Relevant bibliographies by topics / E-health monitoring system

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'E-health monitoring system'

Author: Grafiati
Published: 5 June 2025
Last updated: 8 July 2025

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Journal articles on the topic "E-health monitoring system"

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Amin Refat, Md Rakinul, Palvinderjit Kaur, and Sathia Priya Ramiah. "E-Healthcare-Personalized Health Monitoring System." International Journal of Current Research and Review 12, no. 21 (2020): 150–54. http://dx.doi.org/10.31782/ijcrr.2020.122123.

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Basavaraj, Shrishail, Nellur Guruprasad, and Koli Shivaji. "E-Health Monitoring System Using NodeMCU." Advancement of Computer Technology and its Applications 6, no. 2 (2023): 27–31. https://doi.org/10.5281/zenodo.7769082.

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<em>Internet of Things (IoT) is used to communicate two or more object or devices over the internet without interaction of the human. In the present days the IoT is becoming more and more popular because of its wide variety of uses in different domains such as home automation, smart city monitoring, Transport and logistics, Smart Environment, Health Care, Smart Agriculture, Medical field, Energy Management, Retails, Marketing field etc. In this paper focus is made on Health care Domain. Health Monitoring using Node-Micontroller-Unit(MCU) is proposed to check the patient health condition dynamically without visiting the hospital. In proposed work many smart devices are used to collect the heart rate, body temperature, sugar level. from the human body. If any variance above or below normal threshold is found in human body such as heart rate, temperature and sugar level then this system will send a sms to his/her family doctor/hospital, it also shares the current location of the person as it is very useful for them to track the patient.</em>
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Chandrasekaran, R., Syed Uzma Farheen, R. J.Hemalatha, Bincy Babu, Josephin Arockiya Dhivya, and T. R Thamizhvani. "IOT based e – health care system." International Journal of Engineering & Technology 7, no. 2.25 (2018): 43. http://dx.doi.org/10.14419/ijet.v7i2.25.12366.

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One of the most important technological evolutions of our time is CLOUD COMPUTING, which describes the web computing power to store and process the information. The evolution and advancements are swiftly increasing in remote monitoring and Telemedicine. This paper aims at transmitting the physiological parameters of the subject to the private cloud called Thing Speak, an IOT based Sensor monitoring system. The physiological parameters are sent to the cloud via ESP8266 (IOT device). The cloud computing helps the physician to be connected with the patient’s data and it is helpful in monitoring the patients at any time through internet.
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Saleem, Muhammad Imran, Abdul Moid Khan, Shaheena Noor, and Muhammad Aamir. "Framework for Smart E-health Monitoring System." Indian Journal of Science and Technology 10, no. 29 (2017): 1–5. http://dx.doi.org/10.17485/ijst/2017/v10i29/117323.

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Puttaswamy, Prasanna. "Software Application for E-Health Monitoring System." IOSR Journal of Electronics and Communication Engineering 7, no. 2 (2013): 46–50. http://dx.doi.org/10.9790/2834-0724650.

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R, Bhoopathy. "E-Healthcare Monitoring System Using ML." International Journal for Research in Applied Science and Engineering Technology 13, no. 5 (2025): 2241–47. https://doi.org/10.22214/ijraset.2025.70643.

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The challenge lies with accessibility to accurate health information and personalized health advice, which are correspondingly bedeviled by generic information and limited access in remote localities. This leads to massive occurrences of self-diagnosis, misdiagnosis, improper self-care, and bad health results. The proposed solution to the problem is the design and implementation of an "E-Health Care Monitoring System," where individuals will enter their symptoms and receive detailed information on suspected diseases, together with descriptions, precautions, medication suggestions, workout plans, and diet recommendations. Users would thus be empowered to make health decisions, sense an order of being healthy, and submit to improved health outcomes. The system will also be developed to ease access through a user-friendly interface and multilingual support to truly make it inclusive. Further, integration with wearable and health-tracking instruments will allow real-time monitoring and give personalized recommendations. Data analytics would be used along with machine learning to further the continuous improvement of the accuracy and relevance of health insights.
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Mshali, Haider, Tayeb Lemlouma, and Damien Magoni. "Adaptive monitoring system for e-health smart homes." Pervasive and Mobile Computing 43 (January 2018): 1–19. http://dx.doi.org/10.1016/j.pmcj.2017.11.001.

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C.G., Prof Thorat, Salve V.R., Thorat P.P., Taru K.R., and Hindole S.S. "Patient Health Management System using E-Health Monitoring Architecture using WSN." IJARCCE 6, no. 3 (2017): 783–84. http://dx.doi.org/10.17148/ijarcce.2017.63184.

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Chourasia, Vijay S., and Anil Kumar Tiwari. "Implementation of foetal e-health monitoring system through biotelemetry." International Journal of Electronic Healthcare 7, no. 1 (2012): 36. http://dx.doi.org/10.1504/ijeh.2012.048668.

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Kanrar, Soumen, and Prasenjit Kumar Mandal. "E-health monitoring system enhancement with Gaussian mixture model." Multimedia Tools and Applications 76, no. 8 (2016): 10801–23. http://dx.doi.org/10.1007/s11042-016-3509-9.

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Dissertations / Theses on the topic "E-health monitoring system"

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Akcay, Bugrahan. "An Agent-based Alert Distribution System For Intelligent Healthcare Monitoring." Master's thesis, METU, 2006. http://etd.lib.metu.edu.tr/upload/2/12607257/index.pdf.

