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Schumacher Michael Ignaz

Professeur-e HES Ordinaire

Compétences principales

Professeur-e HES Ordinaire

Bureau: TP108

HES-SO Valais-Wallis - Haute Ecole de Gestion
Route de la Plaine 2, Case postale 80, 3960 Sierre, CH

Domaine
Economie et services

Filière principale
Informatique de gestion

Institut
Institut Informatique

BSc HES-SO en Informatique de gestion - HES-SO Valais-Wallis - Haute Ecole de Gestion

Mobile and Cloud Development
Design Patterns

En cours

PERSIST: Big data / AI enabled care plan for cancer survivors

Rôle: Co-requérant(s)

Financement: H2020

Description du projet :

PERSIST. Patients-centered care plan after Cancer treatments based on AI. Patient trajectory analytics based on Machine Learnig techniques.

Equipe de recherche au sein de la HES-SO: Calbimonte Jean-Paul , Schumacher Michael Ignaz

Partenaires académiques: -, University of Maribor

Partenaires professionnels: Gradiant

Durée du projet: - 17.02.2023

Statut: En cours

Terminés

SemPryv: Automatic Semantization for Personalized Health Data

Rôle: Requérant(e) principal(e)

Financement: Innosuisse

Description du projet :

SemPryv: Automatic Semantization for Personalized Health Data. Machine Learning based methods for semantic annotation of personal data streams.

Equipe de recherche au sein de la HES-SO: Calbimonte Jean-Paul , Schumacher Michael Ignaz

Partenaires professionnels: Pryv SA

Durée du projet: 01.04.2018 - 31.03.2020

Statut: Terminé

Entwicklung einer internet basierten Arbeitsplattform für eine integrierte Hilfe und Pflege zu hause

AGP

Rôle: Co-requérant(s)

Description du projet : Voir annexe

Equipe de recherche au sein de la HES-SO: Schumann René , Schumacher Michael Ignaz , Eggenschwiler Stefan , Gobet Pierre , Fux Michael

Partenaires académiques: CTI; KTI

Durée du projet: 01.01.2016 - 31.12.2018

Montant global du projet: 445'489 CHF

Statut: Terminé

ISyPeM II (Theraper) - Nano-Tera.ch RTD

AGP

Rôle: Requérant(e) principal(e)

Financement: VS - Institut Informatique; Nano-Tera.CH; SEFRI (anc. OFFT)

Description du projet : Modern therapeutics must benefit from the development and large-scale implementation of convenient, user-friendly, miniaturized, integrated instruments enbling drug concentration monitoring and seamless pharmacokinetically guided dosage individualization.

Equipe de recherche au sein de la HES-SO: Schumacher Michael Ignaz , Calbimonte Jean-Paul

Durée du projet: 01.11.2013 - 31.10.2017

Montant global du projet: 451'335 CHF

Statut: Terminé

D1NAMO - Diabetes type 1 Non-Invasive Activity Monitoring - Nano-Tera.ch NTF

AGP

Rôle: Requérant(e) principal(e)

Financement: VS - Institut Informatique; Nano-Tera.CH; SEFRI (anc. OFFT); VS - Institut Informatique

Description du projet : Diabetes type 1 is an autoimmune disease that affects the insulin-producing beta cells of the islets of Langerhans in the pancreas leading to insulin deficiency. Once a patient is affected by diabetes type 1, the only possible treatment is insulin shots several time a day to keep the insulin levels under control and keep the risk of hypoglycaemia low. In particular, the occurrence of hypoglycaemia in diabetes type 1 is quite frequent in intensively treated patients. As reported in [6], intensively treated patients with type 1 diabetes can experience even 10 episodes of symptomatic hypoglycaemia each week and a severe temporarily disabling hypoglycaemia up to once per year. Furthermore, 2-4% of the deaths in type 1 diabetes are caused by severe hypoglycaemic attacks

Equipe de recherche au sein de la HES-SO: Schumacher Michael Ignaz

Durée du projet: 01.11.2013 - 31.10.2016

Montant global du projet: 329'600 CHF

Statut: Terminé

COMPASS : COntinous Multi-variate monitoring for Patients Affected by chronic obstructive pulmonary diSeaSe / CTI no 15888.1 PFES-ES

AGP

Rôle: Requérant(e) principal(e)

Financement: CTI; Biovotion AG

Description du projet : COMPASS will define and create a Personal Health System to monitor the physicological parameters of patients affected by Chronic Obstructive Pulmonary Disease and assiciated chronic illnesses and predict the physiological state as a support to the decisions taken by medical doctors.

Equipe de recherche au sein de la HES-SO: Schumacher Michael Ignaz

Partenaires académiques: VS - Institut Informatique; Schumacher Michael Ignaz, VS - Institut Informatique

Durée du projet: 01.04.2014 - 30.06.2016

Montant global du projet: 497'893 CHF

Statut: Terminé

Mobile computing with AGents and Publish/subscribe for Intelligent u-hEalthcare - ES-ISNET 14-04

AGP

Rôle: Requérant(e) principal(e)

Financement: HES-SO Rectorat

Description du projet : The context of this project is the Personal Health Systems (PHS) used in the field of ubiquitous healthcare. The particular goals to achieve are the development of a multiagent platform (MAP) integrated with the Android OS, with the aim of facilitating the development of mobile applications for monitoring chronic illnesses; and to study how to apply concepts from Distributed Event Based Systems (DEBS) into PHS with the aim of helping patients to connect with other patients. With this project we pretend to illustrate how we can improve the patient's quality of life using MAP and DEBS technologies. Such an agent-based PHS for Android would be a clear step forward in the state-of-the-art, and would allow deploying this platform for future eHealth projects. This project will also setup a strong collaboration with the Universitat Politècnica de Catalunya, BarcelonaTech

Equipe de recherche au sein de la HES-SO: Schumacher Michael Ignaz

Partenaires académiques: VS - Institut Informatique; Schumacher Michael Ignaz, VS - Institut Informatique

Durée du projet: 01.10.2014 - 31.03.2016

Montant global du projet: 133'200 CHF

Statut: Terminé

Commodity12 - COntinuous Multi-parametric and Multi-layered analysis Of DIabetes TYpe 1 & 2 - GA: 287841

AGP

Rôle: Requérant(e) principal(e)

Financement: European commission

Description du projet : Grant Agreement: 287841 COMMODITY12 aims to design, build, and validate an intelligent system for the analysis of multi-parametric medical data. It will uptake the existing cutting-edge technologies and extend these technologies by combining state-of-the-art networks, software interoperation, and artificial intelligence techniques in order to realize the concept of translational medicine by means of a Personal Health System. Moreover, the COMMODITY12 system will build a new level in patient empowerment, providing the tools for self-management support. Indirectly, this system will also help wider implementation of Personal Health Systems, reinforcing leadership and innovation capability of the European industry in that area.

Equipe de recherche au sein de la HES-SO: Schumacher Michael Ignaz

Partenaires académiques: VS - Institut Informatique

Durée du projet: 01.10.2011 - 30.06.2015

Montant global du projet: 632'026 CHF

Statut: Terminé

COMPOSE : COordinating Multiple Patient-centred clinical guidelines for the MetabOlic SyndromE

AGP

Rôle: Requérant(e) principal(e)

Financement: Fondation Hasler

Description du projet : This research project defines a coordination framework that combines multiple clinical guidelines relating to patients diagnosed with the metabolic syndrome. Patients and caregivers are connected within a decentralized network that enables caregivers to exchange health records and to adhere to the clinical guidelines. The first goal of this project is the definition of a semantic model for specifying the clinical rules that reason with heterogenous patient records. The second goal is to formalize and prototype this model by combining it with a declarative language that can identify intervention plans within the co-morbidities of the metabolic syndrome. Finally, the third goal is to evaluate the approach within a small feasibility study. The expected results are a general framework for reasoning with multiple clinical guidelines, and that extends the current ability that caregivers have to exchange focused and specialized patients' health data. From the eHealth perspective, the benefit stands in the fact that we can assist caregivers to perform timely intervension measures that are shown to benefit the overall patient's health and lower the overall healthcare costs.

