying and optimizing the patients flow in a health care facility show high performance based on the different performance metrics we are using in this research project
Kuo, Hsin-Ching, and 郭信慶. "Propose a Service Model of Internet of Medical Things (IoMT) in Home Care for the Elderly People." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/hb6798.
Повний текст джерела國立交通大學
資訊管理研究所
106
Since 1982, the elderly population of Taiwan has accounted more than 7% of the total population and has started to move in an aging society. Impact of decreasing birthrate, at the end of February 2017, the registered elderly population (over 65 years old) are more than the younger population (0-14 years old). According to the survey, about 70% of the elderly want to live with their children or spouses. But the family structure is slowly changing, and the care of the elderly people at home are going to be challenging. With the development of information and communications technology (ICT), several healthcare care systems and tools can be employed for the care of the elderly people at home. For example, Internet of things (IoT) such as wearable devices or sensors can be applied to sense basic physiological signals and upload these directly to the cloud platform. When there is an emergency situation, it can send out warning signals to the family to warn about the physiological condition. It can also be connected with the hospital or the care organization, which allows physicians and caregivers to monitor instantly and provide better care employing the remote care system. There are four purposes of the current study. First, explore the common needs required for elderly care. Understand the different needs of healthcare, psychological adjustment, economy, life care, and housing. Then a detailed discussion on health care and life care was employed. Second, explore the development of the IoT, including its operational model and basic structure. Third, understand the application of the IoT in medical care and explore how IoT can be applied in fields such as medical care or hospitals, and how it can be employed to improve the quality of medical care. The last item is to propose a comprehensive medical network for the elderly care service model. Integrate the care needs of the elderly at home, and connect the various services through the technology of the IoT to provide comprehensive care services for the elderly people. The literature review from 2010 to 2017 was employed to collect data. We include doctoral thesis, government research projects, publication of foreign journals and academic papers published in seminars are included for current study. A total of 199 published academic papers on the elderly care population related with IoT were finally included for the current study. All these studies are classified into six categories: health monitoring, using drugs, environmental safety, activities and sports, location monitoring and help, and rehabilitation. Discuss the several contents to understand how the Internet of Medical Things (IoMT) can solve the needs of elderly care. At the end of the study, a medical network structure was proposed for the home care service model of the elderly population. First, wearable devices and sensors are placed on the user to monitor their physical condition. Sensors and monitors are also built in a way which can work in the homely environment. Then, upload the relevant data to the cloud for storage and analysis. Finally, it is used to provide services such as health management, disease monitoring, diet, exercise, and rehabilitation to meet several medical care and daily needs. It can be used to provide preventive care and prevent disability or help to detect the disease in early stage and provide corresponding medical care services. It can be employed as self-health care management for healthy elderly people. Elderly people suffering from chronic diseases and have long-term care for disability can use it to monitor their physical condition instantly. However, it can be employed to reduce the burden on home caregivers, indirectly reduce the medical care costs, and improve the quality of care. The limitation of this study is that the data was collected only from published academic articles. Thus, there are lacks the opinions of experts. Therefore, future research should use questionnaires, interviews, and the opinions of relevant personnel to make the study findings more comprehensive. In addition, the service model proposed in this study is only a concept and has not been actually implemented. In the future research, it is expected to develop a system that can be used in practice, and discuss the system functions in the more precise way. Finally, security protection and transmission of users’ information are reinforced to protect the privacy of users.
Chou, Yu-Hsiang, and 周裕翔. "Internet of Things (IoT) Technology Applies to Medical Long-Tern Health Care Cloud Computing Products." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/21130932723248783045.
Повний текст джерела淡江大學
管理科學學系企業經營碩士在職專班
101
In view of Taiwan''s population is aging rapidly, causing that need to be taken care of the elderly population continues to grow, on the contrary the structure of double-income families to take care of human caused reduced, so the need for the development of long-term care is more and more important. Current home care, the majority of family members or to hire only licensed non-nursing home care as a non-professional caregivers are often unable to provide professional medical care. As a result, new types of remote health care services have emerged, using remote monitoring of care mode is the future trend of an aging society.In this study, we apply IoT (Internet of Things, IoT) structure model and cloud services to traditional long-term care system, to analyze advantages by data flow diagrams (Data Flow Diagram, DFD). In this cases study, a chronic diabetic patients using long-term care systems with IoT structure, to analysis of actual usage, verify that the actual results.Verify that the actual results, we found by using the Internet of Things structure Telecare system is a viable option.
