SLR-Paper-ID;Title;Author;Year
A1;A Mobile Multi-Technology Gateway to Enable IoT Interoperability;Aloi et al.;2016
A2;A Patient-Centric Healthcare Framework Reference Architecture for Better Semantic Interoperability Based on Blockchain, Cloud, and IoT;Gohar et al.;2022
A3;A self-aware systems approach for interoperability in IoT ecosystems;Kramer et al.;2019
A4;A Sustainable Solution for IoT Semantic Interoperability: Dataspaces Model via Distributed Approaches;Lu et al.;2022
A5;A Translator as Virtual Network Function for Network Level Interoperability of Different IoT Technologies;Arzo et al.;2021
A6;AIoTES: Setting the principles for semantic interoperable and modern IoT-enabled reference architecture for Active and Healthy Ageing ecosystems;Valero et al.;2021
A7;An IoT multi-protocol strategy for the interoperability of distinct communication protocols applied to web of things;Barros et al.;2019
A8;An IoT-DaaS Approach for the Interoperability of Heterogeneous Sensor Data Sources;Barros et al.;2018
A9;Automated synthesis of mediators for middleware-layer protocol interoperability in the IoT;Bouloukakis et al.;2019
A10;Blockchain-of-blockchains: An interoperable blockchain platform for ensuring IoT data integrity in smart city;Rahman et al.;2022
A11;Cloud-Fog Interoperability in IoT-enabled Healthcare Solutions;Mahmud et al.;2018
A12;Context Interoperability for IoT Through an Edge-Centric Context Sharing Architecture;de Matos et al.;2018
A13;Cyber Physical Systems and IoT: Architectural Practices, Interoperability, and Transformation;Fatima et al.;2020
A14;Developing an Architecture for IoT Interoperability in Healthcare: A Case Study of Real-time SpO2 Signal Monitoring and Analysis;Nguyen et al.;2020
A15;Do we want the New Old Internet?: Towards Seamless and Protocol-Independent IoT Application Interoperability;Safronov et al.;2021
A16;Enabling data interoperability for federated IoT experimentation infrastructures;Kalatzis et al.;2018
A17;Enabling IoT interoperability through opportunistic smartphone-based mobile gateways;Aloi et al.;2017
A18;Energy and interoperable aware routing for throughput optimization in clustered IoT-wireless sensor networks;Shah et al.;2018
A19;HeDI: Healthcare Device Interoperability for IoT-Based e-Health Platforms;Pathak et al.;2021
A20;Hub-OS: An interoperable IoT computing platform for resources utilization with real-time support;Abdelqawy et al.;2022
A21;Interoperability and Scalability Trade-offs in Open IoT Platforms;Ottolini et al.;2022
A22;Interoperability in Open IoT Platforms: WoT-FIWARE Comparison and Integration;Zyrianoff et al.;2021
A23;IoT interoperability for actuating applications through standardised M2M communications;Pereira et al.;2016
A24;IoT Interoperability-On-Demand and Low Latency Transparent Multiprotocol Translator;Derhamy et al.;2017
A25;IoTexpert: Interconnection, Interoperability and Integration of IoT Platforms;Geetanjali et al.;2019
A26;Microservice based scalable IoT architecture for device interoperability;Rath et al.;2023
A27;Middleware for Network Interoperability in IoT;Pramukantoro et al.;2018
A28;Model-Based Interoperability IoT Hub for the Supervision of Smart Gas Distribution Networks;Ahmed et al.;2019
A29;Performance evaluation of IoT middleware for syntactical Interoperability;Pramukantoro et al.;2017
A30;Resource identifier interoperability among heterogeneous IoT platforms;Koo et al.;2022
A31;Scalable and interoperable edge-based federated learning in IoT contexts;Campolo et al.;2023
A32;Secure Semantic Interoperability for IoT Applications with Linked Data;Hatzivasilis et al.;2019
A33;Supporting IoT semantic interoperability with autonomic computing;Lam et al.;2018
A34;The Integration of LwM2M and OPC UA: An Interoperability Approach for Industrial IoT;Karaagac et al.;2019
A35;The Interoperability of Things: Interoperable solutions as an enabler for IoT and Web 3.0;Hatzivasilis et al.;2018
A36;Towards Achieving Semantic Interoperability in an IoT-enabled Smart Campus;Nagowah et al.;2019
A37;Towards Interoperability of Entity-Based and Event-Based IoT Platforms: The Case of NGSI and EPCIS Standards;Tolcha et al.;2021
A38;User Interoperability With Heterogeneous IoT Devices Through Transformation;Xiao et al.;2014
A39;Validation of Semantic Interoperability between IoT Platforms;Lakka et al.;2020
A40;A proxy framework for API interoperability in the Internet of Things;Asano et al.;2016
A41;An applications interoperability model for heterogeneous internet of things environments;Vinob chander et al.;2017
A42;Autonomic interoperability manager: A service-oriented architecture for full-stack interoperability in the Internet-of-Things;Jaleel et al.;2022
A43;Cross-Chain Interoperability and Collaboration for Keyword-Based Embedded Smart Contracts in the Internet of Things;Zhang et al.;2023
A44;Deep learning based self-adaptive framework for environmental interoperability in internet of things;Lee et al.;2022
A45;Industrial Internet of Things Interoperability Between OPC UA and OneM2M;Lai et al.;2019
A46;Interoperable access framework for internet of things backhauled heterogeneous applications;Alsolami et al.;2021
A47;MEC-based architecture for interoperable and trustworthy internet of moving things;Sanchez-Gomez et al.;2023
A48;Semantic Interoperability Architecture for Pervasive Computing and Internet of Things;Kiljander et al.;2014
A49;Semantic Web of Musical Things: Achieving interoperability in the Internet of Musical Things;Turchet et al.;2023
A50;Towards an interoperable Internet of Things through a web of virtual things at the Fog layer;Negash et al.;2019