Author Contributions:
Conceptualization, S.C.; methodology, S.C.; software, G.C. and A.S.; valida-
tion, S.C., G.C. and A.S.; investigation, S.C.; resources, S.C.; writing—original draft preparation, G.C.
and A.S.; writing—review and editing, S.C.; supervision, S.C.; project administration, S.C.; funding
acquisition, S.C. All authors have read and agreed to the published version of the manuscript.
Funding:
This research was funded by the Sicilian region (Italy), within the European Regional
Development (P.O. FESR 2014–2020 line 1.1.5). The research results presented in this paper have been
achieved inside the PASCAL project (Enabling platform for commercial services for the aggregate
management of resources in the electric system), CUP G79J18000690007.
Institutional Review Board Statement:
Not applicable.
Informed Consent Statement:
Not applicable.
Data Availability Statement:
Not applicable.
Conflicts of Interest:
The authors declare no conflict of interest.
Sensors
2022
,
22
, 2475
16 of 17
References
1.
Alotaibi, I.; Abido, M.A.; Khalid, M.; Savkin, A.V. A comprehensive review of recent advances in smart grids: A sustainable
future with renewable energy resources.
Energies
2020
,
13
, 6269. [
CrossRef
]
2.
Mehigan, L.; Deane, J.P.; Gallach
ó
ir, B.P.
Ó
.; Bertsch, V. A review of the role of distributed generation (DG) in future electricity
systems.
Energy
2018
,
163
, 822–836. [
CrossRef
]
3.
Shi, Y.; Tuan, H.D.; Duong, T.Q.; Poor, H.V.; Savkin, A.V. PMU placement optimization for efficient state estimation in smart grid.
IEEE J. Sel. Areas Commun.
2020
,
38
, 71–83. [
CrossRef
]
4.
Xu, L.; Yu, X.; Gulliver, T.A. Intelligent outage probability prediction for mobile IoT networks based on an IGWO-Elman neural
network.
IEEE Trans. Veh. Technol.
2021
,
70
, 1365–1375. [
CrossRef
]
5.
Hassan, R.; Qamar, F.; Hasan, M.K.; Aman, A.H.M.; Ahmed, A.S. Internet of Things and its applications: A comprehensive survey.
Symmetry
2020
,
12
, 1674. [
CrossRef
]
6.
Bader, S.R.; Maleshkova, M. SOLIOT—Decentralized data control and interactions for IoT.
Future Internet
2020
,
12
, 105. [
CrossRef
]
7.
Lu, Y. Industry 4.0: A survey on technologies, applications and open research issues.
J. Ind. Inf. Integr.
2017
,
6
, 1–10. [
CrossRef
]
8.
Cotrino, A.; Sebasti
á
n, M.A.; Gonz
á
lez-Gaya, G. Industry 4.0 Roadmap: Implementation for small and medium-sized enterprises.
Appl. Sci.
2020
,
10
, 8566. [
CrossRef
]
9.
Internet Engineering Task Force. XMPP RFC 3920. Available online:
https://xmpp.org/rfcs/rfc3920.html
(accessed on 4
March 2022).
10.
OASIS. MQTT Specification. Vers.3.1.1. Available online:
https://mqtt.org/mqtt-specification/
(accessed on 4 March 2022).
11.
International Organization for Standardization.
20922: Information Technology—Message Queuing Telemetry Transport (MQTT)
; ISO:
Geneva, Switzerland, 2016.
12.
Fielding, R.T. Architectural Styles and the Design of Network-Based Software Architectures. Ph.D. Dissertation, Dept. Information
and Computer Science, University of California, Irvine, CA, USA, 2000. Available online:
http://www.ics.uci.edu/~{}fielding/
pubs/dissertation/top.htm
(accessed on 4 March 2022).
13.
Richardson, L.; Ruby, S.
RESTful Web Services
; O’Reilly: Sebastopol, CA, USA, 2007.
14.
Benomar, Z.; Longo, F.; Merlino, G.; Puliafito, A. Enabling Secure RESTful Web Services in IoT using OpenStack. In Proceedings
of IEEE 17th International Conference on Mobile Ad Hoc and Sensor Systems (MASS), Delhi, India, 10–13 December 2020.
15.
International Electrotechnical Commission.
IEC 61850: Communication Networks and Systems for Power Utility Automation
; IEC
Standards, Parts 1–10, Edition 2.0; International Electrotechnical Commission (IEC): Geneva, Switzerland, 2011.
16.
Falk, H.
IEC 61850 Demystified
; Artech House: Norwood, MA, USA, 2019; ISBN 978-1-63081-329-1.
17.
Reka, S.S.; Dragicevic, T. Future effectual role of energy delivery: A comprehensive review of Internet of Things and smart grid.
Renew. Sustain. Energy Rev.
2018
,
91
, 90–108. [
CrossRef
]
18.
