SVHN is another 32-resolution benchmark for color image classification. It consists of street-viewimages ofdoor numbers, which are labelled with digits from "0" to"9".

Recent advances in machine learning (ML) has significantly shifted the paradigm in all walks of life.

With increasing popularity of Machine Learning as a Service (MLaaS), ML models trained from public and proprietary data are deployed in the cloud and deliver prediction services to users. However, as the prediction API becomes a new attack surface, growing concerns have arisen on the confidentiality of ML models. Existing literatures show their vulnerability under model extraction (ME) attacks, while their private training data is vulnerable to another type of attacks, namely, membership inference (MI). In this paper, we show that ME and MI can reinforce each other through a chained and iterative reaction, which can significantly boost ME attack accuracy and improve MI by saving the query cost. As such, we build a framework MExMI for pool-based active model extraction (PAME) to exploit MI through three modules: "MI Pre-Filter", "MI Post-Filter", and "semi-supervised boosting". Experimental results show that MExMI can improve up to 11.14% from the best known PAME attack and reach 94.07%

ME attack accuracy and improve MI by saving the query cost.

With increasing popularity of Machine Learning as a Service (MLaaS), ML models trained from public and proprietary data are deployed in the cloud and deliver prediction services to users. However, as the prediction API becomes a new attack surface, growing concerns have arisen on the confidentiality of ML models. Existing literatures show their vulnerability under model extraction (ME) attacks, while their private training data is vulnerable to another type of attacks, namely, membership inference (MI). In this paper, we show that ME and MI can reinforce each other through a chained and iterative reaction, which can significantly boost ME attack accuracy and improve MI by saving the query cost. As such, we build a framework MExMI for pool-based active model extraction (PAME) to exploit MI through three modules: "MI Pre-Filter", "MI Post-Filter", and "semi-supervised boosting".