Abstract
Through the combination of various intelligent devices and the Internet to form a large-scale network, the Internet of Things (IoT) realizes real-time information exchange and communication between devices. IoT technology is expected to play an essential role in improving the combat effectiveness and situation awareness ability of armies. The interconnection between combat equipment and other battlefield resources is referred to as the Internet of Battlefield Things (IoBT). Battlefield real-time data sharing and the cooperative decision-making among commanders are highly dependent on the connectivity between different combat units in the network. However, due to the wireless characteristics of communication, a large number of communication links are directly exposed in the complex battlefield environment, and various cyber or physical attacks threaten network connectivity. Therefore, the ability to maintain network connectivity under adversary attacks is a critical property for the IoBT. In this work, we propose a directed network model and connectivity measurement of the IoBT network. Then, we develop an optimal attack strategy optimization model to simulate the optimal attack behavior of the enemy. By comparing with the disintegration effect of some benchmark strategies, we verify the optimality of the model solution and find that the robustness of the IoBT network decreases rapidly with an increase of the unidirectional communication links in the network. The results show that the adversary will change the attack mode according to the parameter settings of attack resources and network communication link density. In order to enhance the network robustness, we need to adjust the defense strategy in time to deal with this change. Finally, we validated the model and theoretical analysis proposed in this paper through experiments on a real military network.
Highlights
The Internet of Things (IoT) provides a new way for massive deployment of smart devices, such as heterogeneous machines, sensors, and actuators [1,2]
We studied the robustness of the Internet of Battlefield Things (IoBT)
Since the connectivity between battlefield nodes plays an essential role in delivering real-time data and ensuring situation awareness, the ability to maintain network connectivity under adversary attacks is a critical property for the Internet of Battlefield Things
Summary
The Internet of Things (IoT) provides a new way for massive deployment of smart devices, such as heterogeneous machines, sensors, and actuators [1,2]. Devices can exchange data and leverage each other’s information, which enables the Internet of Things to have a high degree of situational awareness [3]. Since the combat efficiency and coordinated decision-making of a modern army depend highly on the ability to have real-time situation awareness on the battlefield and the smooth dissemination of combat information [4,5], the Internet of Things has a promising application in the context of modern warfare. The collection of real-time data and information dissemination rely on the connectivity of the network, which is vital in allowing the IoBT network to unleash its full potential [8].
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