YEH, SHU-WEI, and 葉書瑋. "Constructing Maturity Model of Information Security in the Internet of Things(IoT) Environment:Evidences from the Medical Industry." Thesis, 2016. http://ndltd.ncl.edu.tw/handle/352fnv.
Повний текст джерела國立中正大學
會計與資訊科技研究所
104
With the advancement of Internet, cloud computing and Wearable Technology, Internet of Things(IOTs) are the third wave of innovation reform for the global information technology industry. The IoTs will change people’s life and business models. New technology is accompanied by a new issue. Therefore, the studies related to IoT primarily focus on technology development and analysis of IoTs industry. Few researches put their accent on IS problems of IoT. As the proportion of elderly in society continues to rise, Technologies Applied to Health Care is most popularize in the IoTs applications. This study conducts an empirical study to construct the maturity model of information security in IoT environment for the medical industry. Finally, this study conducts the case study from a hospital which is willing to cooperate with this study. It is expected that aforementioned measurement scale can really work in the medical industry. It is expected that that the research findings can be beneficial for information security decision-making IT managers of medical industry to do the right decisions under the environment of IoTs.
Sobral, João António Moreira. "Implementation of Human-in-the-Loop Models in IoT Environments." Master's thesis, 2021. http://hdl.handle.net/10316/96072.
Повний текст джерелаCom o crescimento em tamanho, complexidade e funcionalidade, os sistemas informáticos estão cada vez mais inteligentes e interconectados. Em linha com essa tendência, a Internet das Coisas é usada de forma mais eficiente para oferecer suporte a novos tipos de sistemas. O desenvolvimento de sistemas "Humanos em Ciclo" (tradução livre para "Human-in-the-Loop") em ambientes de Internet das Coisas ainda é relativamente recente e, como tal são poucos os trabalhos e teses realizados sobre o tema. Por meio de investigação de ponta e uma visão geral detalhada de modelos “Humanos em Ciclo” em ambientes de Internet das Coisas, esta tese é um esforço para estender o conhecimento do campo com a implementação de dois sistemas "Humanos em Ciclo" em ambientes IoT aplicados à área médica. O primeiro projeto (Vitoria) foi concebido para coletar métricas e criar técnicas de previsão para os padrões de comportamento das pessoas durante e após uma pandemia. O segundo projeto (POC) teve como objetivo permitir a investigação da correlação, sobreposição e distinção entre o transtorno do espectro do autismo e o transtorno obsessivo-compulsivo, por meio de recolha passiva e ativa de dados. Ambos os projetos seguem um processo de desenvolvimento característico de projetos informáticos que é detalhadamente especificado nesta tese, e ambos passam pelo desenvolvimento de sistemas para plataformas moveis, embora por processos de desenvolvimento diferentes. O sistema do primeiro projeto é baseado na plataforma Android e o sistema do segundo projeto é baseado na plataforma Xamarin. Esta tese também inclui uma biblioteca de software com o objetivo de permitir a qualquer programador implementar as principais funcionalidades de um sistema Humanos em Ciclo em qualquer aplicação de software baseada na plataforma Xamarin.
Along with the growth in size, complexity and functionality, informatic systems are becoming increasingly more intelligent and interconnected. In line with this trend, the Internet of Things is being used more efficiently to support new types of systems. The development of "Human-in-the-Loop" systems in Internet of Things environments is still relatively recent and, as such, there are few works, and theses carried out on the subject. Through state-of-the-art research and detailed overview of Human-in-the-Loop models in Internet of Things Environments, this thesis is an effort to extend the field’s knowledge with the implementation of two Human-in-the-Loop systems in IoT environments applied to medical situations. The first project (Vitoria) was meant to collect metrics and predictive techniques for people’s behaviour patterns during and after a pandemic. The second project (POC) had the objective to allow the investigation of the correlation, overlapping, and distinction between autism spectrum disorder and obsessive-compulsion disorder, through passive and active data collection. Both projects follow a development process characteristic of Informatic projects that is specified in detail in this thesis, and both go through the development of systems for mobile platforms, although through different development processes. The system of the first project is based on Android platform and the system of second project is based on Xamarin platform. This thesis also includes a software library with the objective to allow any developer to implement the main features of a Human-in-the-Loop application in any software application based on Xamarin platform.
