Edge Intelligence and Internet of Things in Healthcare: A Survey

With the advent of new technologies and the fast pace of human life, patients today require a sophisticated and advanced smart healthcare framework that is tailored to suit their individual health requirements. Along with 5G and state-of-the-art smart Internet of Things (IoT) sensors, edge computing provides intelligent, real-time healthcare solutions that satisfy energy consumption and latency criteria. Earlier surveys on smart healthcare systems were centered on cloud and fog computing architectures, security, and authentication, and the types of sensors and devices used in edge computing frameworks. They did not focus on the healthcare IoT applications deployed within edge computing architectures. The first purpose of this study is to analyze the existing and evolving edge computing architectures and techniques for smart healthcare and recognize the demands and challenges of different application scenarios. We examine edge intelligence that targets health data classification with the tracking and identification of vital signs using state-of-the-art deep learning techniques. This study also presents a comprehensive analysis of the use of cutting-edge artificial intelligence-based classification and prediction techniques employed for edge intelligence. Even with its many advantages, edge intelligence poses challenges related to computational complexity and security. To offer a higher quality of life to patients, potential research recommendations for improving edge computing services for healthcare are identified in this study. This study also offers a brief overview of the general usage of IoT solutions in edge platforms for medical treatment and healthcare.

[1]  Muhammad Ghulam,et al.  Deep Learning for EEG motor imagery classification based on multi-layer CNNs feature fusion , 2019, Future Gener. Comput. Syst..

[2]  Xiaofei Wang,et al.  Convergence of Edge Computing and Deep Learning: A Comprehensive Survey , 2019, IEEE Communications Surveys & Tutorials.

[3]  Niraj K. Jha,et al.  Smart Health Care: An Edge-Side Computing Perspective , 2018, IEEE Consumer Electronics Magazine.

[4]  Tao Zhang,et al.  Fog and IoT: An Overview of Research Opportunities , 2016, IEEE Internet of Things Journal.

[5]  Hyun Yoo,et al.  Edge computing health model using P2P-based deep neural networks , 2020, Peer Peer Netw. Appl..

[6]  Sandeep K. Sood,et al.  A Fog-Based Healthcare Framework for Chikungunya , 2018, IEEE Internet of Things Journal.

[7]  M. Shamim Hossain,et al.  Edge-CoCaCo: Toward Joint Optimization of Computation, Caching, and Communication on Edge Cloud , 2018, IEEE Wireless Communications.

[8]  F. Richard Yu,et al.  A Survey of Blockchain Technology Applied to Smart Cities: Research Issues and Challenges , 2019, IEEE Communications Surveys & Tutorials.

[9]  Wei Li,et al.  Edge cognitive computing based smart healthcare system , 2018, Future Gener. Comput. Syst..

[10]  Nei Kato,et al.  A Survey on Network Methodologies for Real-Time Analytics of Massive IoT Data and Open Research Issues , 2017, IEEE Communications Surveys & Tutorials.

[11]  Norio Shiratori,et al.  A Machine Learning Framework for Edge Computing to Improve Prediction Accuracy in Mobile Health Monitoring , 2019, ICCSA.

[12]  Tapani Ristaniemi,et al.  Multiobjective Optimization for Computation Offloading in Fog Computing , 2018, IEEE Internet of Things Journal.

[13]  Ram Shringar Raw,et al.  Vehicular Cloud and Fog Computing Architecture, Applications, Services, and Challenges , 2020 .

[14]  M. Shamim Hossain,et al.  Software defined healthcare networks , 2015, IEEE Wireless Communications.

[15]  Mingzhe Jiang,et al.  Exploiting smart e-Health gateways at the edge of healthcare Internet-of-Things: A fog computing approach , 2018, Future Gener. Comput. Syst..

[16]  Weihua Sheng,et al.  Delivering home healthcare through a Cloud-based Smart Home Environment (CoSHE) , 2018, Future Gener. Comput. Syst..

[17]  M. Shamim Hossain,et al.  Audio-visual emotion recognition using multi-directional regression and Ridgelet transform , 2016, Journal on Multimodal User Interfaces.

[18]  H. Tenhunen,et al.  Edge-AI in LoRa-based Health Monitoring: Fall Detection System with Fog Computing and LSTM Recurrent Neural Networks , 2019, 2019 42nd International Conference on Telecommunications and Signal Processing (TSP).

[19]  M. Shamim Hossain,et al.  AI-Powered Green Cloud and Data Center , 2019, IEEE Access.

[20]  Javier Bajo,et al.  Monitoring and Detection Platform to Prevent Anomalous Situations in Home Care , 2014, Sensors.

