key management protocol
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Webology ◽  
2021 ◽  
Vol 18 (2) ◽  
pp. 1055-1065
Author(s):  
Mohammad R. Hassan ◽  
Feras A. Alnaimait ◽  
Qasem Kharma ◽  
Ashraf Sharah ◽  
Khalil H. Al-Shqeerat

In any multi–device / party systems supporting GRID and cloud-based applications, an essential constraint of these systems is the need of all tools and participants to interconnect with each other as members of a group in a secure approach. Group key management method is an essential functional element for any protected distributed communication setting. Key distribution method is a crucial factor in securing communication in grid computing. After the secure key management is executed, messages will be able to be securely exchanged between the grid units. A number of protocols have been proposed to maintain secure group key management. In this paper we present a new password base protocol for secure group key management in Grid computing environment, which is organized in two dynamic servicing layers: the grid application that needs grid services, and the grid services that act on behalf of the user.


Sensors ◽  
2021 ◽  
Vol 21 (17) ◽  
pp. 5838
Author(s):  
Shimaa A. Abdel Hakeem ◽  
Sherine M. Abd El-Kader ◽  
HyungWon Kim

Recently, many Low Power Wide Area Network (LPWAN) protocols have been proposed for securing resource-constrained Internet of Things (IoT) devices with negligible power consumption. The Long Range Wide Area Network (LoRaWAN) is a low power communication protocol that supports message authentication, integrity, and encryption using two-session preshared secret keys. However, although the LoRaWAN supports some security functions, it suffers from session key generation and key update problems. This motivates us to introduce a new key management protocol that resolves the LoRaWAN problems and supports key updates. The proposed protocol is based on hash chain generation using a one-way hash function. Network entities share a common hash chain of n key elements to allow using a unique signing key per message. We also propose a salt hashing algorithm that encrypts the original keys into a different form to avoid the physical attacks at the end device side. We analyzed the proposed key generation performance in terms of the computation time, the required storage, and the communication overhead. We implemented and tested the proposed key generation protocol using the NS-3 network simulator. The proposed lightweight key generation protocol significantly enhances the security of the original LoRaWAN at a negligible overhead. The proposed protocol reduces the power consumption and transmission time by two times compared with some previous protocols. In addition, the proposed key generation protocol can resist attacks, such as key compromising attacks and replay attacks, and it supports the Perfect Forward Secrecy, which was not supported by LoRaWAN.


Author(s):  
Chinnala Balakrishna, Et. al.

In cryptographic system so as to manage the group of members, the group key management protocol is used and it also should provide the security to the group of members which means the communication among the members will be done in secure manner. Broadcast Encryption (BCE) provides a key it arise common for all the members in the group during the encryption and all the associated members can decipher the message with the same mutual key but cannot stop decrypt the message by individuals. Broadcast encipher algorithm sends a secure transmit note to the entire members with the distributed key to decrypt the message with trusted third party. The conventional BE scheme fully relies on third party reliable key generator server machine, the responsibility of the third party server is to generating the undisclosed deciphering keys for the entire collection members and the group members are responsible for decrypt the messages which are encrypted under a common encrypted key. The purpose of Group Key Accord (GKAP) protocol is for negotiate all the assembly members and designing a familiar encryption key through the network. With the GKAP the group members are responsible for generating universal encipher key and it permits simply the group people to decrypt the cipher text which is encrypted by group members by using the shared encryption key but this GKA protocol it is not possible to exclude any members from the group to decrypt the cipher text shared under the common encryption key. In this paper we will combine these two techniques to produce a novel approach called as the Hybrid Broadcast Encryption (HBCE). In this innovative primeval all the cluster of participants agree and produces a widespread encipher key but though each individual having their own decipher key, So that the sender by looking the encryption key he will bound the deciphering to limited members for his abundance.


Author(s):  
Ei Ei Khaing ◽  
Khin Than Nyunt ◽  
Sandar Moe ◽  
Mya Thet Khaing

Today, security is very important in the communication system over through the Internet. The Transmission control protocol and Internet protocol (TCP/IP) protocol suite is used in the Internet communication that it includes five layers in which it is construct IPSec VPN Tunnel between two routers at the network layer. IPsec have two protocols that it is authentication header and encapsulation security payload (ESP) in which two protocols is shown simulation and then it is give encryption, authentication and confidentiality in which for packets at the IPSec layer within network layer and adds new IP header at the network layer. IPSec is designed to provide security at the network layer that it protects the entire IP packets. It takes an IP packet and then it includes the header, applies IPSec security methods to the entire packet and adds a new IP header. The system purpose is known use router devices at the network layer and then this layer is built IPSec VPN tunnel between routers that when it is known how does command line. IPsec VPN tunnel is built based on ACL (access list), crypto isakmp (internet security association and key management protocol) policy, transform set and crypto map and then the system is aimed to know it facts configuration and then to know used routers at the network layer and is built IPSec VPN tunnel between two routers. This system is simulated using packets tracer software 7.1.


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