Outro - The research presented in this thesis was supported by the EEA Grants Portugal 2014- 2021 - Bilateral Initiative number 63 "PrivacyCoLab" and by the Project - "iFriend – Supervisión inteligente del estado de salud en personas mayores con insuficiencia renal mediante dispositivos inalámbricos" of Fundación CSIC, Interreg Portugal-Espanha.
Hsu, Kai-Che, and 許凱哲. "Development of Medical Device Interfaces with Internet of Things Techniques." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/mwcs8z.
Повний текст джерела國立臺灣科技大學
醫學工程研究所
106
The elders and patients with physical disabilities have difficulty in mobility, and electric wheelchairs and scooters would be possible mobility aids in their daily life. Severe disability patient with long-term illness in bed situation may use active pressure bedsore to change the body posture to prevent pressure ulcer. To provide the abovementioned patients having better quality of life through the uses of up-to-date technologies is the aim of this research. Therefore, this thesis mainly aims at developing the wearable devices with Internet of Things (IoT) techniques to provide a feasible human-machine-interface for disabled patient in terms of scenario design, solution implementation and validation. This thesis mainly discusses the applications of IoT in the development of wireless medical device control interface. In order to achieve the above goals, the technologies of MQTT (Message Queuing Telemetry Transport) and Bluetooth were employed. For the hardware aspects, the inertial measurement unit (IMU) and HM-10 Bluetooth modules were used. For the software aspects, the mobile tablet APP was realized with APP inventor. An ATmega2560 microcontroller was used to connect the APP and wearable sensors modules and the physical medical devices. Finally, the proposed interfaces were validated in terms of modifying the commercial available facilities of an electric wheelchair, an electric baby car and an active pressure bedsore.
LIU, CHIEN-CHIH, and 劉建志. "Study of Internet of Things Technology for The Wearable Medical Devices." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/7db2a6.
Повний текст джерела臺北城市科技大學
機電整合研究所
106
ABSTRACT With the development of science and technology, the convenient wearable devices has been a success in the market. Nowadays, various health sensors are developed and used to monitor personal health condition such as sphygmomanometers, and blood oxygen gauge, etc. The Wearable technology is often touted as one of the greatest applications of the Internet of Things, with good reasons. The health condition data are transmitted to the server over Internet, and monitored by specialists or program to achieve the purpose of remote healthcare. In this paper, the AD8232 module is used as the sensor of Electrocardiography(ECG). Arduino Yun development board is chosen as the controller of our wearable device. The ECG data are sent to the remote server by wireless LAN and can be monitored by web browser. The specialists can be aware of the irregular data early by surfing our webpage.
Wang, Ching-Fu, and 王經富. "Wearable Internet of Things-based Medical and Fitness Expert AI-platform." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/n4rfdr.
Повний текст джерела國立陽明大學
生物醫學工程學系
107
Cardiovascular disease (CVD) is the leading cause of the death all over the world, and this health issues also bring about abundant economic burdens. The global popular technology, Internet of Things (IoT), can integrate the hardware system of health monitoring, diagnostics and treatment, and making it more personalized, timely, and convenient in a lower cost. Wearable IoT may monitor vital signs and physical activities and promote a health program to maintain an active lifestyle, develop healthy habits for reducing the morbidity of CVD. However, the existing wearable devices still confront big challenges of insufficient function and poor strategy of big data acquisition for bio-data analysis. Therefore, this study proposed a wearable Hardware/Software (HW/SW) co-design wrist-type PPG device for IoT healthcare system, which incorporate with 24-hours vital sign AI-monitoring. To verify the clinical requirement, this study conducted a long-term clinical trial to validate different function including heart rate variability, blood pressure trend, atrial fibrillation, blood oxygen level, sleep cycle. Artificial intelligence and machine learning techniques are used to increase the measuring accuracy. The results shown that our lab-developed wrist-type PPG device was verified to acquire the sufficient and reliable bio-data. The AI-platform was also successfully established to provide specialists and users helpful information, such as timely noticing the abnormal vital signs or long-term healthy trend shown on the terminal device interface. By these means, we expecting the quality of healthy life would be raised up.