[21]  Raúl Aquino-Santos,et al.  WiSPH: A Wireless Sensor Network-Based Home Care Monitoring System , 2014, Sensors.

[22]  Gaurav Sharma,et al.  A Survey of Healthcare Internet of Things (HIoT): A Clinical Perspective , 2020, IEEE Internet of Things Journal.

[23]  M. Shamim Hossain,et al.  Explainable AI and Mass Surveillance System-Based Healthcare Framework to Combat COVID-I9 Like Pandemics , 2020, IEEE Network.

[24]  Ghulam Muhammad,et al.  Automatic Fruit Classification Using Deep Learning for Industrial Applications , 2019, IEEE Transactions on Industrial Informatics.

[25]  Ivan Glesk,et al.  A Practical Design and Implementation of a Low Cost Platform for Remote Monitoring of Lower Limb Health of Amputees in the Developing World , 2016, IEEE Access.

[26]  M. Shamim Hossain,et al.  Cognitive Smart Healthcare for Pathology Detection and Monitoring , 2019, IEEE Access.

[27]  Mehdi Bennis,et al.  Wireless Network Intelligence at the Edge , 2018, Proceedings of the IEEE.

[28]  Kyung-Sup Kwak,et al.  The Internet of Things for Health Care: A Comprehensive Survey , 2015, IEEE Access.

[29]  Wu He,et al.  Developing Vehicular Data Cloud Services in the IoT Environment , 2014, IEEE Transactions on Industrial Informatics.

[30]  M. A. Reyna,et al.  AutoTriage - An Open Source Edge Computing Raspberry Pi-based Clinical Screening System , 2020, medRxiv.

[31]  Frédéric Andrès,et al.  Machine Learning on Mobile: An On-device Inference App for Skin Cancer Detection , 2019, 2019 Fourth International Conference on Fog and Mobile Edge Computing (FMEC).

[32]  M. Shamim Hossain,et al.  COVID-19 Networking Demand: An Auction-Based Mechanism for Automated Selection of Edge Computing Services , 2020, IEEE Transactions on Network Science and Engineering.

[33]  Muhammad Mahtab Alam,et al.  A Survey on the Roles of Communication Technologies in IoT-Based Personalized Healthcare Applications , 2018, IEEE Access.

[34]  M. Shamim Hossain,et al.  Green Video Transmission in the Mobile Cloud Networks , 2017, IEEE Transactions on Circuits and Systems for Video Technology.

[35]  Sandeep K. Sood,et al.  An intelligent and secure system for predicting and preventing Zika virus outbreak using Fog computing , 2017, Enterp. Inf. Syst..

[36]  M. Shamim Hossain,et al.  Smart-Edge-CoCaCo: AI-Enabled Smart Edge with Joint Computation, Caching, and Communication in Heterogeneous IoT , 2019, IEEE Network.

[37]  Athanasios V. Vasilakos,et al.  The Future of Healthcare Internet of Things: A Survey of Emerging Technologies , 2020, IEEE Communications Surveys & Tutorials.

[38]  M. Shamim Hossain,et al.  Edge Intelligence in the Cognitive Internet of Things: Improving Sensitivity and Interactivity , 2019, IEEE Network.

[39]  Mahdi H. Miraz,et al.  A review on Internet of Things (IoT), Internet of Everything (IoE) and Internet of Nano Things (IoNT) , 2015, 2015 Internet Technologies and Applications (ITA).

[40]  EMMA VILLENEUVE,et al.  Reconstruction of Angular Kinematics From Wrist-Worn Inertial Sensor Data for Smart Home Healthcare , 2017, IEEE Access.

[41]  Ahmed Ghoneim,et al.  Secure Quantum Steganography Protocol for Fog Cloud Internet of Things , 2018, IEEE Access.

[42]  M. Shamim Hossain,et al.  Multilevel Weighted Feature Fusion Using Convolutional Neural Networks for EEG Motor Imagery Classification , 2019, IEEE Access.

[43]  Qing Yang,et al.  Fog Data: Enhancing Telehealth Big Data Through Fog Computing , 2015, ASE BD&SI.

[44]  Matthias Eberl,et al.  Cloud, fog and edge: Cooperation for the future? , 2017, 2017 Second International Conference on Fog and Mobile Edge Computing (FMEC).

[45]  M. Shamim Hossain,et al.  Towards context-sensitive collaborative media recommender system , 2014, Multimedia Tools and Applications.

[46]  Sanjay Modgil,et al.  Reasoning about preferences in argumentation frameworks , 2009, Artif. Intell..

