New Routing Mechanism of Enabling DNP3 for Smart Distribution System Collaborative Computing

2007 IEEE Canada Electrical Power Conference Pub Date : 2007-10-01 DOI:10.1109/EPC.2007.4520328

T. Mander, H. Cheung, A. Hamlyn, R. Cheung

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Abstract

Residential secondary service may account for potentially thousands of devices through networked load- management collaborative computing to realize a smart distribution system. Although TCP/IP-based networks can provide the communication infrastructure for these devices, a severe security issue will present, as these devices are vulnerable to being compromised by cyber-attackers. Use of a disjoint protocol such as DNP3 for SCADA networks provides an effective solution to the security issue. However, DNP3 does not have adequate peer-to-peer networking to support the collaborative computing. This paper proposes an extension protocol layer for DNP3 to facilitate the collaborative computing. This extension offers a routing mechanism that utilizes a variable address structure to create a routing path between communicating devices. The routing path eliminates protocol overhead typically associated with network layers and provides a unique network address for every device in the distribution system. The routing mechanism is interoperable with DNP3- based devices and does not alter the DNP3 specification.

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面向智能配电系统协同计算的DNP3路由机制

通过网络负载管理协同计算，住宅二次服务可能占到潜在的数千台设备，从而实现智能配电系统。尽管基于TCP/ ip的网络可以为这些设备提供通信基础设施，但由于这些设备容易受到网络攻击者的攻击，因此会出现严重的安全问题。在SCADA网络中使用DNP3等不连接协议，可以有效地解决安全问题。然而，DNP3没有足够的对等网络来支持协同计算。为了便于协同计算，本文提出了DNP3的扩展协议层。这个扩展提供了一个路由机制，利用可变地址结构来创建通信设备之间的路由路径。路由路径消除了通常与网络层相关的协议开销，并为分布系统中的每个设备提供了唯一的网络地址。路由机制可以与基于DNP3的设备互操作，并且不会改变DNP3规范。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2007 IEEE Canada Electrical Power Conference

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