Equipe de recherche au sein de la HES-SO: Schumacher Michael Ignaz

Partenaires académiques: VS - Institut Informatique

Durée du projet: 01.05.2014 - 30.06.2015

Montant global du projet: 49'975 CHF

Statut: Terminé

2023

Exploring agent-based chatbots :

Article scientifique ArODES

a systematic literature review

Davide Calvaresi, Stefan Eggenschwiler, Yazan Mualla, Michael Schumacher, Jean-Paul Calbimonte

Journal of ambient intelligence and humanized computing, 2023, vol. 14, pp. 11207–11226

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Résumé:

In the last decade, conversational agents have been developed and adopted in several application domains, including education, healthcare, finance, and tourism. Nevertheless, chatbots still need to address several limitations and challenges, especially regarding personalization, limited knowledge-sharing capabilities, multi-domain campaign support, real-time monitoring, or integration of chatbot communities. To cope with these limitations, many approaches based on multi-agent systems models and technologies have been proposed in the literature, opening new research directions in this context. To better understand the current panorama of the different chatbot technology solutions employing agent-based methods, this Systematic Literature Review investigates the different application domains, end-users, requirements, objectives, technology readiness levels, designs, strengths, limitations, and future challenges of the solutions found in this scope. The results of this review are intended to provide researchers, software engineers, and innovators with a complete overview of the current state of the art and a discussion of the open challenges.

Characterization and future perspectives of virtual reality evacuation drills for safe built environments :

Article scientifique ArODES

a systematic literature review

Emanuele Gagliardi, Gabriele Bernardini, Enrico Quagliarini, Michael Schumacher, Davide Calvaresi

Safety Science, July 2023, vol. 163, 106141

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Résumé:

Physical evacuation drills are pre-planned activities to train building occupants in facing emergencies and evaluate safety performances. Nowadays, technologies including Virtual Reality (VR) and Immersive Virtual Reality (IVR) are shifting from the physical to the virtual paradigm. AR enables just to extend real-world environment, while VR and IVR allow to (re)create and manipulate digital environments. VR and IVR simulation systems have been observed to guarantee higher involvement and long-term information retention — leveraging more attractive experiences and psychological arousal. However, efforts should be provided to improve end-user training while assessing occupants’ behaviors and the effectiveness of the emergency plan. This paper proposes a systematic literature review of VR and IVR evacuation solutions. To support and guide such effort, we formulated thirteen structured research questions investigating scenarios, recipients, requirements, objectives, methods, and technologies. The results mainly show that VR and IVR drills almost entirely tackle a single hazard, considers occupants as sole system recipients, and lack systems formalization. Among the most relevant outcomes, the paper analyzes the need for enhancing the modeling of emergency systems (e.g., signage, alarms), user inclusiveness (i.e., impaired individuals), devices, non-player characters, and additional effects (e.g., heat reproduction, sounds, and smells). These measures can improve the level of realism experienced by the user of IVR simulators and pave the way to more reliable outcomes.

Breast cancer survival analysis agents for clinical decision support

Article scientifique ArODES

Gaetano Manzo, Yves Pannatier, Patrick Duflot, Philippe Kolh, Marcela Chavez, Valérie Bleret, Davide Calvaresi, Oscar Jimenez-del-Toro, Michael Schumacher, Jean-Paul Calbimonte

Computer methods and programs in biomedicine, Avril 2023, vol. 231

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Résumé:

Personalized support and assistance are essential for cancer survivors, given the physical and psychological consequences they have to suffer after all the treatments and conditions associated with this illness. Digital assistive technologies have proved to be effective in enhancing the quality of life of cancer survivors, for instance, through physical exercise monitoring and recommendation or emotional support and prediction. To maximize the efficacy of these techniques, it is challenging to develop accurate models of patient trajectories, which are typically fed with information acquired from retrospective datasets. This paper presents a Machine Learning-based survival model embedded in a clinical decision system architecture for predicting cancer survivors’ trajectories. The proposed architecture of the system, named PERSIST, integrates the enrichment and pre-processing of clinical datasets coming from different sources and the development of clinical decision support modules. Moreover, the model includes detecting high-risk markers, which have been evaluated in terms of performance using both a third-party dataset of breast cancer patients and a retrospective dataset collected in the context of the PERSIST clinical study.

Decentralized semantic provision of personal health streams

Article scientifique ArODES

Jean-Paul Calbimonte, Orfeas Aidonopoulos, Fabien Dubosson, Benjamin Pocklington, Ilia Kebets, Pierre-Mikael Legris, Michael Schumacher

Journal of web semantics, Avril 2023, vol. 76

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Résumé:

Personalized healthcare is nowadays driven by the increasing volumes of patient data, observed and produced continuously thanks to medical devices, mobile sensors, patient-reported outcomes, among other data sources. This data is made available as streams, due to their dynamic nature, which represents an important challenge for processing, querying and interpreting the incoming information. In addition, the sensitive nature of healthcare data poses significant restrictions regarding privacy, which has led to the emergence of decentralized personal data management systems. Data semantics play a key role in order to enable both decentralization and integration of personal health data, as they introduce the capability to represent knowledge and information using ontologies and semantic vocabularies. In this paper we describe the SemPryv system, which provides the means to manage personal health data streams enriched with semantic information. SemPryv is designed as a decentralized system, so that users have the possibility of hosting their personal data at different sites, while keeping control of access rights. The semantization of data in SemPryv is implemented through different strategies, ranging from rule-based annotation to machine learning-based suggestions, fed from third-party specialized healthcare metadata providers. The system has been made available as Open Source, and is integrated as part of the Pryv.io platform used and commercialized in the healthcare and personal data management industry

2022

A DEXiRE for extracting propositional rules from neural networks via binarization

Article scientifique ArODES

Victor Contreras, Niccolo Marini, Lora Fanda, Gaetano Manzo, Yazan Mualla, Jean-Paul Calbimonte, Michael Schumacher, Davide Calvaresi

Electronics, 2022, vol. 11, no 24, p. 4171

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Résumé:

Background: Despite the advancement in eXplainable Artificial Intelligence, the expla nations provided by model-agnostic predictors still call for improvements (i.e., lack of accurate descriptions of predictors’ behaviors). Contribution: We present a tool for Deep Explanations and Rule Extraction (DEXiRE) to approximate rules for Deep Learning models with any number of hid den layers. Methodology: DEXiRE proposes the binarization of neural networks to induce Boolean functions in the hidden layers, generating as many intermediate rule sets. A rule set is inducted between the first hidden layer and the input layer. Finally, the complete rule set is obtained using inverse substitution on intermediate rule sets and first-layer rules. Statistical tests and satisfiability algorithms reduce the final rule set’s size and complexity (filtering redundant, inconsistent, and non-frequent rules). DEXiRE has been tested in binary and multiclass classifications with six datasets having different structures and models. Results: The performance is consistent (in terms of accuracy, fidelity, and rule length) with respect to the state-of-the-art rule extractors (i.e., ECLAIRE). Moreover, compared with ECLAIRE, DEXiRE has generated shorter rules (i.e., up to 74% fewer terms) and has shortened the execution time (improving up to 197% in the best-case scenario). Conclusions: DEXiRE can be applied for binary and multiclass classification of deep learning predictors with any number of hidden layers. Moreover, DEXiRE can identify the activation pattern per class and use it to reduce the search space for rule extractors (pruning irrelevant/redundant neurons)—shorter rules and execution times with respect to ECLAIRE.