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With the high-level developments in the information technologies, there is a big movement in the e-health area both to give better healthcare services and to reduce cost. Monitoring the patients from their home location is one of the important branches of e-health with the aging societies. In this work, an agentbased alert system is introduced which analyzes the alert message requests and sends the alert messages within the appropriate structure and communication channel to the related healthcare user. A guideline execution system produces the alert requests based on sensor data and informs the alert agents. A multi-agent platform is developed which proactively sends the alert messages on behalf of the system with acknowledgement and message routing abilities. The multi-agent platform has patient alert agents for each patient in the system. A rule engine is cooperated with agents for the analysis of the alert message requests to bind these requests with the healthcare user specifications. E-mail messaging, SMS and MSN Instant messaging are used to reach the healthcare users. Additionally, web-based user interfaces are developed for healthcare users to manage the alert system for intelligent healthcare monitoring by specifying alert message receiving rules, personal and contact information, and some more additional options. The work presented in this thesis is realized as a part of the SAPHIRE project funded by the European Commission.
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Celik, Numan. "Wireless graphene-based electrocardiogram (ECG) sensor including multiple physiological measurement system." Thesis, Brunel University, 2017. http://bura.brunel.ac.uk/handle/2438/15698.

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In this thesis, a novel graphene (GN) based electrocardiogram (ECG) sensor is designed, constructed and tested to validate the concept of coating GN, which is a highly electrically conductive material, on Ag substrates of conventional electrodes. The background theory, design, experiments and results for the proposed GN-based ECG sensor are also presented. Due to the attractive electrical and physical characteristics of graphene, a new ECG sensor was investigated by coating GN onto itself. The main focus of this project was to examine the effect of GN on ECG monitoring and to compare its performance with conventional methods. A thorough investigation into GN synthesis on Ag substrate was conducted, which was accompanied by extensive simulation and experimentation. A GN-enabled ECG electrode was characterised by Raman spectroscopy, scanning electron microscopy along with electrical resistivity and conductivity measurements. The results obtained from the GN characteristic experimentation on Raman spectroscopy, detected a 2D peak in the GN-coated electrode, which was not observed with the conventional Ag/AgCl electrode. SEM characterisation also revealed that a GN coating smooths the surface of the electrode and hence, improves the skin-to-electrode contact. Furthermore, a comparison regarding the electrical conductivity calculation was made between the proposed GN-coated electrodes and conventional Ag/AgCl ones. The resistance values obtained were 212.4 Ω and 28.3 Ω for bare and GN-coated electrodes, respectively. That indicates that the electrical conductivity of GN-based electrodes is superior and hence, it is concluded that skin-electrode contact impedance can be lowered by their usage. Additional COMSOL simulation was carried out to observe the effect of an electrical field and surface charge density using GN-coated and conventional Ag/AgCl electrodes on a simplified human skin model. The results demonstrated the effectiveness of the addition of electrical field and surface charge capabilities and hence, coating GN on Ag substrates was validated through this simulation. This novel ECG electrode was tested with various types of electrodes on ten different subjects in order to analyse the obtained ECG signals. The experimental results clearly showed that the proposed GN-based electrode exhibits the best performance in terms of ECG signal quality, detection of critical waves of ECG morphology (P-wave, QRS complex and T-wave), signal-to-noise ratio (SNR) with 27.0 dB and skin-electrode contact impedance (65.82 kΩ at 20 Hz) when compared to those obtained by conventional a Ag/AgCl electrode. Moreover, this proposed GN-based ECG sensor was integrated with core body temperature (CBT) sensor in an ear-based device, which was designed and printed using 3D technology. Subsequently, a finger clipped photoplethysmography (PPG) sensor was integrated with the two-sensors in an Arduino based data acquisition system, which was placed on the subject's arm to enable a wearable multiple physiological measurement system. The physiological information of ECG and CBT was obtained from the ear of the subject, whilst the PPG signal was acquired from the finger. Furthermore, this multiple physiological signal was wirelessly transmitted to the smartphone to achieve continuous and real-time monitoring of physiological signals (ECG, CBT and PPG) on a dedicated app developed using the Java programming language. The proposed system has plenty of room for performance improvement and future development will make it adaptabadaptable, hence being more convenient for the users to implement other applications than at present.
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Stevens, Timothy. "Rehab Tracker: Framework for Monitoring and Enhancing NMES Patient Compliance." ScholarWorks @ UVM, 2019. https://scholarworks.uvm.edu/graddis/1001.

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We describe the development of a cyber-physical system (Rehab Tracker) for improving patient compliance with at-home physical rehabilitation using neuromuscular electrical stimulation (NMES) therapy. Rehab Tracker consists of three components: 1) hardware modifications to sense and store use data from an FDA-approved NMES therapy device and provide Bluetooth communication capability, 2) an iOS-based smartphone/tablet application to receive and transmit NMES use data and serve as a conduit for patient-provider interactions and 3) a back-end server platform to receive device use data, display compliance data for provider review and provide automated positive and remedial push notifications to patients to improve compliance. This system allows for near real-time compliance monitoring via a secure web portal and offers a novel conduit for patient-provider communication during at-home rehabilitation to improve compliance. The system was tested in patients (n=5) who suffered anterior cruciate ligament rupture and surgical repair to provide proof-of-principal evidence for system functionality and an initial assessment of system usability. The system functioned as designed, recording 89% of rehabilitation sessions. Thus, Rehab Tracker is a functionally correct system with the potential to be used as a tool for studying NMES and mobile communication methodologies at scale and improving compliance with at-home rehabilitation programs.
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Alyami, Awad Ali. "Smart e-health system for real-time tracking and monitoring of patients, staff and assets for healthcare decision support in Saudi Arabia." Thesis, Staffordshire University, 2018. http://eprints.staffs.ac.uk/4728/.

