Abstract
For the Internet of things, having sensors in devices used for video surveillance services, such as cameras, is crucial. The advancement of edge computing technology has enabled high computing capacity and the handling of massive data sets. The concept of cloudlets is employed in edge computing for in-network processing, especially for large-size multimedia data processing. Cloudlets are essential for services with high computing costs. Contrary to traditional cloud computing, data can be offloaded to in-network devices and core clouds, thereby improving the quality of service and enhancing resource utilization. However, the trade-off between network transmissions and nodal processes with delay-aware multimedia traffic has been demonstrated to be an NP-complete problem. The problem is presented as a mathematical formula to maximize the minimal delay gap between the tolerable event delay, sending time, and processing time. The problem is subject to in-network processing node assignment, routing paths, transmission capacities, computing capacities, and the effective service period. The Lagrangian approach was employed to evaluate the method proposed in this study; a near-optimal solution was obtained, and several experiments were performed to demonstrate that the proposed method outperforms existing methods.
Highlights
The most crucial breakthrough in the Internet of things (IoT) field has been the increased computing capability of sensors
Despite assistance from artificial intelligence (AI) chips, IoT devices remain reliant on machines with high-power computing capacities, such as cloudlet or core cloud capability, for the processing of high quality multimedia data [4]
The present study investigated in-network processing through both edge computing and offloading [5], [9] along the routing path to the security office
Summary
The most crucial breakthrough in the Internet of things (IoT) field has been the increased computing capability of sensors. For IoT applications, multimedia data are offloaded to the edge cloudlet or fog-computing hosts to ensure high computation capacity [2], [5], [6], [9]. This method reduces the time required for transmission and processing and the workload of the central servers. The present study investigated in-network processing through both edge computing and offloading [5], [9] along the routing path to the security office. The main contributions of this study are as follows: 1) Development of in-network multimedia processing for operations with IoT devices, edge computing, and a cloud network.
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