Abstract
Knowing how to manipulate the data from environment to automation control systems in industry can innovate and improve a quality of the products effectively. In plastic manufacturing, there is a need of automated control system that can recognize color and sort, count and sequentially control processing since the certain quantity of color billets mix into a batch in order to produce desired colorful products. In this paper, a color recognition sensor based on the principle of LEDs energy harvest corresponding actuator has been designed. The derivational voltage due to red, green and blue color shift in color recognition, sorting and counting automation control system is measured as a signal input of the controller that works with the reflected light properties such as the reflective harmonic energy. Sequentially, the automation control system with human machine interface (HMI) and supervisory control and data acquisition (SCADA) will monitor the quantity of diversity color products in intuitive and remote supervisory, customization or adjustments in automation processing. Furthermore, the designed device will integrate into artificial intelligent (AI) and unmanned aerial vehicle (UAV).
Highlights
Knowing how to manipulate the data from environment to automation control systems in industry can innovate and improve a quality of the products effectively
Programmable Logic Controller (PLC) will measure the power consumption in the energy of color recognition action is the process of energy changes in the designed device, which can only be initiated by radiation
This paper has introduced a review on the significance of RGB reflected light to color recognition, sorting and counting automation control system
Summary
The sensors have been popularly used everywhere such as Artificial Intelligent (AI), medical healthcare and industry, especially color sensors in plastic manufacture. The red (580 nm), green (540 nm) and blue (450 nm) transmissivity color filters reshape and optimize the photodiode’s spectral response that dovetails with the requirements [1]. The reflected red light impinges on the color sensor producing Red, Green and Blue output voltages. Since the three output voltages increase linearly with the intensity of the reflected light, the color sensor measures the reflectivity of the surface or object. The filter-coated photodiode array of the color sensor converts the incident light into red, green and blue (RGB) photocurrents that converted to analog voltages. The power consumption of presented LED is optimized by using response surface methodology (RSM) with respect to the following input parameters: frequency of operation, frequency of data transmission, the data with respect to the consumed power and the reflection or transmission distance.
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