LAI, KAI-WEN, and 賴楷文. "A Study of Applications of Internet of Things to the Medical Care Environment." Thesis, 2017. http://ndltd.ncl.edu.tw/handle/f5n9vw.
Повний текст джерела國立聯合大學
資訊管理學系碩士班
105
With the rapid development of Internet of Things technology and the popularity of wearable equipment, mobile care will become the mainstream care way in the future. For integrating IoT technology and wearable devices into mobile medical care to improve the efficiency and quality of future care environments, this study proposes an integrated system based on wearable devices those are extensible to construct an IoT of medical care. This system collects and monitors the patient's physiological signals through sensors within wearable devices. In addition to find out the patient's abnormal physiological signals and then give patients warning earlier, this system integrate the patient's physiological information to make a long-term health observation. The proposed middleware can filter and integrate the physiological information from sensers, and then deliver the integrated physiological information to Cloud System according to the pre-designed packet format. In addition, the mapping of virtual and physical resources is carried out so that the system can independently identify the type of collected information. The sensor with a unique identification can sense physiologic signal and can be used by many patients repeatedly in different period. No matter what sensors a patient uses, the collected physiologic signal is belong to this patient. Simultaneously this system provide location tracking service to patients for ensuring patients’ safty in the hospital. Through the instant collection of physical information, patients can understand their immediate condition and then get relative care services. In the environment where extremely lacks medical care resources today, the quality of care can be improved by reducing the burden of care workers.
Thapa, Sanjit J. "Understanding security risks and users perception towards adopting wearable Internet of Medical Things." Thesis, 2021. http://hdl.handle.net/1959.7/uws:68265.
Повний текст джерелаLI, CHIH-HUANG, and 李志煌. "Application of Non-DICOM Medical Internet of Things Based on NFC in Outpatient Service." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/fzc9dh.
Повний текст джерела國立勤益科技大學
電機工程系
107
Medical devices with connectivity are more expensive, such as CT (Computerized Tomography), NMR(Nuclear Magnetic Resonance),and use DICOM (Digital Images-and Communication in Medicine standard)protocol for medical images transmission. The popularity of use is not high. There are many different equipment in the outpatient department, and the data format are different. This caused confusion for nurses and very inconvenient for the patient. We called non-DICOM equipment is no system integration and no communication. In order to improve such problems, this paper uses the NFC (Near Field Communication) to turn devices into IoT, and use the Smart210 to integrate medical equipment (including height, weight, sphygmomanometer) Reduce the time that nurses write cases.
(11037774), Shitij Tushar Avlani. "Design of Intelligent Internet of Things and Internet of Bodies Sensor Nodes." Thesis, 2021.
Знайти повний текст джерелаWU, TING-HAO, and 吳廷豪. "A Study of the Management System for the Medical Information Based on Internet of Things." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/97p3kv.
Повний текст джерела國立聯合大學
資訊管理學系碩士班
107
At present, social environment got the problem of aging of population in Taiwan. It caused more and more demand of medical resources. Besides, the issue of low birth rate has induced the shortage of working-age population year by year. These problems not only caused the deficiency of medical human resources in medical institution but also increased the working load of medical staffs. With the rapid development of mobile communications and wearable devices, the technology of Internet of Things has enabled many good applications in many domains, especially in the industry of medical care. Through the integration of the mobile wearable devices and the technology of Internet of Things, the working performance will be improved and further reduced the effect of insufficient medical human resources. Therefore, this thesis proposed a platform to integrate them and this platform could manage the medical information and medical resources well for promoting the working efficiency of medical staffs. Furthermore, it could reduce the working load of medical staffs. Through the implementation of this platform, it was found out that the platform is efficient and feasible.
Lin, Ke-Hong, and 林科宏. "A Study on the Critical Success Factors of Establishing Medical Paperless Operation of Internet of Things." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/6pya2u.