Ethical and legal considerations for nutrition virtual coaches

Article scientifique ArODES

Davide Calvaresi, Rachele Carli, Jean-Gabriel Piguet, Victor H. Contreras, Gloria Luzzani, Amro Najjar, Jean-Paul Calbimonte, Michael Schumacher

AI and Ethics, 2022

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Résumé:

Choices and preferences of individuals are nowadays increasingly infuenced by countless inputs and recommendations provided by artifcial intelligence-based systems. The accuracy of recommender systems (RS) has achieved remarkable results in several domains, from infotainment to marketing and lifestyle. However, in sensitive use-cases, such as nutrition, there is a need for more complex dynamics and responsibilities beyond conventional RS frameworks. On one hand, virtual coaching systems (VCS) are intended to support and educate the users about food, integrating additional dimensions w.r.t. the conventional RS (i.e., leveraging persuasion techniques, argumentation, informative systems, and recommendation paradigms) and show promising results. On the other hand, as of today, VCS raise unexplored ethical and legal concerns. This paper discusses the need for a clear understanding of the ethical/legal-technological entanglements, formalizing 21 ethical and ten legal challenges and the related mitigation strategies. Moreover, it elaborates on nutrition sustainability as a further nutrition virtual coaches dimension for a better society.

Blockchain technology in the tourism industry :

Article scientifique ArODES

new perspectives in Switzerland

Emmanuel Fragnière, Jean-Michel Sahut, Lubica Hikkerova, Michael Schumacher, Sandra Grèzes, Randolf Ramseyer

Journal of innovation economics management, 2022, no. 37, pp. 65-90

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Résumé:

Blockchain is often presented in the tourism industry as being a technology in a global approach that will enable the sector to make its digital transformation and bring a whole series of advantages, both financial and logistical. The reality is different, however. Indeed, research on Blockchain tends to focus on essentially technical aspects and takes little account of the customer experience in the sector in which it will be integrated. The aim of this exploratory research, based on 18 semi-directive interviews, is to understand the sociological obstacles to the adoption of Blockchain by tourism professionals in Switzerland. Our generalized findings are presented in the form of four research proposals that argue that, without the intervention of the State, it is hard to see how such disruptive innovation can radically change the highly fragmented tourism sector.

2021

Exploiter les données du dossier médical informatisé pour améliorer la qualité des soins en ambulatoire

Article scientifique ArODES

Arnaud Chiolero, Jean-Paul Calbimonte, Gaetano Manzo, Bruno Alves, Michael Schumacher, Samuel Gaillard, Philippe Schaller, Valérie Santschi

Revue médicale suisse, 2021, vol. 17, no. 760, pp. 2056-2059

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Cohort and trajectory analysis in multi-agent support systems for cancer survivors

Article scientifique ArODES

Gaetano Manzo, Davide Calvaresi, Oscar Alfonso Jiménez del Toro, Jean-Paul Calbimonte, Michael Schumacher

Journal of medical systems, 2021, vol. 45, article no. 109, pp. 1-10

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Résumé:

In the past decades, the incidence rate of cancer has steadily risen. Although advances in early and accurate detection have increased cancer survival chances, these patients must cope with physical and psychological sequelae. The lack of personalized support and assistance after discharge may lead to a rapid diminution of their physical abilities, cognitive impairment, and reduced quality of life. This paper proposes a personalized support system for cancer survivors based on a cohort and trajectory analysis (CTA) module integrated within an agent-based personalized chatbot named EREBOTS. The CTA module relies on survival estimation models, machine learning, and deep learning techniques. It provides clinicians with supporting evidence for choosing a personalized treatment, while allowing patients to benefit from tailored suggestions adapted to their conditions and trajectories. The development of the CTA within the EREBOTS framework enables to effectively evaluate the significance of prognostic variables, detect patient’s high-risk markers, and support treatment decisions.

Leveraging inter-tourists interactions via chatbots to bridge academia, tourism industries and future societies

Article scientifique ArODES

Davide Calvaresi, Ahmed Ibrahim, Jean-Paul Calbimonte, Emmanuel Fragnière, Roland Schegg, Michael Schumacher

Journal of tourism futures, To be published

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Résumé:

Purpose : The tourism and hospitality sectors are experiencing radical innovation boosted by the advancements in Information and Communication Technologies. Increasingly sophisticated chatbots are introducing novel approaches, re-shaping the dynamics among tourists and service providers, and fostering a remarkable behavioral change in the overall sector. Therefore, the objective of this paper is two-folded: (1) to highlight the academic and industrial standing points with respect to the current chatbots designed/deployed in the tourism sector and (2) to develop a proof-of-concept embodying the most prominent opportunities in the tourism sector. Design/methodology/approach : This work elaborates on the outcomes of a Systematic Literature Review (SLR) and a Focus Group (FG) composed of experts from the tourism industry. Moreover, it presents a proof-of-concept relying on the outcomes obtained from both SLR and FG. Eventually, the proof-of-concept has been tested with experts and practitioners of the tourism sector. Findings : Among the findings elicited by this paper, we can mention the quick evolution of chatbot-based solutions, the need for continuous investments, upskilling, system innovation to tackle the eTourism challenges and the shift toward new dimensions (i.e. tourist-to-tourist-to-chatbot and personalized multi-stakeholder systems). In particular, we focus on the need for chatbot-based activity and thematic aggregation for next-generation tourists and service providers. Originality/value : Both academic- and industrial-centered findings have been structured and discussed to foster the practitioners' future research. Moreover, the proof-of-concept presented in the paper is the first of its kind, which raised considerable interest from both technical and business-planning perspectives.

EREBOTS :

Article scientifique ArODES

privacy-compliant agent-based platform for multi-scenario personalized health-assistant chatbots

Davide Calvaresi, Jean-Paul Calbimonte, Enrico Siboni, Stefan Eggenschwiler, Gaetano Manzo, Roger Hilfiker, Michael Schumacher

Electronics, 2021, vol. 10, no. 6, pp. article no. 666, pp. 1-30

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Résumé:

Context. Asynchronous messaging is increasingly used to support human–machine interactions, generally implemented through chatbots. Such virtual entities assist the users in activities of different kinds (e.g., work, leisure, and health-related) and are becoming ingrained into humans’ habits due to factors including (i) the availability of mobile devices such as smartphones and tablets, (ii) the increasingly engaging nature of chatbot interactions, (iii) the release of dedicated APIs from messaging platforms, and (iv) increasingly complex AI-based mechanisms to power the bots’ behaviors. Nevertheless, most of the modern chatbots rely on state machines (implementing conversational rules) and one-fits-all approaches, neglecting personalization, data-stream privacy management, multi-topic management/interconnection, and multimodal interactions. Objective. This work addresses the challenges above through an agent-based framework for chatbot development named EREBOTS. Methods. The foundations of the framework are based on the implementation of (i) multi-front-end connectors and interfaces (i.e., Telegram, dedicated App, and web interface), (ii) enabling the configuration of multi-scenario behaviors (i.e., preventive physical conditioning, smoking cessation, and support for breast-cancer survivors), (iii) online learning, (iv) personalized conversations and recommendations (i.e., mood boost, anti-craving persuasion, and balance-preserving physical exercises), and (v) responsive multi-device monitoring interface (i.e., doctor and admin). Results. EREBOTS has been tested in the context of physical balance preservation in social confinement times (due to the ongoing pandemic). Thirteen individuals characterized by diverse age, gender, and country distribution have actively participated in the experimentation, reporting advancements in the physical balance and overall satisfaction of the interaction and exercises’ variety they have been proposed.