[47]  Vinod Vokkarane,et al.  A New Deep Learning-Based Food Recognition System for Dietary Assessment on An Edge Computing Service Infrastructure , 2018, IEEE Transactions on Services Computing.

[48]  M. Shamim Hossain,et al.  Cyber-physical cloud-oriented multi-sensory smart home framework for elderly people: An energy efficiency perspective , 2017, J. Parallel Distributed Comput..

[49]  Xinyu Yang,et al.  A Survey on the Edge Computing for the Internet of Things , 2018, IEEE Access.

[50]  Ashish Jasuja,et al.  Health monitoring based on IoT using Raspberry PI , 2017, 2017 International Conference on Computing, Communication and Automation (ICCCA).

[51]  M. Shamim Hossain,et al.  EEG-Based Pathology Detection for Home Health Monitoring , 2021, IEEE Journal on Selected Areas in Communications.

[52]  M. Shamim Hossain,et al.  Data Interoperability and Multimedia Content Management in e-Health Systems , 2012, IEEE Transactions on Information Technology in Biomedicine.

[53]  Ehsan Adeli,et al.  Deep Relative Attributes , 2015, ACCV.

[54]  Andrea Pazienza,et al.  Towards a Digital Future: an Innovative Semantic IoT Integrated Platform for Industry 4.0, Healthcare, and Territorial Control , 2019, 2019 IEEE International Conference on Systems, Man and Cybernetics (SMC).

[55]  Shailaja C. Patil,et al.  Internet of Things: A survey of enabling technologies in healthcare and its applications , 2019, Comput. Networks.

[56]  Neeraj Kumar,et al.  Fog computing for Healthcare 4.0 environment: Opportunities and challenges , 2018, Comput. Electr. Eng..

[57]  Md. Zia Uddin A wearable sensor-based activity prediction system to facilitate edge computing in smart healthcare system , 2019, J. Parallel Distributed Comput..

[58]  Emine Dogru Bolat,et al.  Measuring ECG Signal Using e-Health Sensor Platform , .

[59]  Muhammad Ghulam,et al.  Smart Health Solution Integrating IoT and Cloud: A Case Study of Voice Pathology Monitoring , 2017, IEEE Communications Magazine.

[60]  Mohamed Abdel-Basset,et al.  A Novel Intelligent Medical Decision Support Model Based on Soft Computing and IoT , 2020, IEEE Internet of Things Journal.

[61]  Ghulam Muhammad,et al.  An Automatic Health Monitoring System for Patients Suffering From Voice Complications in Smart Cities , 2017, IEEE Access.

[62]  M. Shamim Hossain,et al.  Cloud-Based Collaborative Media Service Framework for HealthCare , 2014, Int. J. Distributed Sens. Networks.

[63]  Pierluigi Ritrovato,et al.  Trends in IoT based solutions for health care: Moving AI to the edge , 2020, Pattern Recognition Letters.

[64]  Natalia Kryvinska,et al.  Studying usability of AI in the IoT systems/paradigm through embedding NN techniques into mobile smart service system , 2018, Computing.

[65]  Logesh Ravi,et al.  Fog-assisted personalized healthcare-support system for remote patients with diabetes , 2019, J. Ambient Intell. Humaniz. Comput..

[66]  Udit Satija,et al.  Real-Time Signal Quality-Aware ECG Telemetry System for IoT-Based Health Care Monitoring , 2017, IEEE Internet of Things Journal.

[67]  Muhammad Ghulam,et al.  Medical Image Forgery Detection for Smart Healthcare , 2018, IEEE Communications Magazine.

[68]  S. Oniga,et al.  Automated system for evaluating health status , 2013, 2013 IEEE 19th International Symposium for Design and Technology in Electronic Packaging (SIITME).

[69]  M. Shamim Hossain,et al.  Artificial-Intelligence-Based Data Analytics for Cognitive Communication in Heterogeneous Wireless Networks , 2019, IEEE Wireless Communications.

[70]  Zheng Chang,et al.  Socially Aware Dynamic Computation Offloading Scheme for Fog Computing System With Energy Harvesting Devices , 2018, IEEE Internet of Things Journal.

[71]  Pierluigi Ritrovato,et al.  An edge-stream computing infrastructure for real-time analysis of wearable sensors data , 2019, Future Gener. Comput. Syst..

[72]  M. Shamim Hossain,et al.  Emotion-Aware Connected Healthcare Big Data Towards 5G , 2018, IEEE Internet of Things Journal.