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Healthcare in Saudi Arabia has been lagging behind the developed countries of the world, due to the insufficient number of healthcare practitioners and the lack of applications of tracking and monitoring technology. These shortages have contributed to problems such as patient misidentification, long patient waiting times, and the inability to locate medical equipment efficiently. The country’s Vision 2030 plan outlines ways to solve the deficient workforce problem by promoting more local health-related educational outlets, and by funding this expanding sector. Consequently, Saudi Arabia needs to adapt to the demanding nature of modern healthcare, which presents major problems that this research aims to help solve. The literature has shown that Information Technology systems have begun to be implemented in some hospitals across Saudi Arabia, but even in those hospitals these technologies are being under-utilised. The intention of this thesis is to provide an appropriate choice for a real-time tracking and monitoring technology in healthcare, in the form of an integrated RFID/ZigBee system. This thesis develops a holistic framework for healthcare institutions, to be followed for customised solutions in improving staff efficiency and productivity, and for better patient care, while minimising long-term costs. This holistic framework incorporates contextual elements from both the Information System Strategy Triangle (ISST) and the Human, Organisation and Technology-fit factors (HOT-fit) frameworks, in a way that ensures the new framework addresses technology, organisational, human and business factors. The holistic model is refined through Communities of Practice (CoPs), one of which was developed and utilised for the research purposes of this thesis, and assisted in the creation of a questionnaire for assessing the requirements and challenges of the KSA healthcare system. This questionnaire was based on 220 usable responses. It also helped to refine the framework for its final version, which included all identified factors relevant to the decision a healthcare institution faces in choosing a health information technology system. Various cases were analysed to improve the hospitals workflow, using the proposed technology and including processes such as relocating staff and medical assets. This led to the need for visualisation and knowledge management, to support real-time data analysis for business intelligence decision making. The end goal of this analysis is to provide interactive platforms to healthcare staff for use in improving efficiency and productivity. The outcomes of these improvements will be to ensure better patient care, lower patient waiting time, reduced healthcare costs, and to allow more time for staff to provide improved patient-centric care in the Saudi healthcare sector.
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Mazzucato, Monica. "Criticità e prospettive nella programmazione dei servizi e degli interventi a favore delle persone con malattia rara." Doctoral thesis, Università degli studi di Padova, 2008. http://hdl.handle.net/11577/3425529.

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Rare disorders are a numerous group of pathologies, characterized by extreme heterogeneity and at the same time sharing some common characteristics, involving nearly all the ages and all the etiologies. Furthermore, rare disorders often represent chronic conditions; as regards natural history, they are characterized by adverse outcomes, in terms of disability and quality of life and in many cases lead to a long terminal illness phase. Rare disorders don't represent a defined nosological group; an exact list of these disorders shared by the majority doesn't exist, as it strictly depends on the context we refer to (geographical, legislative, epidemiological, etc.). Many countries have adopted definitions based on prevalence criteria, but the cut-off limits used to define as rare a disorder affecting the population are different. For all these reasons rare disorders represent a very complex topic from the health planning point of view of. Three main priority areas can be identified: - the planning of services/interventions and the related process of resources' allocation; - the creation of monitoring systems, allowing the collection of useful information; - the relationship existing between the clinical activities and research activities. As an example of planning strategies implemented in the first area, the process of selection of Reference Centers for rare disorders in the Veneto Region and in a Wide-Area context is presented. For what concerns the second area, due to rare disorders' extreme variability and cross-sectional age distribution, it is extremely difficult to calculate or just estimate their whole impact on the population's health. Therefore, very little can be said about the effects that new knowledge advances and research progress in this field can have at a wide population level. To tackle these questions, it is necessary to have an area wide enough to be completely monitored for all rare disorders, which is very difficult to be pursued. The Registries focused on a specific disease, or on a group of diseases, despite their importance in improving the knowledge on specific disorders, are of limited usefulness from a health care planning point of view. To properly determine the impact of the complex phenomenon "rare disorders" at a population level, area-based surveillance systems are needed, monitoring not the single conditions but the whole group of rare disorders. In enforcing the rare disorders' national law, issued in 2001, specific health policies and integrated planning strategies were developed by the Veneto Region. Since 2002 a unique computerized monitoring system allowing diagnosis recording, exemption leading to benefits - entitlement and cases - enrollment in the Register was implemented. This system connects all the identified centers of excellence, all the health districts and the local pharmaceutical services. The patient enters the surveillance system after a specific diagnosis of rare disease has been made, which is followed by the exemption issued by the local health districts. More than 12,000 patients are now enrolled in the Register. The information collected by the Register is useful for epidemiological studies, but can be also the starting point for the implementation of services for the patients. The example of the supply of diet products free of charge for metabolic patients is presented. Patients with rare disorders are burdened by extremely complex health care histories. The lack of case notification systems and the common non univocal correspondence between rare disease entity and disease code reported in the International Classification of Diseases (ICD), commonly used in current data flows, allow only estimate of affected patients. At the same time the patient's clinical history collected by the Register can be enriched with the information coming from other current data flows. Another part of the thesis focuses on the identification of rare disorders' patients and their history of hospitalisations using Hospital Discharge Records. From a health planning point of view the interactions between the three areas of interventions above mentioned need to be further studied in order to identify which tools can be used to achieve a better integration. These tools essentially belong to two dimensions: culture, which results from the combination of knowledge and attitudes, and information. For the first topic, the experience of the definition of therapeutic protocols for patients affected by neurological rare diseases is described. This agreement process implies the shift from the activity of collecting information to the elaboration of consensus guidelines, improving clinical practice standardization and progressively increasing the quality of the interventions. As regards information, this represents a very crucial issue speaking of rare disorders, since they are characterized by paucity of available sources. The patients seek information both on topics related to the disease itself as well as information on which are the laboratories performing diagnoses or the centres with the best clinical expertise. Furthermore, lack of information characterizes also the knowledge of legislative aspects, especially the ones potentially leading to benefits entitlement. Two concrete applications, aiming at improving the spreading of information, reducing the existing gap in this field are presented: the web-site and the help-line of the Veneto Region Register for Rare Disorders. Finally, the application of translational research in the field of rare disorders is discussed. Translational research refers to translating research into practice. It aims at ensuring that new treatments, devices, and research knowledge reach the patients for whom they are developed. In the context of health planning, a translational approach can be applied when population-based interventions and practice-based research bring the results of the first kind of research to the public. In the field of rare disorders both the translational approaches have to be implemented. Rare disorders' patients could benefit not only from translation of biotechnological and novel therapies, but also from interventions aimed at improving access, reorganizing and properly coordinating systems of care.
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SORIANI, NAZZARENO. "SVILUPPO DI STRUMENTI PER LA VALUTAZIONE E MIGLIORAMENTO DEL WELFARE NELLE AZIENDE DI BOVINE DA LATTE." Doctoral thesis, Università Cattolica del Sacro Cuore, 2013. http://hdl.handle.net/10280/1744.

