IIOT-based Intelligent Control and Management System for Motorcycle Endurance Test

Abstract

 

The Industrial Internet of Things(IIOT) is a new generation intelligent system based on the real-time network and embedded system. It combines the global Internet with the new capabilities of direct control of the physical world to promote the rapid development of manufacturing industry and other industries. In this paper, a four-layer IIOT architecture , that is perception executive layer (data acquisition), cognitive layer (business logic, identification, classification), network layer (communication layer), and control layer (external participation) , is proposed aiming to the design goal to realize the intelligent management and remote control of motorcycle ‘s endurance test. This architecture has a good guiding role for the design and development of IIOT and service-oriented architecture (SOA). On this basis, the paper builds the new Internet of Thing test platform management system with the ability of digital intelligent control, intelligent perception and remote intensive management. The system includes a management platform and five sub-system front-end data acquisition system, control feedback and processing system, data transmission system, database management system, cloud management system. By improving the interface capability of external (detection) parameters and establishing protocol relationships,the system become an open system with easy management, upgrading, extension and compatibility. Thus realized the remote monitoring and control management on the endurance test process, improved the ability of cloud services through the cloud monitoring and management platform, and achieved the test control and management systematic, modular, digital and intelligent.

Existing system :

Industrial Internet of Things (IIoT) refers to the tight integration of computation, networking, and physical objects for Industry, in which embedded devices are networked to sense, monitor and control the physical world to promote progress of business and manufacture. The widespread deployment of wireless sensor networks, embedded systems, and inexpensive sensors has fostered the rise of Industrial Internet of Things (IIoT) .The IIoT focuses on the 5C Configuration. While supporting various information technology, the IIoT is to obtain information from the various sensors and the objects, transfer to the cloud based data center safely, and update seamlessly related parameters in the form. At present, Industrial Internet of things (IIoT) has shown great strength in aerospace, defense, automobile, health and medical equipment, major infrastructure, etc. The key is not simply to connect things with things simply, but to create many smart devices with computing, communication, control, synergy, and autonomy. Thus will increase in productivity and productivity greatly, and reduce costs significantly.

 

 

PROPOSED SYSTEM :

we proposed an system architecture with universal application value for the IIOT by using the Cyber-Physical System (CPS) technology. Second, combining with the current situation of the endurance test system of motorcycle in western China inspection co. LTD., we constructed a new endurance test system with digital intelligent control, intelligent perception and remote intensive management capability. And the system can improve the interface capability of external (detection) parameters and become an open system with easy management, upgrading, extension and compatibility via establishing protocol relationships. In practical application, the problem is effectively solved that control a physical entity (system) remotely, reliably, in real time, safely and cooperatively by using networked physical system. It is of great significance to the development and application of IIOT.

CONCLUSION :

The IIoT has proved its obvious ascendancy in the industrial areas by enabling communications between objects and human, objects and objects. Thus has led the vision of “anytime, anywhere, anyway, anything” communications practically in true sense and made a smarter and intelligent planet. The paper aims to verify and evaluate the applicability of IIoT in the management and control of experimental industry through its application in the motorcycle durability test system platform. In this paper, there have been analyzed the characteristics, current situation and development demands of motorcycle durability test, and it can be seen that there is a broad prospect for the intelligent control and management of industry based on IIOT, which is also an important strategic factor for the industry to maintain its sustainable competitive advantage. Firstly, the paper introduced the concept and application of IIoT. And then introduced in detail the design and implement technology of intelligent control and management system for motorcycle endurance test based IIOT, combining with the current situation of the endurance test system of motorcycle in western China. The intelligent control and

management system of motorcycle endurance test (ICMSMET) has been given seven design objectives, namely, reliable and convenient ,open system ,dynamic communication ,remote administration ,cloud service ,test data management ,platform management. Basing on the perspective of user service ,the paper presented the implementation architecture , including perceptual executive layer,cognition layer, network layer, control layer. Then the ICMSMET including a system management platform and five sub-system has been realized. Finally, the main functions of ICMSMET are introduced in detail. After nearly a year of practical application, the ICMSMET achieved the expected design objectives that unattended, automatic warning, mobile management, and the management mode has transformed from passive duty to the active management based on information leading, from decentralized management to highly intensive management. And the failure rate of the system is reduced by 50%, the staff is reduced by 60%, and the management efficiency is increased by about 80%, which solves the problem that controls a physical entity (system) remotely, reliably, in real time, safely and cooperatively by using the Cyber-Physical System (CPS). Combining with the development experience of this system, we intend to carry out the research on the standardization of IIOT technology in the future. It is hoped that some technical standards for IIOT application can be brought forward, so that it can be quickly ported to relevant IIOT application fields.