本論文將提出一個以同儕運算概念為基礎的網路虛擬環境,透過分散式的處理以及同儕運算來達到提升NVE中參與者的目的。架構上以Voronoi-based Overlay Network(VON)與forwarding訊息為基礎,並使其能運用於建立異質性的可擴展式(scalable)網路虛擬環境。 因為VON direct-connection model存在傳輸時間過長的疑慮,此架構運用平行傳輸的概念,透過此一方式來改善硬體傳輸時間的消耗。並提供最佳化機制,使透過Area of Interest(AOI)大小的調整來控制傳輸量,確保AOI較小的node會能有較小的傳輸量,而AOI較大的node則需要較大的傳輸量,藉由此一機制達到傳輸量的有效控制。 This thesis proposed a peer-to-peer architecture to upscale the number of users in the NVE. It can be used to build a heterogeneous scalable NVE. This architecture is based on Voronoi-based Overlay Network (VON) and uses forwarding method to transfer messages. The VON direct-connection model on transferring will cost much time, this architecture supports a parallel transmission, the cost of sending message is less than VON direct-connection model, and each node can adjust its AOI-radius to control transmission size by using optimize mechanism.