Повний текст джерела國立彰化師範大學
資訊管理學系
106
Thanks to the rapid development of technology and the Internet of Things (IoT), the number of medical devices that can output measure results through internet is increasing. With the assistance of these devices, nursing staff can reduce paperwork by a considerable amount. At the same time, it can also increase the accuracy of electronic forms, letting nurses focus more on the actual clinical work and reduce the risk of erroneous medical treatment This study was based on the analysis of relevant literature, and used the Delphi Technique research method to conduct an expert questionnaire. The purpose of this research is to discuss the critical success factors for the establishment of medical paperless operations using IoT. Through a three-time expert survey of Delphi Technique, we concluded that the critical factors were: "security factors", "organizational factors", "intrinsic environmental factors", and "system factors". There were altogether four constructs and ten subtopics. The results of this study can provide reference for the future development of the medical industry in paperless operations.
Hsu, Chih-Jen, and 許志仁. "Study on the Internet of Medical Things Application in Indoor Positioning System for Neonate in Obstetrics Ward." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/8c2423.
Повний текст джерела國立彰化師範大學
電機工程學系
107
The open ward design in most Taiwan hospitals allows people to freely move around inpatients’ space. Establishing an access control system is the general solution. However, the rooming-in practice in obstetrics wards while encouraging mothers to stay with their neonates increases the risks of stolen or mismatch. That is not preventable by any access control system. By the Internet of Things (IoT) technology and application, the Neonate Positioning System utilizing the indoor positioning techniques could be an effective solution. If a neonate shows up in the wrong place, the system will notify responsible parties to react immediately. This study sets up a neonate positioning system in a hospital obstetrics ward. The system includes the Bluetooth 4.0 Bluetooth Low Energy (BLE 4.0) ankle bracelet, the Raspberry Pi3 as a positioning gateway, an integrated server, and the monitoring software. The system applies Cell of Origin (COO) as the positioning technique. The gateway received signal strength indicator (RSSI) and indicates the actual location.
Huang, Min-Wei, and 黃敏偉. "The Assessment and Application of Internet of Things in Medical and Health Care Platform-A Case in Urban Area." Thesis, 2016. http://ndltd.ncl.edu.tw/handle/j387f3.
Повний текст джерела國立臺灣大學
資訊管理組
104
According to the statistical data from the Ministry of Health and Welfare, Taiwan, the ratio of people over the age of 65 continues to increase, from 9.1% of the total population in 2003 up to 12.69% of the total population in 2014. This not only indicates that Taiwan is facing toward to an aged society, but also that appropriate health care and policies need to be made for the elderly in the future. Indeed, aging has changed the concept of health, sub-health and disease towards a more proactive view, causing modern countries to face not only the disease burden, which will cause the complications or serious damages to the daily ability or self-care, but also the increasing cost of health care expenditure [2]. The world is adopting a proactive and positive attitude in the aging population and related health and disease-related issues. Active ageing and healthy ageing are the important concept we focused on the development of the modern society. The “Internet of Things”, referred to as IoT, is not only a network, but also an information exchange between devices. The communication devices combined with engineering and medical science and technology have made IoT more appreciable and reachable through the internet without boundaries. IoT also helps advance the healthy and medical industry. For example, IoT for the diagnosis instrument has the following advantages: 1.With remote monitoring and support systems, equipment testing and remote diagnostics can reduce equipment downtime. 2. High efficiency usage and scheduling will be advantageous for patients. Of course, the exchange of data and information to health care is important. The IoT not only provides big data analytics, but also individual personal data gathered from medical devices and cloud database sharing. The healthy and medical care industry, like another industry, is now possible through the use of better cross-industry commonality of technology. With the ratio of people over the age of 65 in Taiwan will reach 14 percent, the Ministry of Health and Welfare also launched the future implementation of mental and physical disability, long-term care for the elderly people, community-based, home-style long-term care services. Therefore, how to establish long-term care information systems, and establish a networking concept of long-term care will be the perfect solution and integration platform to improve the quality of care and efficiency of institutions in the future. This thesis is to explore the concept of IoT in healthy and medical care industry and to integrate the expertise, network engineering and technical analysis and other indicators. With the application of management knowledge, we hope to construct the roadmap for analysis and evaluation of the IoT in the healthy and medical care industry. Keywords: Internet of Things (IoT), Medical care, Health care
Tiwari, Nikhil. "Integrated wireless sensor system for efficient pre-fall detection." Thesis, 2015. http://hdl.handle.net/1805/7931.