Real-time multi-agent systems :

Article scientifique ArODES

rationality, formal model, and empirical results

Davide Calvaresi, Yashin Dicente Cid, Mauro Marinoni, Aldo Franco Dragoni, Amro Najjar, Michael Schumacher

Autonomous agents and multi-agent systems, 2021, vol. 35, article no. 12, pp. 1-37

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Résumé:

Since its dawn as a discipline, Artificial Intelligence (AI) has focused on mimicking the human mental processes. As AI applications matured, the interest for employing them into real-world complex systems (i.e., coupling AI with Cyber-Physical Systems—CPS) kept increasing. In the last decades, the multi-agent systems (MAS) paradigm has been among the most relevant approaches fostering the development of intelligent systems. In numerous scenarios, MAS boosted distributed autonomous reasoning and behaviors. However, many real-world applications (e.g., CPS) demand the respect of strict timing constraints. Unfortunately, current AI/MAS theories and applications only reason “about time” and are incapable of acting “in time” guaranteeing any timing predictability. This paper analyzes the MAS compliance with strict timing constraints (real-time compliance)—crucial for safety-critical applications such as healthcare, industry 4.0, and automotive. Moreover, it elicits the main reasons for the lack of real-time satisfiability in MAS (originated from current theories, standards, and implementations). In particular, traditional internal agent schedulers (general-purpose-like), communication middlewares, and negotiation protocols have been identified as co-factors inhibiting real-time compliance. To pave the road towards reliable and predictable MAS, this paper postulates a formal definition and mathematical model of real-time multi-agent systems (RT-MAS). Furthermore, this paper presents the results obtained by testing the dynamics characterizing the RT-MAS model within the simulator MAXIM-GPRT. Thus, it has been possible to analyze the deadline miss ratio between the algorithms employed in the most popular frameworks and the proposed ones. Finally, discussing the obtained results, the ongoing and future steps are outlined.

2020

Dynamic consent management for clinical trials via private blockchain technology

Article scientifique ArODES

Giuseppe Albanese, Jean-Paul Calbimonte, Michael Schumacher, Davide Calvaresi

Journal of ambient intelligence and humanized computing, 2020, vol. 11, no. 11, pp. 4909–4926

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Résumé:

Clinical trials (CTs) are essential for the advancement of medical research, paving the way for the development and adoption of new treatments, and contributing to the evolution of healthcare. An essential factor for the success of a CT is the appropriate management of its participants and their personal data. According to the current regulations, collecting and using personal data from participants must comply with rigorous standards. Therefore, healthcare institutes need to obtain freely given, specific, informed, and unambiguous consent before being able to collect the data. Some of the major limitations of the current technological solutions are the lack of control over the granularity of consent grants, as well as the difficulty of handling dynamic changes of consent over time. In this paper, we present SCoDES, an approach for trusted and decentralized management of dynamic consent in clinical trials, based on blockchain technology (BCT). The usage of blockchain provides a set of features that allow maintaining consent information with trust guarantees while avoiding the need for a dedicated or centralized third trusted party. We provide a full implementation of SCoDES, made available as a self-contained infrastructure, with the possibility to interact with external services, and using hyperledger as a blockchain framework.

Agent-based modeling for ontology-driven analysis of patient trajectories

Article scientifique ArODES

Davide Calvaresi, Michael Schumacher, Jean-Paul Calbimonte

Journal of medical systems, 2020, vol. 44, no. 9, article 158

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Résumé:

Patients are often required to follow a medical treatment after discharge, e.g., for a chronic condition, rehabilitation after surgery, or for cancer survivor therapies. The need to adapt to new lifestyles, medication, and treatment routines, can produce an individual burden to the patient, who is often at home without the full support of healthcare professionals. Although technological solutions –in the form of mobile apps and wearables– have been proposed to mitigate these issues, it is essential to consider individual characteristics, preferences, and the context of a patient in order to offer personalized and effective support. The specific events and circumstances linked to an individual profile can be abstracted as a patient trajectory, which can contribute to a better understanding of the patient, her needs, and the most appropriate personalized support. Although patient trajectories have been studied for different illnesses and conditions, it remains challenging to effectively use them as the basis for data analytics methodologies in decentralized eHealth systems. In this work, we present a novel approach based on the multi-agent paradigm, considering patient trajectories as the cornerstone of a methodology for modelling eHealth support systems. In this design, semantic representations of individual treatment pathways are used in order to exchange patient-relevant information, potentially fed to AI systems for prediction and classification tasks. This paper describes the major challenges in this scope, as well as the design principles of the proposed agent-based architecture, including an example of its use through a case scenario for cancer survivors support.

ACTION-EHR :

Article scientifique ArODES

patient-centric blockchain-based electronic health record data management for cancer care

Alevtina Dubovitskaya, Zhigang Xu, Furqan Baig, Rohit Shukla, Pratik Sushil Zambani, Arun Swaminathan, Majid Jahangir, Khadija Chowdhry, Rahul Lachhani, Nitesh Idnani, Michael Schumacher, Karl Aberer, Scott D. Stoller, Samuel Ryu, Fusheng Wang

Journal of medical internet research, 2020, vol. 22, no. 8, pp. 1-15

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Résumé:

Background: With increased specialization of health care services and high levels of patient mobility, accessing health care services across multiple hospitals or clinics has become very common for diagnosis and treatment, particularly for patients with chronic diseases such as cancer. With informed knowledge of a patient’s history, physicians can make prompt clinical decisions for smarter, safer, and more efficient care. However, due to the privacy and high sensitivity of electronic health records (EHR), most EHR data sharing still happens through fax or mail due to the lack of systematic infrastructure support for secure, trustable health data sharing, which can also cause major delays in patient care. Objective: Our goal was to develop a system that will facilitate secure, trustable management, sharing, and aggregation of EHR data. Our patient-centric system allows patients to manage their own health records across multiple hospitals. The system will ensure patient privacy protection and guarantee security with respect to the requirements for health care data management, including the access control policy specified by the patient. Methods: We propose a permissioned blockchain-based system for EHR data sharing and integration. Each hospital will provide a blockchain node integrated with its own EHR system to form the blockchain network. A web-based interface will be used for patients and doctors to initiate EHR sharing transactions. We take a hybrid data management approach, where only management metadata will be stored on the chain. Actual EHR data, on the other hand, will be encrypted and stored off-chain in Health Insurance Portability and Accountability Act–compliant cloud-based storage. The system uses public key infrastructure–based asymmetric encryption and digital signatures to secure shared EHR data. Results: In collaboration with Stony Brook University Hospital, we developed ACTION-EHR, a system for patient-centric, blockchain-based EHR data sharing and management for patient care, in particular radiation treatment for cancer. The prototype was built on Hyperledger Fabric, an open-source, permissioned blockchain framework. Data sharing transactions were implemented using chaincode and exposed as representational state transfer application programming interfaces used for the web portal for patients and users. The HL7 Fast healthcare Interoperability Resources standard was adopted to represent shared EHR data, making it easy to interface with hospital EHR systems and integrate a patient’s EHR data. We tested the system in a distributed environment at Stony Brook University using deidentified patient data. Conclusions: We studied and developed the critical technology components to enable patient-centric, blockchain-based EHR sharing to support cancer care. The prototype demonstrated the feasibility of our approach as well as some of the major challenges. The next step will be a pilot study with health care providers in both the United States and Switzerland. Our work provides an exemplar testbed to build next-generation EHR sharing infrastructures.

