在DTN(Delay Tolerant Networks)這類的網路架構下,無線節點之
間的通訊連線是採非連續性建立的。DTN 路由協定中, 決定中繼節點
方式大致可以分成兩類:依地理位置考量的路由協定(Geographic Routing Protocal)和依社交模式考量的路由協定(Social-based Routing Portocal)。
由於人與人間的互動是透過社交關係, 但是真實的資訊傳遞又須 仰賴當時的地理位置。因此我們提出的演算法將網路拓墣分成社交層與地理層, 在社交層中利用Social Ally Selection Algorithm 挑選出合適的社交盟友(Social Ally)。在地理層中利用Geographic Messenger Forwarding Algorithm 挑選合適的節點將訊息傳送給朝向目的地或是社交中繼站的節點。根據實驗模擬結果, 我們的路由協定能有較佳的傳遞成功率, 並降低了延遲時間。 / Delay Tolerant networks (DTN) may lack continuous network connectivity. Most of these DTN routing protocol, which attempt to make better routing decision, could be divided in two categories: Geographic routing protocols and Social-based routing protocols.
Due to the interaction between people through social behaviors and message transmissions rely on geographic position information, we proposed a routing protocol which network topology is divided into two sub layers: social layer and geographic layer. In social layer, we propose a Social Ally Selection Algorithm to decide social allies that are controlled to improve delivery performance. In geographic layer, we propose a Geographic Messenger Forwarding Algorithm to transmit message to the nodes moving toward to social ally or destination. According to the simulation results, we could show that our routing protocol have higher delivery ratio and lower delay latency compare to other protocols.
Identifer | oai:union.ndltd.org:CHENGCHI/G0096753017 |
Creators | 羅文卿 |
Publisher | 國立政治大學 |
Source Sets | National Chengchi University Libraries |
Language | 英文 |
Detected Language | English |
Type | text |
Rights | Copyright © nccu library on behalf of the copyright holders |
Page generated in 0.0021 seconds