Adaptive Subcarrier, Parameter, and Power Allocation for Partitioned Edge Learning Over Broadband Channels

Wen, Dingzhu; Jeon, Ki Jun; Bennis, Mehdi; Huang, Kaibin

doi:10.1109/twc.2021.3092075

Cited by 10 publications

(1 citation statement)

References 21 publications

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“…= max β Then, following the methods used in [46] and [47], the tractability of (P3) under the current weighted distortion is determined by the comparison between T * and the permitted latency T , as described below.…”

Section: : Update the Multipliers Asmentioning

confidence: 99%

Task-Oriented Sensing, Computation, and Communication Integration for Multi-Device Edge AI

Wen¹,

Liu²,

Zhu³

et al. 2022

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This paper studies a new multi-device edge artificial-intelligent (AI) system, which jointly exploits the AI model split inference and integrated sensing and communication (ISAC) to enable low-latency intelligent services at the network edge. In this system, multiple ISAC devices perform radar sensing to obtain multi-view data, and then offload the quantized version of extracted features to a centralized edge server, which conducts model inference based on the cascaded feature vectors. Under this setup and by considering classification tasks, we measure the inference accuracy by adopting an approximate but tractable metric, namely discriminant gain, which is defined as the distance of two classes in the Euclidean feature space under normalized covariance. To maximize the discriminant gain, we first quantify the influence of the sensing, computation, and communication processes on it with a derived closed-form expression. Then, an end-to-end task-oriented resource management approach is developed by integrating the three processes into a joint design. This integrated sensing, computation, and communication (ISCC) design approach, however, leads to a challenging non-convex optimization

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Section: : Update the Multipliers Asmentioning

confidence: 99%