Guest editorial :

Article scientifique ArODES

healthcare intelligent multi agent systems

Neil Vaughan, Eloisa Vargiu, Stefano Mariani, Sara Montagna, Michael Schumacher

Journal of medical systems, 2020, vol. 44, no. 8, article no. 138, pp. 1-2

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2019

The good, the bad, and the ethical implications of bridging blockchain and multi-agent systems

Article scientifique ArODES

Davide Calvaresi, Jean-Paul Calbimonte, Alevtina Dubovitskaya, Valerio Mattioli, Jean-Gabriel Piguet, Michael Schumacher

Information, 2019, vol. 10, no. 12, article 363

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Résumé:

The agent based approach is a well established methodology to model distributed intelligent systems. Multi-Agent Systems (MAS) are increasingly employed in applications dealing with safety and information critical tasks (e.g., in eHealth, financial, and energy domains). Therefore, transparency and the trustworthiness of the agents and their behaviors must be enforced. For example, employing reputation based mechanisms can promote the development of trust. Nevertheless, besides recent early stage studies, the existing methods and systems are still unable to guarantee the desired accountability and transparency adequately. In line with the recent trends, we advocate that combining blockchain technology (BCT) and MAS can achieve the distribution of the trust, removing the need for trusted third parties (TTP), potential single points of failure. This paper elaborates on the notions of trust, BCT, MAS, and their integration. Furthermore, to attain a trusted environment, this manuscript details the design and implementation of a system reconciling MAS (based on the Java Agent DEvelopment Framework (JADE)) and BTC (based on Hyperledger Fabric). In particular, the agents’ interactions, computation, tracking the reputation, and possible policies for disagreement-management are implemented via smart contracts and stored on an immutable distributed ledger. The results obtained by the presented system and similar solutions are also discussed. Finally, ethical implications (i.e., opportunities and challenges) are elaborated before concluding the paper.

Towards profile and domain modelling in agent-based applications for behavior change

Chapitre de livre ArODES

Jean-Paul Calbimonte, Davide Calvaresi, Fabien Dubosson, Michael Schumacher

Dans Demazeau, Yves, Advances in practical applications of survivable agents and multi-agent systems : the PAAMS collection (pp. 16-28). 2019, Cham : Springer

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Résumé:

Health support programs play a vital role in public health and prevention strategies at local and national levels, for issues such as smoking cessation, physical rehabilitation, nutrition, or to regain mobility. A key success factor in these topics is related to the appropriate use of behavior change techniques, as well as tailored recommendations for users/patients, adapted to their goals and the continuous monitoring of their progress. Social networks interactions and the use of multi-agent technologies can further improve the effectiveness of these programs, especially through personalization and profiling of users and patients. In this paper we propose an agent-based model for supporting behavior change in eHealth programs. Moreover, we identify the main challenges in this area, especially regarding profile and domain modeling profiles for healthcare behavioral programs, where the definition of goals, expectations and argumentation play a key role in the success of a intervention.

A startup assessment approach based on multi-agent and blockchain technologies

Chapitre de livre ArODES

Davide Calvaresi, Ekaterina Voronova, Jean-Paul Calbimonte, Valerio Mattioli, Michael Schumacher

Dans De La Prieta. Fernando, et al., Highlights of practical applications of survivable agents and multi-agent systems. The PAAMS collection: International Workshops of PAAMS 2019, Ávila, Spain, June 26–28, 2019, Proceedings (12 p.). 2019, Cham : Springer

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Résumé:

The dynamic nature of startups is linked to both high risks in investments as well as potentially important financial benefits. A key aspect to manage interactions among investors, experts, and startups, is the establishment of trust guarantees. This paper presents the formalization and implementation of a system enforcing trust in the startup assessment domain. To do so, an existing architecture has been extended, incorporating a multi-agent community and related interactions via private blockchain technology. The developed system enables a trust-based community, immutably storing, tracking, and monitoring the agents’ interactions and reputations.

Real-time multi-agent systems for telerehabilitation scenarios

Article scientifique ArODES

Davide Calvaresi, Mauro Marinoni, Aldo Franco Dragoni, Roger Hilfiker, Michael Schumacher

Artificial intelligence in medicine, 2019, vol. 96, pp. 217-231

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Résumé:

Telerehabilitation in older adults is most needed in the patient environments, rather than in formal ambulatories or hospitals. Supporting such practices brings significant advantages to patients, their family, formal and informal caregivers, clinicians, and researchers. This paper presents a focus group with experts in physiotherapy and telerehabilitation, debating on the requirements, current techniques and technologies developed to facilitate and enhance the effectiveness of telerehabilitation, and the still open challenges. Particular emphasis is given to (i) the body-parts requiring the most rehabilitation, (ii) the typical environments, initial causes, and general conditions, (iii) the values and parameters to be observed, (iv) common errors and limitations of current practices and technological solutions, and (v) the envisioned and desired technological support. Consequently, it has been performed a systematic review of the state of the art, investigating what types of systems and support currently cope with telerehabilitation practices and possible matches with the outcomes of the focus group. Technological solutions based on video analysis, wearable devices, robotic support, distributed sensing, and gamified telerehabilitation are examined. Particular emphasis is given to solutions implementing agent-based approaches, analyzing and discussing strength, limitations, and future challenges. By doing so, it has been possible to relate functional requirements expressed by professional physiotherapists and researchers, with the need for extending multi-agent systems (MAS) peculiarities at the sensing level in wearable solutions establishing new research challenges. In particular, to be employed in safety-critical cyber-physical scenarios with user-sensor and sensor-sensor interactions, MAS are requested to handle timing constraints, scarcity of resources and new communication means, crucial to providing real-time feedback and coaching. Therefore, MAS pillars such as the negotiation protocol and the agent's internal scheduler have been investigated, proposing solutions to achieve the aforementioned real-time compliance.

2018

Trust in tourism via blockchain technology :

Chapitre de livre ArODES

results from a systematic review

Davide Calvaresi, Maxine Leis, Alevtina Dubovitskaya, Roland Schegg, Michael Schumacher

Dans Neidhardt, Julia, Pesonen, Juho, Information and Communication Technologies in Tourism 2019 : proceedings of the International Conference in Nicosia, Cyprus, January 30–February 1, 2019 (12 p.). 2018, Cham : Springer

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Résumé:

Trust-free and trust-regulated systems based on blockchain technology (BCT) are currently experiencing the maximum hype and promise to revolutionise entire domains. Tourism products (intangible services) are highly dependent on trust and reputation management that is traditionally centralised and delegated to “expected” reliable third-parties (e.g., TripAdvisor). Although BCT has only recently started approaching the tourism industry and being employed in real-world applications, the scientific community has already been extensively exploring the promises of BCT. Therefore, there is an impending need for organising and understanding current knowledge and formalise societal, scientific, and technological challenges of applying BCT in the tourism industry. This paper moves the first step, presenting a systematic scientific literature review of studies involving BCT for tourism purposes. Providing a comprehensive overview, actors, assumptions, requirements, strengths, and limitations characterising the state of the art are analysed. Finally, advantages and future challenges of applying BCT in the tourism area are discussed.

