Authors :
Mouachi Raja; Remmach Hassnae; Fatima Gharnati; Mustapha Raoufi
Volume/Issue :
Volume 8 - 2023, Issue 11 - November
Google Scholar :
https://tinyurl.com/9h7d36hf
Scribd :
https://tinyurl.com/yc3hpuhd
DOI :
https://doi.org/10.5281/zenodo.10276625
Abstract :
The DC Smart micro-grid (DC-SM)
communication network with proper connectivity
among DC-SM resources is play important role to
maintain a stability and reliability of the DC-SM.
Application of suitable communication network and
protocol and highlighted the best security measurement
is one of the elements to achieve those broad objectives.
To secure the communication network and protocol,
many security approaches is proposed. In this paper, a
review of DC-SM communication and its security is
shown and future direction of communication network
and protocol with its security also provided. Many
cryptographic algorithms have been developed to
maintain the security and integrity of the data of DC-
SM. This paper proposes a secure and optimized
scheme for sharing data while maintaining data security
and integrity over the S-MG. The improved hybrid
cryptography technique is ideal for secure S-MGs
communication due to the speed of operation and
higher degree of security that it offers. The objective of
this paper is to develop an enhanced technique That
mainly functions by combining the Menzes-Vanstone
Elliptic Curve Cryptosystem (MV-ECC) and the 128-bit
Advanced Encryption Standard (AES) method to
ensure authentication and data integrity. This new
technique exploits the advantages of the symmetric and
asymmetric cryptographic techniques. Moreover, we
have modelled the proposed approach by using the
multi-agent system (M-A-S), to manage the complexity
of different process. The present work proposed a
hybrid algorithm for DC-SM architecture. The MV-
ECC-AES algorithm improves the performance of the
encryption algorithms, since it encrypts the data in a
minimum time and in a secure way. The proposed
algorithm is much secured than 128-AES for DC-SM
and less resource and time consuming than MV-ECC.
Keywords :
DC Smart Microgrid; Security, Cryptography; Advanced Encryption Standard (AES); Menzes-Vanstone Elliptic Curve Cryptosystem (MV-ECC); Multi-Agent System (M-A-S).
The DC Smart micro-grid (DC-SM)
communication network with proper connectivity
among DC-SM resources is play important role to
maintain a stability and reliability of the DC-SM.
Application of suitable communication network and
protocol and highlighted the best security measurement
is one of the elements to achieve those broad objectives.
To secure the communication network and protocol,
many security approaches is proposed. In this paper, a
review of DC-SM communication and its security is
shown and future direction of communication network
and protocol with its security also provided. Many
cryptographic algorithms have been developed to
maintain the security and integrity of the data of DC-
SM. This paper proposes a secure and optimized
scheme for sharing data while maintaining data security
and integrity over the S-MG. The improved hybrid
cryptography technique is ideal for secure S-MGs
communication due to the speed of operation and
higher degree of security that it offers. The objective of
this paper is to develop an enhanced technique That
mainly functions by combining the Menzes-Vanstone
Elliptic Curve Cryptosystem (MV-ECC) and the 128-bit
Advanced Encryption Standard (AES) method to
ensure authentication and data integrity. This new
technique exploits the advantages of the symmetric and
asymmetric cryptographic techniques. Moreover, we
have modelled the proposed approach by using the
multi-agent system (M-A-S), to manage the complexity
of different process. The present work proposed a
hybrid algorithm for DC-SM architecture. The MV-
ECC-AES algorithm improves the performance of the
encryption algorithms, since it encrypts the data in a
minimum time and in a secure way. The proposed
algorithm is much secured than 128-AES for DC-SM
and less resource and time consuming than MV-ECC.
Keywords :
DC Smart Microgrid; Security, Cryptography; Advanced Encryption Standard (AES); Menzes-Vanstone Elliptic Curve Cryptosystem (MV-ECC); Multi-Agent System (M-A-S).