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Il benessere degli animali è uno dei temi più discussi temi delle scienze animali. Molti ricercatori hanno provato a darne una definizione e a sviluppare strumenti utili alla sua valutazione negli allevamenti di vacche da latte. Nel presente lavoro viene discussa la possibilità di valutare il benessere degli animali, attraverso sistemi di innovazione da diversi punti di vista: scientifico, economico e zootecnico. Quattro differenti ricerche sono state sviluppate per confrontare i risultati sulla valutazione del benessere degli animali negli allevamenti da latte ottenuti con: indici fisiologici, modello SDIB e un sistema di monitoraggio della ruminazione.<br>Animal welfare is one of the most discussed topic in the animal science. Many researchers have been proving to define animal welfare and to develop tools useful to assess its levels in dairy farms. In the present issue it is discussed with different point of view (scientific, economical and zootechnic) the opportunity to assess the animal welfare through innovations system. Our different research was develop to compare the results about animal welfare in dairy herds obtained by physiological indices as well as blood variables, a model for animal welfare assessment as well as IDSW model, a rumination monitoring system.
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SORIANI, NAZZARENO. "SVILUPPO DI STRUMENTI PER LA VALUTAZIONE E MIGLIORAMENTO DEL WELFARE NELLE AZIENDE DI BOVINE DA LATTE." Doctoral thesis, Università Cattolica del Sacro Cuore, 2013. http://hdl.handle.net/10280/1744.

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Il benessere degli animali è uno dei temi più discussi temi delle scienze animali. Molti ricercatori hanno provato a darne una definizione e a sviluppare strumenti utili alla sua valutazione negli allevamenti di vacche da latte. Nel presente lavoro viene discussa la possibilità di valutare il benessere degli animali, attraverso sistemi di innovazione da diversi punti di vista: scientifico, economico e zootecnico. Quattro differenti ricerche sono state sviluppate per confrontare i risultati sulla valutazione del benessere degli animali negli allevamenti da latte ottenuti con: indici fisiologici, modello SDIB e un sistema di monitoraggio della ruminazione.<br>Animal welfare is one of the most discussed topic in the animal science. Many researchers have been proving to define animal welfare and to develop tools useful to assess its levels in dairy farms. In the present issue it is discussed with different point of view (scientific, economical and zootechnic) the opportunity to assess the animal welfare through innovations system. Our different research was develop to compare the results about animal welfare in dairy herds obtained by physiological indices as well as blood variables, a model for animal welfare assessment as well as IDSW model, a rumination monitoring system.
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Avina, Bravo Eli Gabriel. "Conception, développement et validation d'un système intelligent de mesure physiologique et biomécanique embarqué : Vélo à assistance électrique avec IA pour les interventions thérapeutiques et la prévention santé." Electronic Thesis or Diss., Université de Toulouse (2023-....), 2024. http://www.theses.fr/2024TLSEI003.

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Selon les projections de l'Organisation mondiale de la santé (OMS), il est estimé qu'en 2050, plus de 22 % de la population mondiale aura 60 ans ou plus. Cette évolution démographique s'accompagne d'une prévalence croissante des maladies chroniques. En France, une personne sur quatre souffre actuellement d'une maladie chronique, un chiffre qui atteint trois personnes sur quatre chez les personnes âgées de 65 ans et plus. Ces maladies contribuent de manière significative à la mortalité, représentant 74 % du nombre total de décès en 2019. Heureusement, bon nombre de ces affections peuvent être prévenues ou retardées en suivant les recommandations d'activité physique de l'OMS. De nombreuses études ont démontré l'impact profond de l'activité physique sur la prolongation de l'espérance de vie et l'amélioration de la qualité de vie de la population. Dans cette optique, les objectifs de recherche de cette étude s'inscrivent dans le domaine de la Gestion de la santé prédictive (PHM) et de la prescription du sport, en mettant l'accent sur le parcours de soins des patients atteints de maladies chroniques. Cependant, la modalité précise du contrôle, en particulier le mécanisme de rétroaction concernant le comportement des individus pendant l'activité physique, reste à déterminer. Pour relever ce défi, le projet propose la mise en place d'un dispositif médical connecté, spécifiquement un vélo à assistance électrique intégré à une intelligence artificielle embarquée. Cette combinaison vise à recueillir des données et à contribuer à la prévention des pathologies chroniques chez les individus. L'effort scientifique principal consiste à concevoir et intégrer une architecture matérielle et logicielle innovante et adaptable, en incorporant des capteurs de pointe utilisant une technologie flexible. Ce cadre permet la surveillance à la fois des cyclistes occasionnels et expérimentés pendant leur pratique, en permettant un contrôle intelligent du niveau d'assistance électrique et la mise en œuvre d'instructions médicales basées sur des évaluations médicales préalables<br>According to projections by the World Health Organization (WHO), it is estimated that by 2050, more than 22% of the global population will be aged 60 years or older. This demographic shift is accompanied by a growing prevalence of chronic diseases. In France, one in four individuals currently suffers from a chronic condition, a proportion that rises to three out of four among those aged 65 and above. These diseases significantly contribute to mortality, accounting for 74% of total deaths in 2019. Fortunately, many of these conditions can be prevented or delayed by adhering to the physical activity recommendations provided by the WHO. Extensive research has demonstrated the profound impact of physical activity on prolonging lifespan and enhancing overall quality of life across populations. With this perspective in mind, the research objectives of this study lie within the realm of Prognosis Health Management (PHM) and prescription sports, with a specific emphasis on the healthcare trajectory of patients with chronic conditions. However, the precise methodology for control, particularly the feedback mechanism pertaining to individuals' behavior during physical activity, remains to be delineated. To tackle this challenge, the project proposes the implementation of a connected medical device, specifically an electric-assisted bicycle integrated with embedded artificial intelligence. This combination aims to collect data and contribute to the prevention of chronic pathologies for individuals. The primary scientific endeavor entails designing and integrating an innovative and adaptable hardware and software architecture, incorporating state-of-the-art sensors that utilize flexible technology. This framework facilitates the monitoring of both occasional and experienced cyclists during their practice, enabling intelligent control of the level of electrical assistance and the implementation of medical instructions based on prior medical assessments
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Tannous, Halim Elie. "Interactive and connected rehabilitation systems for e-health." Thesis, Compiègne, 2018. http://www.theses.fr/2018COMP2436/document.

