Litcius/Paper detail

Deep Learning on Computational-Resource-Limited Platforms: A Survey

Chunlei Chen, Peng Zhang, Huixiang Zhang, Jiangyan Dai, Yugen Yi, Huihui Zhang, Yonghui Zhang

2020Mobile Information Systems129 citationsDOIOpen Access PDF

Abstract

Nowadays, Internet of Things (IoT) gives rise to a huge amount of data. IoT nodes equipped with smart sensors can immediately extract meaningful knowledge from the data through machine learning technologies. Deep learning (DL) is constantly contributing significant progress in smart sensing due to its dramatic superiorities over traditional machine learning. The promising prospect of wide-range applications puts forwards demands on the ubiquitous deployment of DL under various contexts. As a result, performing DL on mobile or embedded platforms is becoming a common requirement. Nevertheless, a typical DL application can easily exhaust an embedded or mobile device owing to a large amount of multiply and accumulate (MAC) operations and memory access operations. Consequently, it is a challenging task to bridge the gap between deep learning and resource-limited platforms. We summarize typical applications of resource-limited deep learning and point out that deep learning is an indispensable impetus of pervasive computing. Subsequently, we explore the underlying reasons for the high computational overhead of DL through reviewing the fundamental concepts including capacity, generalization, and backpropagation of a neural network. Guided by these concepts, we investigate on principles of representative research works, as well as three types of solutions: algorithmic design, computational optimization, and hardware revolution. In pursuant to these solutions, we identify challenges to be addressed.

Topics & Concepts

Computer scienceDeep learningSoftware deploymentArtificial intelligenceOverhead (engineering)Task (project management)Bridge (graph theory)Machine learningResource (disambiguation)Mobile deviceBig dataArtificial neural networkData scienceDistributed computingSoftware engineeringWorld Wide WebComputer networkData miningSystems engineeringMedicineEngineeringInternal medicineOperating systemAdvanced Neural Network ApplicationsIoT and Edge/Fog ComputingMachine Learning and Data Classification