Monitoring Dangerous Goods in Container Yard Using the Internet of Things

The Internet of Things IoT, a network of objects, has been regarded as the next revolution for the global information industry after the Internet. With IoT, many intelligent applications can be accomplished or improved. This paper presents a framework for dangerous goods management in container yard using IoT technology. The framework consists of three layers: perceptual layer, transport layer, and application layer. It offers an infrastructure for management and data analysis and utilization. According to the features of dangerous goods, the framework can be enhanced for container information forecast, container gate-in and gate-out management, environment parameters monitoring, and fire control as well. In order to verify our method, a prototype system is developed, which shows good performance. With our method, safe operation of dangerous goods in container yard can be accomplished.

[1]  Klaus-Dieter Wehrstedt 2015 Tianjin Explosions , 2016 .

[2]  Albrecht Schmidt,et al.  Perci: Pervasive Service Interaction with the Internet of Things , 2009, IEEE Internet Computing.

[3]  Burkhard Stiller,et al.  Towards the Future Internet - Emerging Trends from European Research , 2010, Future Internet Assembly.

[4]  Rodrigo Roman,et al.  Securing the Internet of Things , 2017, Smart Cards, Tokens, Security and Applications, 2nd Ed..

[5]  Rolf H. Weber,et al.  Internet of Things - New security and privacy challenges , 2010, Comput. Law Secur. Rev..

[6]  Zhe‐Xi Luo,et al.  Petrosal and Inner Ear of a Squalodontoid Whale: Implications for Evolution of Hearing in Odontocetes , 1995 .

[7]  Leilani Battle,et al.  Building the Internet of Things Using RFID: The RFID Ecosystem Experience , 2009, IEEE Internet Computing.

[8]  Roy Want,et al.  An introduction to RFID technology , 2006, IEEE Pervasive Computing.

[9]  Juan Ignacio Vázquez,et al.  Communication architectures and experiences for web-connected physical Smart objects , 2010, 2010 8th IEEE International Conference on Pervasive Computing and Communications Workshops (PERCOM Workshops).

[10]  Florian Michahelles,et al.  Technology, Standards, and Real-World Deployments of the EPC Network , 2009, IEEE Internet Computing.

[11]  Sanjay E. Sarma,et al.  white paper The Networked Physical World Proposals for Engineering the Next Generation of Computing, Commerce & Automatic-Identification , 2001 .

[12]  Matthias Jarke,et al.  Model Driven Development for Internet of Things Application Prototyping , 2013, SEKE.

[13]  Yan Zhang,et al.  Layered Structure and Management in Internet of Things , 2007, Future Generation Communication and Networking (FGCN 2007).

[14]  Shen Bin,et al.  Research on data mining models for the internet of things , 2010, 2010 International Conference on Image Analysis and Signal Processing.

[15]  Eric Renault,et al.  Toward a Security Model for the Future Network of Information , 2009, Proceedings of the 4th International Conference on Ubiquitous Information Technologies & Applications.

[16]  Huansheng Ning,et al.  Future Internet of Things Architecture: Like Mankind Neural System or Social Organization Framework? , 2011, IEEE Communications Letters.

[17]  Ken Sakamura,et al.  Ubiquitous ID: Standards for Ubiquitous Computing and the Internet of Things , 2010, IEEE Pervasive Computing.

[18]  Laurence T. Yang,et al.  The Internet of Things: From RFID to the Next-Generation Pervasive Networked Systems , 2008 .