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La rééducation fonctionnelle classique comprend des séances thérapeutiques, des exercices à domicile et des mouvements avec ou sans l'aide de thérapeutes. Cette approche classique souffre de nombreuses limitations, en raison de l’incapacité de l’expert à suivre les séances à domicile du patient et du manque de motivation du patient pour répéter les exercices sans retour. Les jeux sérieux ont été présentés comme une solution à ces problèmes. Premièrement, des exergames ont été développés à l’aide d’une méthodologie de codesign, où patients, experts et développeurs ont pris part aux procédures de conception. Le capteur Kinect a été utilisé pour capturer la cinématique en temps réel au cours de l’exercice. Ensuite, une fusion de données a été étudier entre le capteur Kinect et les unités de mesure inertielles, afin d’augmenter la précision de l’estimation de l’angle des articulations, à l’aide d’une approche système de systèmes. Le système a été évalué par des patients avec différentes pathologies au cours de multiples campagnes d'évaluation. Les résultats obtenus montrent que les jeux sérieux peuvent être une solution pour des pathologies spécifiques. En outre, les experts ont été convaincus de la pertinence clinique de ce dispositif et ont estimé que les données proposées étaient suffisantes pour évaluer la situation du patient. La mise en place de tels systèmes maximiserait l’efficacité du programme de réadaptation. D'autre part, ce système permettrait également de réduire les limitations actuellement présentes dans les programmes de rééducation classiques, permettant aux patients de visualiser leurs mouvements et aux experts de suivre l'exécution de l'exercice à domicile<br>Conventional musculoskeletal rehabilitation consists of therapeutic sessions, home exercise assignment, and movement execution with or without the assistance of therapists. This classical approach suffers from many limitations, due to the expert’s inability to follow the patient’s home sessions, and the patient’s lack of motivation to repeat the same exercises without feedback. Serious games have been presented as a possible solution for these problems. This thesis was carried out in the eBioMed experimental platform of the Université de technologie de Compiège, and in the framework of the Labex MS2T. The aim of this thesis is to develop a real-time, serious gaming system for home-based musculoskeletal rehabilitation. First, exergames were developed, using a codesign methodology, where the patients, experts and developers took part in the design and implementation procedures. The Kinect sensor was used to capture real-time kinematics during each exercise. Next, data fusion was implemented between the Kinect sensor and inertial measurement units, to increase the accuracy of joint angle estimation, using a system of systems approach. In addition, graphical user interfaces were developed, for experts and patients, to suit the needs of different end-users, based on the results of an end-user acceptability study. The system was evaluated by patients with different pathologies through multiple evaluation campaigns. Obtained results showed that serious games can be a good solution for specific types of pathologies. Moreover, experts were convinced of the clinical relevance of this device, and found that the estimated data was more than enough to assess the patient’s situation during their home-based exercise sessions. Finally, during these three years, we have set the base for a home-based rehabilitation system that can be deployed at home or in a clinical environment. The implementation of such systems would maximize the efficiency of rehabilitation program, while saving the patient’s and expert’s time and money. On the other hand, this system would also reduce the limitation that are currently present in classical rehabilitation programs, allowing the patients to visualize their movements, and the experts to follow the home exercise execution
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Saganich, Robert Lee. "An investigation of electronic Protected Health Information (e-PHI) privacy policy legislation in California for seniors using in-home health monitoring systems." Diss., NSUWorks, 2019. https://nsuworks.nova.edu/gscis_etd/1075.

