원문정보
초록
영어
In modern society, digital lifestyles are spreading to minimize contact with people and to receive contactless information. The spread trend has established an unmanned distribution system in which transactions through contactless technologies such as kiosks and chatbots are activated in face-to-face transactions with sellers and consumers. In order to streamline logistics supply worldwide, digital new deal based joint logistics hubs, unmanned courier storage platforms, and fresh logistics based last mile services have been developed into unmanned logistics systems, focusing on the intelligent logistics system automation process. Unmanned courier storage system installed in urban areas and home to daily logistics where volume is concentrated are provided with fresh logistics services through cold chain and receiving freights in contactless environments. Development is also underway to minimize safety accidents caused by courier services, such as managing various information based on the integrated control system. This paper defines the concept of integrated operation for the development of a platform for contactless unmanned courier storage device developed into next-generation logistics system. In addition, we intend to develop systems engineering-based output for deriving safety requirements and specifications by identifying risk sources that may occur in the operational scenario. Therefore, the goal is to establish a foundation for safety and reliability between interfaces of logistics systems to be installed in apartment and subway station environments that want to provide unmanned logistics services to various consumers.
목차
1. Introduction
2. The Definition of the Problems
2.1 Unmanned Storage Device’s Operational Technologies’ Problems based on Last Mile
2.2 The Importance of Unmanned Courier Storage Device’s Development
2.3 Research of Scope and Procedure
3. Development of Unmanned Courier Storage Device Platform in Urban Areas
3.1 Development of Unmanned Courier Storage Device’s Operating Concept
3.2 Development of Unmanned Courier Storage Device’s Operating Scenario
3.3 Development of Unmanned Courier Storage Device’s Structure and Function
4. Development of Unmanned Courier Storage Device’s Safety Requirements and Specification in Urban Areas
4.1 Hazard Identification of Unmanned Courier Storage Device in Urban Areas
4.2 Derivation of Unmanned Courier Storage Device’s Safety Requirements in Urban Areas
4.3 Development of Specifications based on Safety Requirements for Unmanned Courier Storage Device in Urban Areas
5. Conclusion
Acknowledgement
References