Gati, Nicholaus J.Yang, Laurence T.Feng, JunMo, YijunAlazab, Mamoun2021-05-052021-05-052020Gati, N. J., Yang, L. T., Feng, J., Mo, Y., & Alazab, M. (2020). Differentially private tensor train deep computation for internet of multimedia things. ACM Transactions on Multimedia Computing, Communications, and Applications, 16(3s), 1-20.DOI: https://doi.org/10.1145/3421276http://hdl.handle.net/20.500.12661/2938Abstract. Full-Text Article available at: https://doi.org/10.1145/3421276The significant growth of the Internet of Things (IoT) takes a key and active role in healthcare, smart homes, smart manufacturing, and wearable gadgets. Due to complexness and difficulty in processing multimedia data, the IoT based scheme, namely Internet of Multimedia Things (IoMT) exists that is specialized for services and applications based on multimedia data. However, IoMT generated data are facing major processing and privacy issues. Therefore, tensor-based deep computation models proved a better platform to process IoMT generated data. A differentially private deep computation method working in the tensor space can attest to its efficacy for IoMT. Nevertheless, the deep computation model comprises a multitude of parameters; thus, it requires large units of memory and expensive computing units with higher performance levels, which hinders its performance for IoMT. Motivated by this, therefore, the paper proposes a deep private tensor train autoencoder (dPTTAE) technique to deal with IoMT generated data. Notably, the compression of weight tensors to manageable tensor train format is achieved through Tensor Train (TT) network. Moreover, TT format parameters are trained through higher-order back-propagation and gradient descent. We applied dPTTAE on three representative datasets. Comprehensive experimental evaluations and theoretical analysis show that dPTTAE enhances training time efficiency, and greatly improve memory utilization efficiency, attesting its potential for IoMT.enSmart homesSmart manufacturingWearable gadgetsMultimedia dataComputation modelTensor TrainTTInternet of ThingsIoTInternet of Multimedia ThingsIoMTDifferentially private tensor train deep computation for internet of multimedia thingsArticle