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This study examined privacy legislation in California to identify those electronic Protected Health Information (e-PHI) privacy policies that are suited to seniors using in-home health monitoring systems. Personal freedom and independence are essential to a person's physical and mental health, and mobile technology applications provide a convenient and economical method for monitoring personal health. Many of these apps are written by third parties, however, which poses serious risks to patient privacy. Current federal regulations only cover applications and systems developed for use by covered entities and their business partners. As a result, the responsibility for protecting the privacy of the individual using health monitoring apps obtained from the open market falls squarely on the states. The goal of this study was to conduct an exploratory study of existing legislation to learn what was being done at the legislative level to protect the security and privacy of users using in-home mobile health monitoring systems. Specifically, those developed and maintained by organizations or individuals not classified as covered entities under the Health Insurance Portability and Accountability Act of 1996 (HIPAA). The researcher chose California due to its reputation for groundbreaking privacy laws and high population of seniors. The researcher conducted a content analysis of California state legislation, federal and industry best practices, and extant literature to identify current and proposed legislation regarding the protection of e-PHI data of those using in-home health monitoring systems. The results revealed that in-home health monitoring systems show promise, but they are not without risk. The use of smartphones, home networks, and downloadable apps puts patient privacy at risk, and combining systems that were not initially intended to function together carries additional concerns. Factors such as different privacy-protection profiles, opt-in/opt-out defaults, and privacy policies that are difficult to read or are not adhered to by the application also put user data at risk. While this examination showed that there is legislative support governing the development of the technology of individual components of the in-home health monitoring systems, it appears that the in-home health monitoring system as a whole is an immature technology and not in wide enough use to warrant legislative attention. In addition – unlike the challenges posed by the development and maintenance of the technology of in-home health monitoring systems – there is ample legislation to protect user privacy in mobile in-home health monitoring systems developed and maintained by those not classified as covered entities under HIPAA. Indeed, the volume of privacy law covering the individual components of the system is sufficient to ensure that the privacy of the system as a whole would not be compromised if deployed as suggested in this study. Furthermore, the legislation evaluated over the course of this study demonstrated consistent balance between technical, theoretical, and legal stakeholders. This study contributes to the body of knowledge in this area by conducting an in-depth review of current and proposed legislation in the state of California for the past five years. The results will help provide future direction for researchers and developers as they struggle to meet the current and future needs of patients using this technology as it matures. There are practical applications for this study as well. The seven themes identified during this study can serve as a valuable starting point for state legislators to evaluate existing and proposed legislation within the context of medical data to identify the need for legislation to assist in protecting user data against fraud, identity theft, and other damaging consequences that occur because of a data breach.
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Books on the topic "E-health monitoring system"

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Cruz-Cunha, Maria Manuela. Handbook of research on developments in e-health and telemedicine: Technological and social perspectives. Medical Information Science Reference, 2010.

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Ainsworth, Richard. Safe piped water: Managing microbial water quality in piped distribution systems. IWA Pub., 2004.

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Madhu, G., Sandeep Kautish, A. Govardhan, and Avinash Sharma, eds. Emerging Computational Approaches in Telehealth and Telemedicine: A Look at The Post-COVID-19 Landscape. BENTHAM SCIENCE PUBLISHERS, 2022. http://dx.doi.org/10.2174/97898150792721220101.

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This book gives an overview of innovative approaches in telehealth and telemedicine. The Goal of the content is to inform readers about recent computer applications in e-health, including Internet of Things (IoT) and Internet of Medical Things (IoMT) technology. The 9 chapters will guide readers to determine the urgency to intervene in specific medical cases, and to assess risk to healthcare workers. The focus on telehealth along with telemedicine, encompasses a broader spectrum of remote healthcare services for the reader to understand. Chapters cover the following topics: - A COVID-19 care system for virus precaution, prevention, and treatment - The Internet of Things (IoT) in Telemedicine, - Artificial Intelligence for Remote Patient Monitoring systems - Machine Learning in Telemedicine - Convolutional Neural Networks for the detection and prediction of melanoma in skin lesions - COVID-19 virus contact tracing via mobile apps - IoT and Cloud convergence in healthcare - Lung cancer classification and detection using deep learning - Telemedicine in India This book will assist students, academics, and medical professionals in learning about cutting-edge telemedicine technologies. It will also inform beginner researchers in medicine about upcoming trends, problems, and future research paths in telehealth and telemedicine for infectious disease control and cancer diagnosis.
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Orientación estratégica para enfermería en la Región de las Américas. Organización Panamericana de la Salud, 2019. http://dx.doi.org/10.37774/9789275320723.

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[Resumen Ejecutivo]. Este documento presenta orientaciones estratégicas para el avance y el fortalecimiento de la enfermería en los sistemas y servicios de salud de acuerdo con las siguientes líneas de acción: 1. Fortalecer y consolidar el liderazgo y la gestión estratégica de la enfermería en el contexto de los sistemas de salud y en la formulación y monitoreo de políticas. 2. Abordar las condiciones de trabajo y las capacidades de los enfermeros y enfermeras para expandir el acceso y la cobertura con equidad y calidad, a fin de promover un modelo de atención centrado en las personas, la familia y las comunidades y el fortalecimiento tanto del primer nivel de atención como de las redes integradas de servicios de salud. 3. Fortalecer la calidad de la educación en enfermería para responder las necesidades de los sistemas de salud orientados al acceso universal a la salud y la cobertura universal de salud y los ODS. [Resumo Executivo]. Este documento apresenta orientações estratégicas para o avanço e fortalecimento da enfermagem nos sistemas e serviços de saúde, de acordo com as seguintes linhas de ação: 1. Fortalecer e consolidar a liderança e a gestão estratégica da enfermagem no contexto dos sistemas de saúde e na formulação e monitoramento de políticas. 2. Abordar as condições de trabalho e as capacidades dos profissionais de enfermagem de modo a ampliar o acesso e a cobertura com equidade e qualidade, a fim de promover um modelo de atenção centrado na pessoa, na família e na comunidade e fortalecer tanto o primeiro nível de atenção como as redes integradas de serviços de saúde. 3. Fortalecer a qualidade da educação em enfermagem para responder às necessidades dos sistemas de saúde voltados ao acesso universal à saúde, à cobertura universal de saúde e aos ODS. [Executive Summary[. This document provides strategic guidance for the advancement and strengthening of nursing in health systems and services, along the following lines of action: 1. Strengthening and consolidating leadership and strategic management of nursing in the context of health systems and in policy-making and monitoring. 2. Addressing the working conditions and capacities of nurses to expand access and coverage with equity and quality, in order to promote a people-, family-, and community-centered model of care and strengthen both the primary level of care and integrated health services networks. 3. Improving the quality of nursing education to respond to the needs of health systems focused on universal access to health, universal health coverage, and the SDGs.
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Book chapters on the topic "E-health monitoring system"

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Sivani, T., and Sushruta Mishra. "Wearable Devices: Evolution and Usage in Remote Patient Monitoring System." In Connected e-Health. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-97929-4_14.

