• Bài trích
  • A digital certification management mechanisms and security routing protocol in mobile ad hoc network /

Tác giả CN Lương, Thái Ngọc
Nhan đề A digital certification management mechanisms and security routing protocol in mobile ad hoc network / Lương Thái Ngọc, Võ Thanh Tú
Thông tin xuất bản 2018.
Mô tả vật lý tr.199-217
Tóm tắt Routing services in Mobile Ad hoc Network (MANET) are the goal of denial of service (DoS) attack forms, such as: Blackhole, Sinkhole, Grayhole, Wormhole, Flooding and Whirlwind. There are some related researches to improve of security performance of routing services, such as H(AODV), OTP_AODV, SAODV and ARAN. They require hypothetical conditions that public key infrastructure (PKI) is available. TAMAN routing protocol supported a digital certificate verification service adaptively and quickly to the dynamic topology of the network without relying on any certification authorities (CA). However, node's digital certificate is installed manually and TAMAN has not digital certificate provision and revocation mechanisms. Hence, it is restricted to operate on MANET where nodes move randomly. In this article, we propose a Digital Certification Management Mechanisms (DCMM) based on X.509 standard which supports storing digital certificate, provision and revocation without any PKI. We have implemented DCMM on TAMAN protocol and simulated with NS2 using static and mobility scenarios with speed 30m/s. Simulation results show that digital certificates providing process completely after 70 seconds for 100 member nodes using static scenario and 270 seconds using mobility scenario, and TAMAN performance using DCMM is reduced slightly in terms of packet delivery ratio, end-to-end delay and routing load.
Đề mục chủ đề Security protocol
Thuật ngữ không kiểm soát AODV
Thuật ngữ không kiểm soát CA
Thuật ngữ không kiểm soát DCMM
Thuật ngữ không kiểm soát Ad hoc network
Thuật ngữ không kiểm soát Định tuyến
Thuật ngữ không kiểm soát Giao thức bảo mật
Nguồn trích Tạp chí Tin học và Điều khiển học- Vol.34, No 3
000 00000nab#a2200000ui#4500
00157067
0022
0041C38DBCA-DB2D-4A61-AD51-58C0BA0555BB
005202006301612
008081223s2018 vm| vie
0091 0
035|a1456382994
039|a20241202151222|bidtocn|c20200630161255|dthuvt|y20191126161357|zthuvt
0410 |avie
044 |avm
1000 |aLương, Thái Ngọc
24510|aA digital certification management mechanisms and security routing protocol in mobile ad hoc network / |cLương Thái Ngọc, Võ Thanh Tú
260|c2018.
30010|atr.199-217
520 |aRouting services in Mobile Ad hoc Network (MANET) are the goal of denial of service (DoS) attack forms, such as: Blackhole, Sinkhole, Grayhole, Wormhole, Flooding and Whirlwind. There are some related researches to improve of security performance of routing services, such as H(AODV), OTP_AODV, SAODV and ARAN. They require hypothetical conditions that public key infrastructure (PKI) is available. TAMAN routing protocol supported a digital certificate verification service adaptively and quickly to the dynamic topology of the network without relying on any certification authorities (CA). However, node's digital certificate is installed manually and TAMAN has not digital certificate provision and revocation mechanisms. Hence, it is restricted to operate on MANET where nodes move randomly. In this article, we propose a Digital Certification Management Mechanisms (DCMM) based on X.509 standard which supports storing digital certificate, provision and revocation without any PKI. We have implemented DCMM on TAMAN protocol and simulated with NS2 using static and mobility scenarios with speed 30m/s. Simulation results show that digital certificates providing process completely after 70 seconds for 100 member nodes using static scenario and 270 seconds using mobility scenario, and TAMAN performance using DCMM is reduced slightly in terms of packet delivery ratio, end-to-end delay and routing load.
65010|aSecurity protocol
6530 |aAODV
6530 |aCA
6530 |aDCMM
6530 |aAd hoc network
6530 |aĐịnh tuyến
6530 |aGiao thức bảo mật
7730 |tTạp chí Tin học và Điều khiển học|gVol.34, No 3
890|a0|b0|c0|d0

Không có liên kết tài liệu số nào