Selective capture based high-speed optical vehicular signaling system

The present article introduces a high-speed optical vehicular signaling system using a distinct and unique capturing strategy called selective capture (SC). The proposed scheme performs the SC within the frame while capturing, not after the frames are captured, thereby reducing the capturing area an...

Full description

Saved in:
Bibliographic Details
Published in:Signal processing. Image communication 2018-10, Vol.68, p.241-248
Main Authors: Teli, Shivani, Chung, Yeon-Ho
Format: Article
Language:English
Subjects:
Bit error rate
Camera receiver (image sensor)
Cameras
Communication
Communications systems
Data transmission
Distance measurement
Flicker
Frames (data processing)
Frames per second
High speed
Light emitting diode (LED)
Light emitting diodes
Optical camera communication (OCC)
Optical communication
Organic light emitting diodes
Selective capture (SC)
Sensors
Signaling
Template matching
Vehicle-to-vehicle (V2V) signaling
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The present article introduces a high-speed optical vehicular signaling system using a distinct and unique capturing strategy called selective capture (SC). The proposed scheme performs the SC within the frame while capturing, not after the frames are captured, thereby reducing the capturing area and thus increasing the camera capture speed. One of the major challenges in optical camera communication (OCC) based vehicular signaling system is low data transmission rate, due to a low sampling rate of a camera receiver, compared with very high-speed modulation of light emitting diodes (LEDs) used as the transmitter. We propose this SC-based technique for a high-speed optical vehicular signaling system. Experiments are conducted to verify the proposed scheme while analyzing various parameters such as margin setting to calculate a total SC area, considering the movement of a vehicle along the roadside, inter-vehicle distance measurement and LED detection from a Raspberry Pi camera (RaspiCam) module. The SC is performed using template matching technique on the RaspiCam module and then the margin is added with the SC to obtain the total SC area. This total SC area is utilized for capturing the taillights of the leading vehicle (LV). The optical vehicle-to-vehicle (V2V) signaling system utilizes two 4 × 4 red LED arrays mounted on LV as the taillights and a RaspiCam mounted on the following vehicle (FV). It is found that the use of RaspiCam set with the total SC area to capture the taillights significantly increases the capture speed of RaspiCam from 120 frames per second (fps) to 435 fps, yielding an efficient and high-speed V2V signaling with flicker-free taillights. Experiment results demonstrate that the proposed optical V2V provides a data rate of up to 6.912 kbps and achieves acceptable bit error rate performance at a distance of up to 175 cm. •High-speed optical vehicular signaling system using selective capture is proposed.•High rate, high performance and inter-vehicle distance measurement are provided.•Selective capture significantly increases capture speed from 120 fps to 435 fps.•At a 640×480 resolution, a high data rate of 6.912 kbps is achieved up to 175 cm.
ISSN:0923-5965
1879-2677
DOI:10.1016/j.image.2018.08.009