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Ciorap, R., D. Andritoi, V. Pomazan, L. Petcu, F. Ungureanu, and D. Zaharia. "E-health System for Monitoring of Chronic Diseases." In IFMBE Proceedings. Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-03904-1_72.

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Keerthana, N., K. Lokeshwaran, P. S. Kavinkumar, T. Kaviyan, M. Manimaran, and S. Elango. "Fingerprint Integrated E-Health Monitoring System Using IoT." In Communications in Computer and Information Science. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-5048-2_12.

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Keikhosrokiani, Pantea, and Nor Saralyna Azwa Binti Kamaruddin. "IoT-Based In-Hospital-In-Home Heart Disease Remote Monitoring System with Machine Learning Features for Decision Making." In Connected e-Health. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-97929-4_16.

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Mourcou, Quentin, Anthony Fleury, Céline Franco, Bruno Diot, and Nicolas Vuillerme. "Smartphone-Based System for Sensorimotor Control Assessment, Monitoring, Improving and Training at Home." In Inclusive Smart Cities and e-Health. Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-19312-0_12.

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Sumathi, K., and P. Pandiaraja. "E-Health Care Patient Information Retrieval and Monitoring System Using SVM." In Smart Technologies in Data Science and Communication. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-6880-8_2.

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Kamruzzaman, Md, Nisha Sain, and Shamsul Alam. "Research on Securing and Transforming Healthcare System: IoT-Driven E-Health Monitoring Systems." In Proceedings of the International Conference on Computational Innovations and Emerging Trends (ICCIET 2024). Atlantis Press International BV, 2024. http://dx.doi.org/10.2991/978-94-6463-471-6_4.

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Gite, Shruti, and Mansi Subhedar. "Smart Apron Using Embroidered Textile Fractal Antenna for E-Health Monitoring System." In Lecture Notes in Electrical Engineering. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5558-9_83.

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Bhowmik, Tanima, Rohan Mojumder, Dibyendu Ghosh, and Indrajit Banerjee. "Efficient Scheduling Algorithm Based on Duty-Cycle for e-Health Monitoring System." In Computational Intelligence in Pattern Recognition. Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3089-8_21.

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Karki, Praynita. "Enhancing Fault Tolerance Level in E-Health Monitoring System Using Proactive Approach." In Lecture Notes in Networks and Systems. Springer Nature Switzerland, 2025. https://doi.org/10.1007/978-3-031-78946-5_17.

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Conference papers on the topic "E-health monitoring system"

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Adochiei, Felix-Constantin, David-Andrei Dumitrescu, George Calin Seritan, Florin Ciprian Argatu, Bogdan-Adrian Enache, and Ioana Raluca Adochiei. "IoT-Based Real-Time Electrocardiogram Monitoring and Recording System." In 2024 E-Health and Bioengineering Conference (EHB). IEEE, 2024. https://doi.org/10.1109/ehb64556.2024.10805722.

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De Carlo, Domenico, Filippo Laganà, Danilo Pratticò, and Salvatore A. Pullano. "Development of an Integrated System for Remote Monitoring of Circuit Integrity in Biomedical Devices." In 2024 E-Health and Bioengineering Conference (EHB). IEEE, 2024. https://doi.org/10.1109/ehb64556.2024.10805740.

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Venkataramanaiah, B., Sravan Kumar Chittimalla, V. Raveendra Reddy, et al. "An IoT Cloud Based Health Monitoring System for Remote Area Using Node MCU: E Health Checker." In 2025 3rd International Conference on Intelligent Data Communication Technologies and Internet of Things (IDCIoT). IEEE, 2025. https://doi.org/10.1109/idciot64235.2025.10914828.

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Kotevski, Aleksandar, Natasa Koceska, and Saso Koceski. "E-health monitoring system." In International conference on Applied Internet and Information Technologies. University "St. Kliment Ohridski" Bitola, Macedonia, 2016. http://dx.doi.org/10.20544/aiit2016.32.

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Mukherjee, Srijani, Koustabh Dolui, and Soumya Kanti Datta. "Patient health management system using e-health monitoring architecture." In 2014 IEEE International Advance Computing Conference (IACC). IEEE, 2014. http://dx.doi.org/10.1109/iadcc.2014.6779357.

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Baswa, Madhuri, R. Karthik, P. B. Natarajan, K. Jyothi, and B. Annapurna. "Patient health management system using e-health monitoring architecture." In 2017 International Conference on Intelligent Sustainable Systems (ICISS). IEEE, 2017. http://dx.doi.org/10.1109/iss1.2017.8389356.

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Ibhaze, Augustus E., Ezimah C. Eleanor, and Francis E. Idachaba. "E-health monitoring system for the aged." In 2016 IEEE International Conference on Emerging Technologies and Innovative Business Practices for the Transformation of Societies (EmergiTech). IEEE, 2016. http://dx.doi.org/10.1109/emergitech.2016.7737355.

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Ijaz, Dr Umer, Usama Ameer, Hassan Tarar, Abrar Ilyas, and Abubakar Ijaz. "E-health acquistion, transmission & monitoring system." In 2017 2nd Workshop on Recent Trends in Telecommunications Research (RTTR). IEEE, 2017. http://dx.doi.org/10.1109/rttr.2017.7887868.

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Lakshmi, K. Manasa, K. Michael Angelo, S. Naga Lakshmi, and P. Ramu. "Smart approach for e-health monitoring system." In INTERNATIONAL CONFERENCE ON EMERGING TECHNOLOGIES IN ENGINEERING AND SCIENCE: ICETES2023. AIP Publishing, 2025. https://doi.org/10.1063/5.0249448.

