International Journal of Open Information Technologies

In this article, we are talking about the European road map for the implementation of the physical Internet.  Physical Internet (PI) creates the newest infrastructure in the supply chain, which allows transforming the existing logistics system into a universally interconnected system. It aims to address economic, environmental and social sustainability issues in traditional logistics. The physical internet is a new concept in supply chain logistics with the potential to modernize loading and unloading operations, logistics and facility design to improve economic, environmental and social efficiency. The physical internet is a vision for moving physical objects using a set of processes, procedures, systems, and mechanisms from a source to the desired destination in a way that the digital internet moves packets of information from a server to another computer. The PI structure is based on standard and intelligent modular PI containers or π containers that can be transported by any means (e.g. airplanes, trucks, barges, drones and private vehicles) and many of these containers already exist and are in active use. PI containers are already modular in size, ranging from small parcels to large sea containers that travel through multimodal distributed transport networks, where transit platforms bring together containers of different origins to optimize loading. 

Kuprijanovskij V. P. i dr. Na puti k fizicheskomu internetu: industrija, logistika i jelektronnaja kommercija 4. 0. Evropejskij variant //International Journal of Open Information Technologies. – 2019. – T. 7. – #. 5.

Which Industries Are the Most Digital (and Why)? https://hbr.org/2016/04/a-chart-that-shows-which-industries-are-the-most-digital-and-why

European cluster and industrial transformation trends report EU 2020

Smart guide for European strategic cluster partnerships EU 2019

Methodology report for the European panorama of clusters and industrial change and European cluster database EU 2019

SUPPLY CHAIN DECARBONIZATION THE ROLE OF LOGISTICS AND TRANSPORT IN REDUCING SUPPLY CHAIN CARBON EMISSIONS. Report prepared with the support of Accenture World Economic Forum Geneva Copyright © 2009

STRATEGY CCUS DELIVERABLE D2.1 REPORT. Methodologies for cluster development and best practices for data collection in the promising regions Part 1 Industrial CCUS Clusters and CO2 transport systems: methodologies for characterization and definition STRATEGY CCUS 2020

AMBER D3.2 Quantification of economic costs and benefits of river infrastructures (evaluation of natural capital) AMBER 2019

DAPhNE D.5.4.4 Danube Ports and the Physical Internet, DAPhNE 2018

DAPhNE Output 5.1 Port investments guidelines & New markets studies DAPhNE 2018

Sokolov I. et al. State, innovation, science and talents in measuring the digital economy (UK Case Study) //International Journal of Open Information Technologies. – 2017. – T. 5. – #. 6. – S. 33-48.

Kupriyanovsky V. et al. On mobile production based on a shared economy, digital technologies, and logistics //International Journal of Open Information Technologies. – 2017. – T. 5. – #. 8. – S. 47-69.

Kupriyanovsky V. et al. Digital supply chains and blockchain-based technologies in a shared economy //International Journal of Open Information Technologies. – 2017. – T. 5. – #. 8. – S. 80-95.

Kupriyanovsky V. et al. On development of transport and logistics industries in the European Union: open BIM, Internet of Things and cyber-physical systems //International Journal of Open Information Technologies. – 2018. – T. 6. – #. 2. – S. 54-100.

Kupriyanovsky Y. et al. Smart container, smart port, BIM, Internet Things and blockchain in the digital system of world trade //International Journal of Open Information Technologies. – 2018. – T. 6. – #. 3. – S. 49-94.

Montreuil, B., Meller, R. D., & Ballot, E. (2010). Towards a Physical Internet: The impact on logistics facilities and material handlic systems design and innovation. Retrieved from https://pdfs.semanticscholar.org/a907/08526f1c787bdafbcebf8492583b7ef668d4.pdf

Industry Blueprint –Container Shipping 1.0 September 2019, Copyright 2019 Digital Container Shipping Association (DCSA)

Industry Blueprint –Container Shipping 1.0 Reading guide September 2019, Copyright 2019 Digital Container Shipping Association (DCSA)

DCSA Interface Standard for Track and Trace 1.0 27 January 2020, Copyright 2020 Digital Container Shipping Association (DCSA)

DCSA Interface Standard for Track and Trace 1.0 Reading Guide 27 January 2020, Copyright 2020 Digital Container Shipping Association (DCSA

Glossary of terms 1.1 Industry Blueprint - Container shipping 1.0 January 2020

Information Model 1.0 Data and Interface Standards, Copyright 2020 Digital Container Shipping Association (DCSA)

DCSA Information Model 1.0 Reading Guide 27 January 2020

Event naming convention and Structure 1.0 January 2020, Copyright 2020 Digital Container Shipping Association (DCSA)

Event Structure Definitions 1.0 Customer-facing Track and Trace Version 1.0 27 January 2020, Copyright 2020 Digital Container Shipping Association (DCSA)

DCSA Implementation Guide for Cyber Security on Vessels v1.0 10/03/2020

Simranjeet Singh Chadha AN APPLIED OPTIMIZATION MODEL FOR FREIGHT DELIVERY IN A PHYSICAL INTERNET SUPPLY CHAIN, thesis, Dalhousie University Halifax, Nova Scotia December 2019

Roadmap to Physical Internet BACKGROUND DOCUMENT WORKSHOP ALICE/SENSE IPIC 10TH JULY 2019 8.30 – 10.30 ALICE/SENSE PI Roadmap Workshop IPIC2019

ICONET D1.1 PI-aligned digital and physical interconnectivity models and standards 2019

ICONET D1.2 PI business and governance models 2020.