A testbed for SCADA cyber security and intrusion detection

2015 International Conference on Cyber Security of Smart Cities, Industrial Control System and Communications (SSIC) Pub Date : 2015-09-10 DOI:10.1109/SSIC.2015.7245683

Prateek Singh, S. Garg, Vinod Kumar, Zia U H. Saquib

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引用次数: 28

Abstract

Power grid is an important element of the cyber physical systems. Attacks on such infrastructure may have catastrophic impact and hence the mitigation solutions for the attacks are necessary. It is impractical to test attacks and mitigation strategies on real networks. A testbed as a platform bridges the cyber-physical divide by bringing in the physical system inside the cyber domain, and test the attack scenarios. We are proposing such a testbed here that can simulate power systems Supervisory Control and Data Acquisition (SCADA). The testbed consists of traffic generator, simulated devices like Remote Terminal Units (RTUs), Master Terminal Unit (MTU), Human Machine Interface (HMI) etc. and the communication channel wrapped around industrial communication protocols such as IEC-60870-5-101 and DNP3. The proposed testbed includes with a comparator module which helps in detecting potential intrusions at RTU. A compromised RTU can be manipulated to send fabricated commands in the grid or to send polled responses from the grid. Detecting compromised systems at early stages helps in reducing damage to Industrial Control System (ICS) and providing higher security measures.

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SCADA网络安全与入侵检测测试平台

电网是网络物理系统的重要组成部分。对此类基础设施的攻击可能造成灾难性影响，因此有必要针对攻击制定缓解解决方案。在真实网络上测试攻击和缓解策略是不切实际的。测试平台作为一个平台，通过将物理系统引入网络域，并测试攻击场景，弥合了网络-物理的鸿沟。本文设计了一个模拟电力系统监控与数据采集(SCADA)的试验台。该试验台由流量发生器、远程终端单元(rtu)、主终端单元(MTU)、人机接口(HMI)等模拟设备和围绕IEC-60870-5-101、DNP3等工业通信协议的通信信道组成。所提出的测试平台包括一个比较器模块，有助于检测RTU的潜在入侵。可以操纵受损的RTU在网格中发送捏造的命令或从网格发送轮询响应。在早期阶段发现受损系统有助于减少对工业控制系统(ICS)的损害，并提供更高的安全措施。

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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来源期刊

2015 International Conference on Cyber Security of Smart Cities, Industrial Control System and Communications (SSIC)

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