Most artificially intelligent systems are based on neural networks, algorithms inspired by biological neurons found in the brain. These networks can consist of multiple layers, with inputs coming in one side and outputs going out of the other. The outputs can be used to make automatic decisions, for example, in driverless cars. Attacks to mislead a neural network can involve exploiting vulnerabilities in the input layers, but typically only the initial input layer is considered when engineering a defense. For the first time, researchers augmented a neural network's inner layers with a process involving random noise to improve its resilience.
Artificial intelligence has become a relatively common thing; chances are you have a smartphone with an AI assistant or you use a search engine powered by AI. While it's a broad term that can include many different ways to essentially process information and sometimes make decisions, AI systems are often built using artificial neural networks analogous to those of the brain. And like the brain, ANNs can sometimes get confused, either by accident or by the deliberate actions of a third party.
As inputs aren't necessarily visual, it's not always easy to analyze why a system might have made a mistake at a glance. Attackers trying to disrupt a system based on ANNs can take advantage of this, subtly altering an anticipated input pattern so that it will be misinterpreted, and the system will behave wrongly, perhaps even problematically. There are some defense techniques for attacks like these, but they have limitations.
Ukita and Ohki aren't just computer scientists. They have also studied the human brain, and this inspired them to use a phenomenon they knew about there in an ANN. This was to add noise not only to the input layer, but to deeper layers as well. This is typically avoided as it's feared that it will impact the effectiveness of the network under normal conditions.
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