Multi-agent systems and blockchain :

Chapitre de livre ArODES

results from a systematic literature review

Davide Calvaresi, Alevtina Dubovitskaya, Jean-Paul Calbimonte, Kuldar Taveter, Michael Schumacher

Dans An, Bo, Bajo, Javier, Demazeau, Yves, Fernández-Caballero, Antonio, Advances in practical applications of agents, multi-agent systems, and complexity : the PAAMS collection : 16th International Conference, PAAMS 2018, Toledo, Spain, June 20–22, 2018, Proceedings (Pp. 110-126). 2018, Cham : Springer

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Résumé:

Multi-Agent Systems (MAS) technology is widely used for the development of intelligent distributed systems that manage sensitive data (e.g., ambient assisted living, healthcare, energy trading). To foster accountability and trusted interactions, recent trends advocate the use of blockchain technologies (BCT) for MAS. Although most of these approaches have only started exploring the topic, there is an impending need for establishing a research road-map, as well as identifying scientific and technological challenges in this scope. As a first necessary step towards this goal, this paper presents a systematic literature review of studies involving MAS and BCT as reconciling solutions. Aiming at providing a comprehensive overview of their application domains, we analyze motivations, assumptions, requirements, strengths, and limitations presented in the current state of the art. Moreover, discussing the future challenges, we introduce our vision on how MAS and BCT could be combined in different application scenarios.

MAXIM-GPRT :

Chapitre de livre ArODES

a simulator of local schedulers, negotiations, and communication for multi-agent systems in general-purpose and real-time scenarios

Giuseppe Albanese, Davide Calvaresi, Paolo Sernani, Fabien Dubosson, Aldo Franco Dragoni, Michael Schumacher

Dans An, Bo, Bajo, Javier, Demazeau, Yves, Fernández-Caballero, Antonio, Advances in practical applications of agents, multi-agent systems, and complexity : The PAAMS collection : 16th International Conference, PAAMS 2018, Toledo, Spain, June 20–22, 2018, Proceedings (Pp. 291-295). 2018, Cham : Springer

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Résumé:

In safety-critical scenarios, the compliance with strict-timing constraints is mandatory. This demo presents a simulator named MAXIM-GPRT enabling the analysis of the behaviors produced by Multi-Agent Systems (MAS) composed of both General-Purpose (GP) and Real-time (RT) algorithms. Therefore, MAXIM-GPRT is crucial to prove that current MAS cannot provide timing guarantees, nor guarantee correct behaviors in the worst case scenario. However, adopting and adapting models and algorithms from RT systems, such a compliance, can be achieved.

Multi-agent systems' negotiation protocols for cyber-physical systems :

Chapitre de livre ArODES

results from a systematic literature review

Davide Calvaresi, Kevin Appoggetti, Luca Lustrissimini, Mauro Marinori, Paolo Sernani, Aldo Franco Dragoni, Michael Schumacher

Dans Rocha, Ana Paula, Proceedings of the 10th International Conference on Agents and Artificial Intelligence (pp. 224-235). 2018, Setubal : SciTePress

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Résumé:

Cyber Physical Systems (CPS) require a multitude of components interacting among themselves and with the users to perform automatic actions, usually under unpredictable or uncertain conditions. Multi-Agent Systems (MAS) have emerged over the years as one of the major technological paradigms regulating interactions and negotiations among autonomous entities running under heterogeneous conditions. As such, MAS have the potential to support CPS in implementing a highly reconfigurable distributed thinking. However, some gaps are still present between MAS’ features and the strict requirements of CPS. The most relevant is the lack of reliability, which is mainly due to specific features characterizing negotiation protocols. This paper presents a systematic literature review of MAS negotiation protocols aiming at providing a comprehensive overview of their strengths and limitations, examining both the assumptions and requirements set during their development. While this work confirms the potential of MAS in regulating the interactions among CPS components, the findings also highlight the absence of real-time compliance in current negotiation protocols. Strongly characterizing CPS, the capability to face strict time constraints could bridge the gap between MAS and CPS.

2017

The MedRed ontology for representing clinical data acquisition metadata

Chapitre de livre ArODES

Jean-Paul Calbimonte, Fabien Dubosson, Roger Hilfiker, Alexandre Cotting, Michael Schumacher

The Semantic Web – ISWC 2017 : 16th International Semantic Web Conference, Vienna, Austria, October 21-25, 2017, Proceedings, Part II (pp. 38-47). 2017, Cham : Springer

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Résumé:

Electronic Data Capture (EDC) software solutions are progressively being adopted for conducting clinical trials and studies, carried out by biomedi-cal, pharmaceutical and health-care research teams. In this paper we present the MedRed Ontology, whose goal is to represent the metadata of these studies, using well-established standards, and reusing related vocabularies to describe essential aspects, such as validation rules, composability, or provenance. The paper de-scribes the design principles behind the ontology and how it relates to existing models and formats used in the industry. We also reuse well-known vocabularies and W3C recommendations. Furthermore, we have validated the ontology with ex-isting clinical studies in the context of the MedRed project, as well as a collection of metadata of well-known studies. Finally, we have made the ontology available publicly following best practices and vocabulary sharing guidelines.

Blockchain dans la eSanté :

Article scientifique ArODES

perspectives et une application pour le traitement quotidien

Alevtina Dubovitskaya, Zhigang Xu, Samuel Ryu, Michael Schumacher, Fusheng Wang

Swiss medical informatics,

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Résumé:

Electronic medical records (EMRs) are critical, highly sen-sitive private information in healthcare, and need to be frequently shared among peers. Blockchain provides a shared, immutable and transparent history of all the transactions to build applications with trustability, accountability and transparency. This provides a unique opportunity to develop a secure and trustable EMR data management and sharing system by using blockchain. We present our perspectives on blockchain-based health care data management. We implemented a framework for managing and sharing EMR data on cancer patient care that ensures privacy, security, availability, and fine-grained access control over EMR data.

COMPOSE :

Article scientifique ArODES

using temporal patterns for interpreting wearable sensor data with computer interpretable guidelines

V. Urovi, Oscar Alfonso Jiménez del Toro, Fabien Dubosson, A. Ruiz Torres, Michael Schumacher

Computers in biology and medicine, 2017, vol. 81, pp. 24-31

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Résumé:

This paper describes a novel temporal logic-based framework for reasoning with continuous data collected from wearable sensors. The work is motivated by the Metabolic Syndrome, a cluster of conditions which are linked to obesity and unhealthy lifestyle. We assume that, by interpreting the physiological parameters of continuous monitoring, we can identify which patients have a higher risk of Metabolic Syndrome. We define temporal patterns for reasoning with continuous data and specify the coordination mechanisms for combining different sets of clinical guidelines that relate to this condition. The proposed solution is tested with data provided by twenty subjects, which used sensors for four days of continuous monitoring. The results are compared to the gold standard. The novelty of the framework stands in extending a temporal logic formalism, namely the Event Calculus, with temporal patterns. These patterns are helpful to specify the rules for reasoning with continuous data and in combining new knowledge into one consistent outcome that is tailored to the patient's profile. The overall approach opens new possibilities for delivering patient-tailored interventions and educational material before the patients present the symptoms of the disease.

MedRed :

Article scientifique ArODES

a health-care data acquisition service for research purposes

Jean-Paul Calbimonte, Fabien Dubosson, Roger Hil?ker, Alexandre Cotting, Michael Schumacher

Swiss Medical Informatics, 2017, vol. 33, pp. 1-7

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Résumé:

Research in the health-care domain requires the collection of important and exhaustive datasets, in order to validate a scientific hypothesis, or to assess the effectiveness of a treatment, technology, medicine, or procedure. The data acquisition phase for this type of work requires an often under-estimated amount of time and effort, while needing to keep high quality standards for the entire process. Many of the tasks associated with data acquisition are often carried out manually, resulting in error-prone procedures, hand-transcription, inaccuracy, and time delays to produce a resulting usable dataset. This paper presents MedRed (Medical Research Data Acquisition Platform ), a platform and a service designed to facilitate the data acquisition process for researchers in the health-care do-main, using the REDCap software for data capture. This service is available in a first stage, for all scientists of the HES-SO (University of Applied Sciences and Arts Western Switzerland) schools in Switzerland, and partially supported by the SwissUniversities CUS-P2 program.

