Abstract
With the increasing level of IoT applications, computation offloading is now undoubtedly vital because of the IoT devices limitation of processing capability and energy. Computation offloading involves moving data from IoT devices to another processing layer with higher processing capability. However, the size of data offloaded is directly proportional to the delay incurred by the offloading. Therefore, introducing data reduction technique to reduce the offloadable data minimizes delay resulting from the offloading method. In this paper, two main strategies are proposed to address the enormous data volume that result to computation offloading delay. First, IoT Canonical Polyadic Decomposition for Deep Learning Algorithm is proposed. The main purpose of this strategy is to downsize the IoT offloadable data. In the study, the Kaggle-cat-and-dog dataset was used to evaluate the impact of the proposed data compression. The proposed method downsizes the data significantly and can reduce the delay due to network traffic. Secondly, Rank Accuracy Estimation Model is proposed for determining the Rank-1 value. The result of the proposed method proves that the proposed methods are better in terms of data compression compared to distributed deep learning layers. This method can be applied in smart city, vehicular networks, and telemedicine etc.
Highlights
Today, the interconnectedness of many IoT devices is naturally raising concerns that require research attention and in-depth investigation
From the experiment with different rank-1, the size and accuracy of data produced, we propose a novel Rank Accuracy Estimation Model (RAEM) that can be used to estimate the accuracy of a particular R value to be used at IoT node in order to minimize the data size and maintaining the data accuracy within a certain accuracy threshold
The focus of this study is to investigate the effect of canonical Polyadic decomposition as an attribute reduction technique and determine its applicability in IoT computation offloading to minimize network traffic and transmission time
Summary
The interconnectedness of many IoT devices is naturally raising concerns that require research attention and in-depth investigation. With respect to the increasing amount of data that is transferred (offloaded) over networks, especially in IoT systems, it is undoubtedly vital to investigate concepts for downsizing the volume of data that is sent from sensors to the network. The need for the offloading arises because of the limitations of processing capability and battery life of the IoT devices [1, 50, 54] In large IoT systems, where for instance multiple cameras are used as sensors, there might be a need to interpret or analyze the taken images or video research issues [5, 29, 31, 38, 47];. In order to reduce the delay incurred as result of offloading large data size from IoT to either fog or cloud, there is need for data reduction method to downsize the amount of data to be offloaded
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