Al-Turjman, F.; Abujubbeh, M. IoT-enabled smart grid via SM: An overview.
Future Gener. Comput. Syst.
2019
,
96
, 579–590.
[
CrossRef
]
19.
Cavalieri, S. Semantic Interoperability between IEC 61850 and oneM2M for IoT-Enabled Smart Grids.
Sensors
2021
,
21
, 2571.
[
CrossRef
] [
PubMed
]
20.
Cavalieri, S.; Regalbuto, A. Integration of IEC 61850 SCL and OPC UA to improve interoperability in Smart Grid environment.
Comput. Stand. Interfaces
2016
,
47
, 77–99. [
CrossRef
]
21.
Tightiz, L.; Yang, H. A comprehensive review on IoT protocols’ features in smart grid communication.
Energies
2020
,
13
, 2762.
[
CrossRef
]
22.
Shin, I.-J.; Song, B.-K.; Eom, D.-S. Auto-mapping and configuration method of IEC 61850 information model based on OPC UA.
Energies
2016
,
9
, 901. [
CrossRef
]
23.
Ustun, T.S.; Suhail Hussain, S.M.S. IEC 61850 Modeling of UPFC and XMPP communication for power management in microgrids.
IEEE Access
2020
,
8
, 141696–141704. [
CrossRef
]
24.
Jun, H.-J.; Yang, H.-S. Performance of the XMPP and the MQTT Protocols on IEC 61850-Based Micro Grid Communication
Architecture.
Energies
2021
,
14
, 5024. [
CrossRef
]
25.
Urkia, M.I.; Casado-Mansilla, D.; Mayer, S.; Bilbao, J.; Urbieta, A. Integrating electrical substations within the IoT using IEC 61850,
CoAP and CBOR.
IEEE Internet Things J.
2018
,
14
, 8.
26.
Pedersen, A.B.; Hauksson, E.B.; Andersen, P.B.; Poulsen, B.; Træholt, C.; Gantenbein, D. Facilitating a Generic Communication
Interface to Distributed Energy Resources: Mapping IEC 61850 to RESTful Services. In Proceedings of the First IEEE International
Conference on Smart Grid Communications, Gaithersburg, MD, USA, 4–6 October 2010.
27.
Garg, H.; Dave, M. Securing IoT Devices and Securely Connecting the Dots Using REST API and Middleware. In Proceedings of
the 4th International Conference on Internet of Things: Smart Innovation and Usages (IoT-SIU), Ghaziabad, India, 18–19 April
2019; pp. 1–6. [
CrossRef
]
28.
Maurya, R.; Nambiar, K.A.; Babbe, P.; Kalokhe, J.P.; Ingle, Y.S.; Shaikh, N.F. Application of Restful APIs in IOT: A Review.
Int. J.
Res. Appl. Sci. Eng. Technol.
2021
,
9
, 145–151. [
CrossRef
]
29.
Internet Engineering Task Force. JSON Web Token, RFC 7519. Available online:
https://tools.ietf.org/html/rfc7519.
(accessed on
4 March 2022).
30.
Spring Boot. 2021. Available online:
https://spring.io/
(accessed on 4 March 2022).
31.
IEC61850bean. Available online:
https://www.beanit.com/iec-61850/
(accessed on 4 March 2022).
Sensors
2022
,
22
, 2475
17 of 17
32.
JSON. Encoders/Decoders in Java. Available online:
https://mvnrepository.com/artifact/org.json/json/20190722
(accessed on 4
March 2022).
33.
XAMPP. Available online:
https://www.apachefriends.org/index.html
(accessed on 4 March 2022).
34.
Mosquitto. Available online:
https://mosquitto.org/
(accessed on 4 March 2022).
35.
Paho. Available online:
https://www.eclipse.org/paho/index.php?page=clients/java/index.php
(accessed on 4 March 2022).
36.
Lee, S.; Jo, J.; Kim, Y. Method for secure RESTful web service. In Proceedings of the IEEE/ACIS 14th International Conference on
Computer and Information Science (ICIS), Las Vegas, NV, USA, 28 June–1 July 2015; pp. 77–81. [
CrossRef
]
37.
Lee, S.; Jo, J.; Kim, Y. Authentication System for Stateless RESTful Web Service.
J. Comput. Methods Sci. Eng.
2017
,
17
(Suppl. S1),
S21–S34. [
CrossRef
]
38.
Mouli, V.R.; Jevitha, K.P. Web Services Attacks and Security- A Systematic Literature Review.
Procedia Comput. Sci.
2016
,
93
,
870–877. [
CrossRef
]
Document Outline - Introduction
- Related Work
- IEC 61850 Data Model
- IEC61850 Web Platform
- Definition of a Syntax for the Web User
- Web User Registration and Authentication
- Access to an IEC61850 Server
- Publication of Data Types
- Publications of Values
- Updating Values in the IEC 61850 Server
- Software Implementation
- Final Remarks
- References
|
