TY - JOUR
T1 - A hybrid encryption technique for Secure-GLOR : the adaptive secure routing protocol for dynamic wireless mesh networks
AU - Nanda, Ashish
AU - Nanda, Priyadarsi
AU - He, Xiangjian
AU - Jamdagni, Aruna
AU - Puthal, Deepak
PY - 2020
Y1 - 2020
N2 - As we progress in into a digital era where most aspects of our life depend upon a network of computers, it is essential to focus on digital security. Each component of a network, be it a physical network, virtual network or social network requires security when transmitting data. Hence the dynamic wireless mesh network must also deploy high levels of security as found in current legacy networks. This paper presents a secure Geo-Location Oriented Routing (Secure-GLOR) protocol for wireless mesh networks, which incorporates a hybrid encryption scheme for its multilevel security framework. The hybrid encryption technique improves the network’s overall performance compared to the basic encryption by using a combination of symmetric key as well as asymmetric key encryption. Using the combination of the two encryption schemes, the performance of the network can be improved by reducing the transmitted data size, reduced computational overhead and faster encryption–decryption cycles. In this paper discussed multiple encryption schemes for both symmetric and asymmetric encryption, compare their performance in various experimental scenarios. Proposed security scheme achieves better performance based on the results obtained with most viable options for our network model.
AB - As we progress in into a digital era where most aspects of our life depend upon a network of computers, it is essential to focus on digital security. Each component of a network, be it a physical network, virtual network or social network requires security when transmitting data. Hence the dynamic wireless mesh network must also deploy high levels of security as found in current legacy networks. This paper presents a secure Geo-Location Oriented Routing (Secure-GLOR) protocol for wireless mesh networks, which incorporates a hybrid encryption scheme for its multilevel security framework. The hybrid encryption technique improves the network’s overall performance compared to the basic encryption by using a combination of symmetric key as well as asymmetric key encryption. Using the combination of the two encryption schemes, the performance of the network can be improved by reducing the transmitted data size, reduced computational overhead and faster encryption–decryption cycles. In this paper discussed multiple encryption schemes for both symmetric and asymmetric encryption, compare their performance in various experimental scenarios. Proposed security scheme achieves better performance based on the results obtained with most viable options for our network model.
KW - computer security
KW - cryptography
KW - wireless communication systems
UR - http://hdl.handle.net/1959.7/uws:47149
U2 - 10.1016/j.future.2018.05.065
DO - 10.1016/j.future.2018.05.065
M3 - Article
SN - 0167-739X
VL - 109
SP - 521
EP - 530
JO - Future Generation Computer Systems
JF - Future Generation Computer Systems
ER -