Going beyond the relapse peak on social network smoking cessation programmes :

Article scientifique ArODES

ChatBot opportunities

Fabien Dubosson, Roger Schaer, Roland Savioz, Michael Schumacher

Swiss medical informatics, 2017, vol. 33, 10 p.

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Résumé:

Research question: A social network programme called J’arrête de fumer was set up in 2016 in the six French-speaking cantons of Switzerland. It consists of Facebook groups where people agree on a date to quit smoking. A peak of relapse appears during the first three weeks of the programme. This research aims to explore the feasibility of building a Chatbot to help people to get over this peak in future iterations of the programme. Methods: It has been shown that the urge to smoke may be one of the reasons for relapses. Being able to distract users from the idea of smoking during these phases would help them to get through these three first weeks. Due to the large number of participants, a human intervention within the craving time frame is difficult to achieve, but such a constraint would be easier to overcome with ChatBots. Results: A ChatBot for the Telegram platform has been developed. It offers five different modules to overtake the time frame where the urge to smoke is greatest. Some of these modules, such as motivating comments and factual information, are already well used, but some others are less widely explored, like helping scientific research by classifying images or putting people in touch with each other as another form of distraction. Conclusion: ChatBots offer interesting opportunities for helping smoking cessation communities, as they would help participants during craving time frames and would be able to handle the large number of participants.

2016

Sensor monitoring of physical activity to improve glucose management in diabetic patients

Article scientifique ArODES

Sandrine Ding, Michael Schumacher

Sensors, 2016, vol. 16, no. 4, p. 589

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Résumé:

Diabetic individuals need to tightly control their blood glucose concentration. Several methods have been developed for this purpose, such as the finger-prick or continuous glucose monitoring systems (CGMs). However, these methods present the disadvantage of being invasive. Moreover, CGMs have limited accuracy, notably to detect hypoglycemia. It is also known that physical exercise, and even daily activity, disrupt glucose dynamics and can generate problems with blood glucose regulation during and after exercise. In order to deal with these challenges, devices for monitoring patients’ physical activity are currently under development. This review focuses on non-invasive sensors using physiological parameters related to physical exercise that were used to improve glucose monitoring in type 1 diabetes (T1DM) patients. These devices are promising for diabetes management. Indeed they permit to estimate glucose concentration either based solely on physical activity parameters or in conjunction with CGM or non-invasive CGM (NI-CGM) systems. In these last cases, the vital signals are used to modulate glucose estimations provided by the CGM and NI-CGM devices. Finally, this review indicates possible limitations of these new biosensors and outlines directions for future technologic developments.

An expert personal health system to monitor patients affected by gestational diabetes mellitus :

Article scientifique ArODES

a feasibility study

Stefano Bromuri, Serban Puricel, René Schumann, Johannes Krampf, Juan Ruiz, Michael Schumacher

Journal of ambient intelligence and smart environments, 2016, vol. 8, no. 2, pp. 219-237

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Résumé:

Purpose: Gestational Diabetes Mellitus (GDM) is a condition affecting 3-4% of pregnant women due to increased resistance to insulin caused by the growth of the fetus. Such a condition disappears just after delivery, but it is an indicator of the insurgence of diabetes type 2 (DT2) later in life: about 40% of the women affected by GDM also develop DT2 [22]. GDM brings several complications during pregnancy to both the mother and the fetus. We aim here at presenting our Personal Health System for monitoring GDM and we also present the results of outpatient monitoring and management by utilizing a personal health system (PHS) for GDM. Methods: The Personal Health System (PHS) was deployed in a feasibility study, modelled as a single-center, parallel group, open randomized controlled trial conducted in Lausanne University Hospital. Patients (n=24) were assigned to 2 different groups: standard protocol group (SP) and telemedicine group (TM). SP patients were managed by regular clinic visits. TM patients were managed with our EPHS system. The targeted feasibility outcome was whole trial feasibility, functioning of the PHS and its appropriateness for patient use. Results: Mean age was 325 years and patients were pregnant for 29.11.9 weeks at study inclusion. Patients came from 16 different countries. The follow-up rate was 100%. Acceptability in the TM-group was high, as 100% were satisfied with the care provided and equally 100% were at ease with the technology. Overall median[IQR] glucose control was 5.4 mmol/l [4.7-6.4] in the TM-group and 5.7mmol/l [4.9-6.7] in the SP-group (p<0.001). Four out of 6 daily plasma glucose values were significantly better controlled with telemedicine compared to standard care. Conclusion: The feasibility study that we conducted shows that PHSs have a great potential to improve the life of the patient by allowing a better communication of their physiological values to the caregivers. With respect to the particular case of GDM, the study suggests that use of PHS technology may improve glycaemic control in GDM, but to confirm this trend, a main trial is needed.

Processing diabetes mellitus composite events in MAGPIE

Article scientifique ArODES

Albert Brugues de la Torre, Stefano Bromuri, Michael Barry, OscarAlfonso Jiménez del Toro, Maciej Mazurkiewicz, Przemyslaw Kardas, Josep Pegueroles-Vallés, Michael Schumacher

Journal of medical systems, 2016, vol. 40, pp. 1-15

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Résumé:

Research focus: the focus of this research is in the definition of programmable expert Personal Health Systems (PHS) to monitor patients affected by chronic diseases using agent oriented programming and mobile computing to represent the interactions happening amongst the components of the system. The paper also discusses issues of knowledge representation within the medical domain when dealing with temporal patterns concerning the physiological values of the patient. Research method: in the presented agent based PHS the doctors can personalize for each patient monitoring rules that can be defined in a graphical way. Furthermore, to achieve better scalability, the computations for monitoring the patients are distributed among their devices rather than being performed in a centralized server. The system is evaluated using data of 21 diabetic patients to detect temporal patterns according to a set of monitoring rules defined. The system's scalability is evaluated by comparing it with a centralized approach. Results: The evaluation concerning the detection of temporal patterns highlights the system's ability to monitor chronic patients affected by diabetes. Regarding the scalability, the results show the fact that an approach exploiting the use of mobile computing is more scalable than a centralized approach. Therefore, more likely to satisfy the needs of next generation PHSs. Conclusions: PHSs are becoming an adopted technology to deal with the surge of patients affected by chronic illnesses. This paper discusses architectural choices to make an agent based PHS more scalable by using a distributed mobile computing approach. It also discusses how to model the medical knowledge in the PHS in such a way that it is modifiable at run time. The evaluation highlights the necessity of distributing the reasoning to the mobile part of the system and that modifiable rules are able to deal with the change in lifestyle of the patients affected by chronic illnesses.

