Abstract
The evolution of the Internet of vehicles and growing use of mobile devices has created a demand for new wireless communication technologies. Optical camera communication, which uses light-emitting diodes as transmitters and cameras as receivers, has emerged as a promising alternative. Since light-emitting diodes and cameras are already exploring in traffic lights, vehicles, and public lightings, optical camera communication has the potential to intelligently handle transport systems. Although other technologies have been proposed or developed in both academia and industry, they are not yet mature enough to uphold the huge requirements of the Internet of vehicles. This study introduces a new intelligent Internet of vehicles system based on optical camera communication combined with convolutional neural networks. Optical camera communication is a promising candidate for maintaining interference-free and more robust communication, for supporting the Internet of vehicles. Convolutional neural network is introduced for precise detection and recognition of light-emitting diode patterns at long distances and in bad weather conditions. We propose an algorithm to detect the interested light-emitting diode signals (i.e. regions-of-interest), measure the distance using a stereo-vision technique to find out the desired targets, and simulate our proposed scheme using a MATLAB Toolbox. Thus, our system will provide great advantages for next-generation transportation systems.
Highlights
IntroductionThe number of sensor-enabled technological devices (e.g. vehicles on roads, smartphones in pockets, laptops, and tablets in offices, and TVs and music systems in homes) has significantly increased in our daily life
In recent years, the number of sensor-enabled technological devices has significantly increased in our daily life
The universal network framework for these devices constitutes the basis of a future Internet of things (IoT), to which 25 billion ‘‘things’’ will one day be connected, among them a significant portion will consist of on-road vehicles
Summary
The number of sensor-enabled technological devices (e.g. vehicles on roads, smartphones in pockets, laptops, and tablets in offices, and TVs and music systems in homes) has significantly increased in our daily life. The universal network framework for these devices constitutes the basis of a future Internet of things (IoT), to which 25 billion ‘‘things’’ will one day be connected, among them a significant portion will consist of on-road vehicles. This growth will create a challenging but profitable market for the future connected vehicles.[1] As more vehicles are connected to the IoT, conventional vehicular networks are mobilizing into the Internet of vehicles (IoV).
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