[73]  M. Shamim Hossain,et al.  B5G and Explainable Deep Learning Assisted Healthcare Vertical at the Edge: COVID-I9 Perspective , 2020, IEEE Network.

[74]  Kayhan Zrar Ghafoor,et al.  A Novel AI-enabled Framework to Diagnose Coronavirus COVID-19 using Smartphone Embedded Sensors: Design Study , 2020, 2020 IEEE 21st International Conference on Information Reuse and Integration for Data Science (IRI).

[75]  M. Shamim Hossain,et al.  Cognitive IoT-Cloud Integration for Smart Healthcare: Case Study for Epileptic Seizure Detection and Monitoring , 2018, Mob. Networks Appl..

[76]  M. Shamim Hossain,et al.  Cloud-assisted Industrial Internet of Things (IIoT) - Enabled framework for health monitoring , 2016, Comput. Networks.

[77]  M. Shamim Hossain,et al.  Applying Deep Learning for Epilepsy Seizure Detection and Brain Mapping Visualization , 2019, ACM Trans. Multim. Comput. Commun. Appl..

[78]  Rabindra Kumar Barik,et al.  DeepFog: Fog Computing-Based Deep Neural Architecture for Prediction of Stress Types, Diabetes and Hypertension Attacks , 2018, Comput..

[79]  Arijit Mukherjee,et al.  Offloaded Execution of Deep Learning Inference at Edge: Challenges and Insights , 2019, 2019 IEEE International Conference on Pervasive Computing and Communications Workshops (PerCom Workshops).

[80]  N. Arunkumar,et al.  Enabling technologies for fog computing in healthcare IoT systems , 2019, Future Gener. Comput. Syst..

[81]  Ghulam Muhammad,et al.  Automatic Seizure Detection in a Mobile Multimedia Framework , 2018, IEEE Access.

[82]  Marc'Aurelio Ranzato,et al.  Large Scale Distributed Deep Networks , 2012, NIPS.

[83]  Antonio Puliafito,et al.  Blockchain and IoT Integration: A Systematic Survey , 2018, Sensors.

[84]  Xu Chen,et al.  In-Edge AI: Intelligentizing Mobile Edge Computing, Caching and Communication by Federated Learning , 2018, IEEE Network.

[85]  Antonio Pescapè,et al.  The role of Information and Communication Technologies in healthcare: taxonomies, perspectives, and challenges , 2018, J. Netw. Comput. Appl..

[86]  Mohsen Guizani,et al.  Internet of Things: A Survey on Enabling Technologies, Protocols, and Applications , 2015, IEEE Communications Surveys & Tutorials.

[87]  Abbes Amira,et al.  Empowering Technology Enabled Care Using IoT and Smart Devices: A Review , 2018, IEEE Sensors Journal.

[88]  Musaed Alhussein,et al.  Voice Pathology Detection Using Deep Learning on Mobile Healthcare Framework , 2018, IEEE Access.

[89]  C. Kruse,et al.  Challenges and Opportunities of Big Data in Health Care: A Systematic Review , 2016, JMIR medical informatics.

[90]  M. Shamim Hossain,et al.  Improving consumer satisfaction in smart cities using edge computing and caching: A case study of date fruits classification , 2018, Future Gener. Comput. Syst..

[91]  Ghulam Muhammad,et al.  Formant analysis in dysphonic patients and automatic Arabic digit speech recognition , 2011, Biomedical engineering online.

[92]  David C. Klonoff,et al.  Fog Computing and Edge Computing Architectures for Processing Data From Diabetes Devices Connected to the Medical Internet of Things , 2017, Journal of diabetes science and technology.

[93]  Omar S. Alwan,et al.  Dedicated real-time monitoring system for health care using ZigBee , 2017, Healthcare technology letters.

[94]  Umair Sajid Hashmi,et al.  Edge computing in smart health care systems: Review, challenges, and research directions , 2019, Trans. Emerg. Telecommun. Technol..

[95]  Athanasios V. Vasilakos,et al.  The role of big data analytics in Internet of Things , 2017, Comput. Networks.

[96]  Haeng-Kon Kim,et al.  From Cloud to Fog and IoT-Based Real-Time U-Healthcare Monitoring for Smart Homes and Hospitals , 2016 .

[97]  Ali Selamat,et al.  Recent Advances on Fog Health - A Systematic Literature Review , 2018, New Trends in Software Methodologies, Tools and Techniques.

[98]  Amr Mohamed,et al.  Edge Computing for Smart Health: Context-Aware Approaches, Opportunities, and Challenges , 2019, IEEE Network.