2015

Performance comparison of multi-label learning algorithms on clinical data for chronic diseases

Article scientifique ArODES

Damien Zufferey, Thomas Hofer, Jean Hennebert, Michael Schumacher, Rolf Ingold, Stefano Bromuri

Computers in biology and medicine, October 2015, vol. 65, pp. 34–43

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Résumé:

We are motivated by the issue of classifying diseases of chronically ill patients to assist physicians in their everyday work. Our goal is to provide a performance comparison of state-of-the-art multi-label learning algorithms for the analysis of multivariate sequential clinical data from medical records of patients affected by chronic diseases. As a matter of fact, the multi-label learning approach appears to be a good candidate for modeling overlapped medical conditions, specific to chronically ill patients. With the availability of such comparison study, the evaluation of new algorithms should be enhanced. According to the method, we choose a summary statistics approach for the processing of the sequential clinical data, so that the extracted features maintain an interpretable link to their corresponding medical records. The publicly available MIMIC-II dataset, which contains more than 19,000 patients with chronic diseases, is used in this study. For the comparison we selected the following multi-label algorithms: ML-kNN, AdaBoostMH, binary relevance, classifier chains, HOMER and RAkEL. Regarding the results, binary relevance approaches, despite their elementary design and their independence assumption concerning the chronic illnesses, perform optimally in most scenarios, in particular for the detection of relevant diseases. In addition, binary relevance approaches scale up to large dataset and are easy to learn. However, the RAkEL algorithm, despite its scalability problems when it is confronted to large dataset, performs well in the scenario which consists of the ranking of the labels according to the dominant disease of the patient.

Leistungssteigerung von Patienten-Monitoring durch Compressive Sensing

Article scientifique ArODES

Thomas Hofer, Michael Schumacher, Stefano Bromuri

Swiss Medical Informatics, September 2015, vol.31, 5 p.

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Résumé:

Chronische Krankheiten die in den Formenkreis der Herz-Kreislauf-Erkrankungen gehören oder etwa die chronisch obstruktive Lungenerkrankung (COPD: Chronic Obstructive Pulmonary Disease) zählen zu den häufigsten Todesursachen weltweit. Oft kann der Fortschritt der Krankheit behandelt, aber nicht gestoppt werden, dazu ist eine strikte Einhaltung einer Therapie sowie eine kontinuierliche Überwachung der Vitalparameter notwendig. Dank der Entwicklung Mobiler Endgeräte und deren Evolution in den letzten Jahren kann eine dauerhafte Überwachung des Patienten ohne einen kostspieligen Krankenhausaufenthalt erfolgen. Dies führt im besten Fall zu einer Erhöhung aber zumindest zur Beibehaltung der Lebensqualität des Patienten ohne zu stark in den Alltag eingreifen zu müssen. COMPASS1 (COntinuous Multi-variate Monitoring of Patients Affected by chronic obstructive pulmonary diSeaSe) [1, 2] hat sich zum Ziel gesetzt, ein Personal Health System (PHS) [3, 4] zu entwickeln, dass kontinuierliches Messen von Vitalparametern, Komprimierung der Daten, Interoperabilität und Sicherheit mit einer Prognosekomponente vereint. Diese Publikation präsentiert einen Ansatz, welcher Interoperabilität mit Standards wie zum Beispiel HL7 und gleichermassen Datenkompression mittels Compressive Sensing [5] ermöglicht.

Current trends in interoperability, scalability and security of pervasive healthcare systems

Chapitre de livre ArODES

Albert Brugues de la Torre, Josep Pegueroles-Vallés, Stefano Bromuri, Michael Schumacher

Recent advances in ambient intelligence and context-aware computing (20 p.). 2015, Pennsylvania : IGI Global

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Résumé:

The development of pervasive healthcare systems consist on applying the ubiquitous computing in the healthcare context. The systems developed in this research field have the goals of offering better healthcare services, promoting well-being of the people and assist healthcare professionals in their tasks. The aim of the present work is to give an overview of the main research efforts in the area of pervasive healthcare systems, and to identify which are the main research challenges in this topic of research. Furthermore, we review the current state of the art for these kind of systems with respect some of the research challenges identified. In particular we focus on contributions done into interoperability, scalability and security of these systems.

2014

L’échange des données de santé entre hôpitaux et acteurs de la santé :

Article professionnel ArODES

le projet MediCoordination

Henning Müller, Sandrine Ding, Bruno Alves, David Godel, Omar Abou Khaled, Francois Mooser, Michael Schumacher

ASTRM actuel (Association Suisse es techniciens en radiologie médicales) - SVMTRA aktuell (Schweizerische Vereinigung der Fachleute für medizinisch technische Radiologie) - ASTRM attualità (Associazione Svizzera dei Tecnici di Radiologia Medica), Octobre 2014, pp. 18-23

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Résumé:

Le projet MediCoordination a permis de contribuer à la stratégie e-Health. L’e-Health est en plein essor en Suisse même si un gros effort devra encore être fourni en termes d’interopérabilité et de standardisation dans la mesure où le dossier patient informatisé est alimenté par des informations provenant d’un nombre considérable de services différents avec des standards tout aussi divers.

Multi-label classification of chronically ill patients with bag of words and supervised dimensionality reduction algorithms

Article scientifique ArODES

Michael Schumacher, Stefano Bromuri, Damien Zufferey, Jean Hennebert

Journal of biomedical informatics, octobre 2014, vol. 51, pp. 165-175

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Résumé:

Objective This research is motivated by the issue of classifying illnesses of chronically ill patients for decision support in clinical settings. Our main objective is to propose multi-label classification of multivariate time series contained in medical records of chronically ill patients, by means of quantization methods, such as bag of words (BoW), and multi-label classification algorithms. Our second objective is to compare supervised dimensionality reduction techniques to state-of-the-art multi-label classification algorithms. The hypothesis is that kernel methods and locality preserving projections make such algorithms good candidates to study multi-label medical time series. Methods We combine BoW and supervised dimensionality reduction algorithms to perform multi-label classification on health records of chronically ill patients. The considered algorithms are compared with state-of-the-art multi-label classifiers in two real world datasets. Portavita dataset contains 525 diabetes type 2 (DT2) patients, with co-morbidities of DT2 such as hypertension, dyslipidemia, and microvascular or macrovascular issues. MIMIC II dataset contains 2635 patients affected by thyroid disease, diabetes mellitus, lipoid metabolism disease, fluid electrolyte disease, hypertensive disease, thrombosis, hypotension, chronic obstructive pulmonary disease (COPD), liver disease and kidney disease. The algorithms are evaluated using multi-label evaluation metrics such as hamming loss, one error, coverage, ranking loss, and average precision. Results Non-linear dimensionality reduction approaches behave well on medical time series quantized using the BoW algorithm, with results comparable to state-of-the-art multi-label classification algorithms. Chaining the projected features has a positive impact on the performance of the algorithm with respect to pure binary relevance approaches. Conclusions The evaluation highlights the feasibility of representing medical health records using the BoW for multi-label classification tasks. The study also highlights that dimensionality reduction algorithms based on kernel methods, locality preserving projections or both are good candidates to deal with multi-label classification tasks in medical time series with many missing values and high label density.

2009

Le projet de développement de l’interopérabilité entre hôpitaux et fournisseurs de soins externes :

Article professionnel ArODES

MediCoordination

Sandrine Ding, Henning Müller, Bruno Alvesa, David Godel, Omar Abou Khaled, François Mooser, Michael Schumacher

Clinicum Romandie, 2009, vol. 1, p. 1-3

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2024

Explanation of deep learning models via logic rules enhanced by embeddings analysis, and probabilistic models

Conférence ArODES

Victor Contreras, Michael Schumacher, Davide Calvaresi

Explainable and Transparent AI and Multi-Agent Systems (EXTRAAMAS 2024)

PEOPLE@HES-SO Annuaire et Répertoire des compétences

Schumacher Michael Ignaz

Professeur-e HES Ordinaire

Compétences principales

Intelligent Agents

Artificial Intelligence (AI)

eHealth

Medical Informatics

Blockchain

Interoperability

Software Engineering

Professeur-e HES Ordinaire

PEOPLE@HES-SO
Annuaire et Répertoire des compétences