Повний текст джерелаThe life expectancy of humans in today's era have increased to a very large extent due to the advancement of medical science and technology. The research in medical science has largely been focused towards developing methods and medicines to cure a patient after a diagnosis of an ailment. It is crucial to maintain the quality of life and health of the patient. It is of most importance to provide a healthy life to the elderly as this particular demographic is the most severely affected by health issues, which make them vulnerable to accidents, thus lowering their independence and quality of life. Due to the old age, most of the people become weak and inefficient in carrying their weight, this increases the probability of falling when moving around. This research of iterative nature focuses on developing a device which works as a preventive measure to reduce the damage due to a fall. The research critically evaluates the best approach for the design of the Pre-Fall detection system. In this work, we develop two wearable Pre-Fall detection system with reduced hardware and practical design. One which provides the capability of logging the data on an SD card in CSV format so that the data can be analyzed, and second, capability to connect to the Internet through Wifi. In this work, data from multiple accelerometers attached at different locations of the body are analyzed in Matlab to find the optimum number of sensors and the best suitable position on the body that gives the optimum result. In this work, a strict set of considerations are followed to develop a flexible, practical and robust prototype which can be augmented with different sensors without changing the fundamental design in order to further advance the research. The performance of the system to distinguish between fall and non-fall is improved by selecting and developing the most suitable way of calculating the body orientation. The different ways of calculating the orientation of the body are scrutinized and realized to compare the performance using the hardware. To reduce the number of false positives, the system considers the magnitude and the orientation to make a decision.
Цяпута, Марія Василівна, та Mariya Cyaputa. "Розумна лікарня на основі Інтернету речей". Bachelor's thesis, 2021. http://elartu.tntu.edu.ua/handle/lib/35805.
Повний текст джерелаThis paper proposes the architecture and scheme of a smart hospital based on the Internet of Things (IoT), in order to overcome the shortcomings of the existing hospital information system. The basic technologies and construction of a smart hospital are presented on the basis of understanding the essence and architecture of a smart hospital. In addition, the scheme of a smart hospital is given, as well as its logical structure, program structure, construction of a basic network environment, etc. are described in detail. Deployment of an intelligent hospital can effectively solve important problems of diagnosis and treatment of the hospital, and this brings a positive and profound effect to the current mode of diagnosis and treatment in the hospital.
Вступ 1 Розумна лікарня на основі інтернет речей 1.1 Ключові технології ІоТ 1.1.1 Інтернет-технології 1.1.2 Технологія RFID 1.1.3 Мережа сенсорів 1.1.4 Бездротова комунікація 1.2 Розумна лікарня 1.3 Архітектура розумної лікарні 1.3.1 Рівень сприйняття 1.3.2 Мережевий рівень 1.3.3 Рівень додатків 1.4 Побудова розумної лікарні 1.4.1 Компіляція інформації, специфікації і стандарту 1.4.2 Створення об'єднаної мережевої допоміжної платформи 1.4.3 Створення спільних даних 1.4.4 Створення інтегрованого інформаційного порталу 1.4.5 Створення вбудованого мобільного медичного запису 1.5 Схема застосування розумної лікарні 1.5.1 Логічна структура 1.5.2 Структура додатків 1.5.3 Мережеве підтримувальне середовище 2 Система моніторингу стану здоров'я пацієнтів за допомогою ІоТ 2.1 Загальна характеристика системи 2.2 Існуючі системи 2.3 Архітектура запропонованої системи 3 Безпека життєдіяльності, основи хорони праці 3.1 Вплив факторів трудового середовища на здоров’я та працездатність розробника програм 3.2 Вплив електромагнітного імпульсу (ЕМІ) на роботу комп’ютерної мережі 3.3 Здоровий спосіб життя користувача та його вплив на професійну діяльність Висновки Список використаних джерел