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Nadiger, Deepak Kumar S., J. Dhanush, R. Vikas, Santhosh Krishna B V, Atithkumar R. Naik, and Chandan Gowda M. "E-Health Tracker: An IoT-Cloud Based Health Monitoring System." In 2022 4th International Conference on Smart Systems and Inventive Technology (ICSSIT). IEEE, 2022. http://dx.doi.org/10.1109/icssit53264.2022.9716540.

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Reports on the topic "E-health monitoring system"

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Robinson, Andy. Monitoring and Evaluation for Rural Sanitation and Hygiene: Framework. Institute of Development Studies (IDS), 2021. http://dx.doi.org/10.19088/slh.2021.027.

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The monitoring and evaluation (M&amp;E) Guidelines and Framework presented in this document (and in the accompanying M&amp;E Indicator Framework) aim to encourage stakeholders in the rural sanitation and hygiene sector to take a more comprehensive, comparable and people focused approach to monitoring and evaluation. Many M&amp;E frameworks currently reflect the interests and ambitions of particular implementing agencies – that is, community-led total sanitation (CLTS) interventions focused on open-defecation free (ODF) outcomes in triggered communities; market-based sanitation interventions focused on the number of products sold and whether sanitation businesses were profitable; and sanitation finance interventions reporting the number of facilities built using financial support. Few M&amp;E frameworks have been designed to examine the overall sanitation and hygiene situation – to assess how interventions have affected sanitation and hygiene outcomes across an entire area (rather than just in specific target communities); to look at who (from the overall population) benefitted from the intervention, and who did not; to report on the level and quality of service used; or examine whether public health has improved. Since 2015, the Sustainable Development Goals (SDGs) have extended and deepened the international monitoring requirements for sanitation and hygiene. The 2030 SDG sanitation target 6.2 includes requirements to: • Achieve access to adequate sanitation and hygiene for all • Achieve access to equitable sanitation and hygiene for all • End open defecation • Pay special attention to the needs of women and girls • Pay special attention to those in vulnerable situations The 2030 SDG sanitation target calls for universal use of basic sanitation services, and for the elimination of open defecation, both of which require M&amp;E systems that cover entire administration areas (i.e. every person and community within a district) and which are able to identify people and groups that lack services, or continue unsafe practices. Fortunately, the SDG requirements are well aligned with the sector trend towards system strengthening, in recognition that governments are responsible both for the provision of sustainable services and for monitoring the achievement of sustained outcomes. This document provides guidelines on the monitoring and evaluation of rural sanitation and hygiene, and presents an M&amp;E framework that outlines core elements and features for reporting on progress towards the 2030 SDG sanitation target (and related national goals and targets for rural sanitation and hygiene), while also encouraging learning and accountability. Given wide variations in the ambition, capacity and resources available for monitoring and evaluation, it is apparent that not all of the M&amp;E processes and indicators described will be appropriate for all stakeholders. The intention is to provide guidelines and details on useful and progressive approaches to monitoring rural sanitation and hygiene, from which a range of rural sanitation and hygiene duty bearers and practitioners – including governments, implementation agencies, development partners and service providers – can select and use those most appropriate to their needs. Eventually, it is hoped that all of the more progressive M&amp;E elements and features will become standard, and be incorporated in all sector monitoring systems.
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Robinson, Andy. Monitoring and Evaluation for Rural Sanitation and Hygiene: Framework. Institute of Development Studies (IDS), 2021. http://dx.doi.org/10.19088/slh.2021.025.

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The monitoring and evaluation (M&amp;E) Guidelines and Framework presented in this document (and in the accompanying M&amp;E Indicator Framework) aim to encourage stakeholders in the rural sanitation and hygiene sector to take a more comprehensive, comparable and people focused approach to monitoring and evaluation. Many M&amp;E frameworks currently reflect the interests and ambitions of particular implementing agencies – that is, community-led total sanitation (CLTS) interventions focused on open-defecation free (ODF) outcomes in triggered communities; market-based sanitation interventions focused on the number of products sold and whether sanitation businesses were profitable; and sanitation finance interventions reporting the number of facilities built using financial support. Few M&amp;E frameworks have been designed to examine the overall sanitation and hygiene situation – to assess how interventions have affected sanitation and hygiene outcomes across an entire area (rather than just in specific target communities); to look at who (from the overall population) benefitted from the intervention, and who did not; to report on the level and quality of service used; or examine whether public health has improved. Since 2015, the Sustainable Development Goals (SDGs) have extended and deepened the international monitoring requirements for sanitation and hygiene. The 2030 SDG sanitation target 6.2 includes requirements to: • Achieve access to adequate sanitation and hygiene for all • Achieve access to equitable sanitation and hygiene for all • End open defecation • Pay special attention to the needs of women and girls • Pay special attention to those in vulnerable situations The 2030 SDG sanitation target calls for universal use of basic sanitation services, and for the elimination of open defecation, both of which require M&amp;E systems that cover entire administration areas (i.e. every person and community within a district) and which are able to identify people and groups that lack services, or continue unsafe practices. Fortunately, the SDG requirements are well aligned with the sector trend towards system strengthening, in recognition that governments are responsible both for the provision of sustainable services and for monitoring the achievement of sustained outcomes. This document provides guidelines on the monitoring and evaluation of rural sanitation and hygiene, and presents an M&amp;E framework that outlines core elements and features for reporting on progress towards the 2030 SDG sanitation target (and related national goals and targets for rural sanitation and hygiene), while also encouraging learning and accountability. Given wide variations in the ambition, capacity and resources available for monitoring and evaluation, it is apparent that not all of the M&amp;E processes and indicators described will be appropriate for all stakeholders. The intention is to provide guidelines and details on useful and progressive approaches to monitoring rural sanitation and hygiene, from which a range of rural sanitation and hygiene duty bearers and practitioners – including governments, implementation agencies, development partners and service providers – can select and use those most appropriate to their needs. Eventually, it is hoped that all of the more progressive M&amp;E elements and features will become standard, and be incorporated in all sector monitoring systems.
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