*Concepts, Applications and Emerging Opportunities in Industrial Engineering*

for creating aggregate planning, master production scheduling, and job release planning. The plans are delivered to shop floor supervisors including daily production plan, machine used plan, and due date delivery plan. Then, production is operated by serial processes. The compression mold or injection mold is the first operation. The 2rd station is de-flashing and finishing the parts. The last station is quality inspection, counting, recording and packing. Instead of doing so by manual, the research paper presents the novel method which employs the CPOM system to increase productivity of both machines and operators as well as the competitiveness. The system is divided into two main parts; the 1st CPOM system and sub CPOM system which is designed as the private cloud under the company security policy. The 1st CPOM is able to monitor and tracking the production process for supporting rapid decision making of the SCM management team. Besides, the critical control of the 1st tier is the raw material mixing company and mold design company which are supporting resource companies and sharing costs as well as quality standard control under specific customer requirement.

output. The right **Figure 23** shows the relation of light intensity and displacement. There are different ranges but the effective performance is set on the certain

*Automotive Industrial Supply Chain Performance Evaluation under Uncertain Constraints…*

QR recorder is used to track a symbolic information of the production process. The QR code generator can be simply done by software and can link to the QR code

**Figure 25** shows the types of the conveyor system which are used in the factory linked to the cloud management system. They are covered the whole features of the

**Figure 26** shows the types of the sensor used in the factory. The first sensor type is tracked in the horizontal position while the parts are moved by the conveyor. The second type of the sensor is tracked on the vertical while the parts are delivered through the silo. This is designed and developed for the flat part shape. The third type of the sensor is portable movement which is fit with the large size of the parts. The fourth sensor is called axillary types which is designed to combined with the push button switch and light linked the cloud management system. This type is

reader. **Figure 24** shows the QR code reader using a mobile phone.

parts must be effective and eliminate any error.

*DOI: http://dx.doi.org/10.5772/intechopen.93679*

suitable for the ununiform shape of the parts.

The conveyor is designed for delivering the part in the final operation. The conveyor includes sensors, QR code reader, and cloud interface using ESP32. Motor drive is designed for adjustable speed. The displacement between sensor and

displacement.

*4.3.2 Conveyor design*

part constraints.

**Figure 23.**

**Figure 24.**

**233**

*QR code generator and reader.*

*Fiber optic sensor and characteristic.*
