Skip to main content

PI Governance

Groups & Contents tagged with "PI Governance"

First on-the-way delivery network providing a new crowdshipping model.

The app-based community utilizes unused capacity in passenger vehicles, connecting people with stuff to send with drivers already heading in that direction. Simply put, Roadie is a faster, cheaper, friendlier way to get your goods, no matter its shape or size, from where it is to where it needs to be.

The Roadie app enables efficient, low-cost delivery for senders and rewards drivers for trips they were already taking, offering members of the community a variety of benefits including free roadside assistance, roadside discounts, and tax write-offs on miles they were already driving.

Roadie works with top retailers, airlines, and grocers to provide them with a faster, more efficient, and more scalable solution for same-day and last-mile deliveries nationwide. Since the launch in 2015, the company delivered everything from cupcakes to couches to customers in more than 9,000 cities nationwide — a larger footprint than Amazon Prime. 



Category: PI Companies
Skill Level: Beginner

Block Chain pioneer in port related logistics in Flanders

Category: PI Companies
Skill Level: Beginner

Supply chain visibility supported by easy access to, and exchange and use of relevant and abundant logistics-related information is an important prerequisite for the deployment of pan-European logistics solutions that are needed to increase efficiency and productivity, and to reduce environmental impact. Although there is a proliferative development of logistics-related data stores, information channels, information management systems and data mining facilities, with both international and intermodal focus, this multitude of solutions exhibits a high degree of fragmentation, due to differences in user requirements, data models, system specification and business models. This legacy situation severely hampers the optimal use of logistics-related information.

To overcome this fragmentation and lack of connectivity of ICT-based information systems for logistics decision making, AEOLIX will establish a cloud-based collaborative logistics ecosystem for configuring and managing (logistics-related) information pipelines. This digital business ecosystem will create visibility across the supply chain, enabling more sustainable and efficient transport of goods cross Europe. An essential element of the approach is to ensure that for logistics actors connecting to and using the ecosystem in undemanding and has a low level of complexity. We envision the ecosystem enabling the integration of supply-chain-related transport business processes through logistics software solutions for cloud-based connectivity and interaction, in order to support more efficient collaboration in the logistics supply chain than exists today.

By enabling low-complexity and low cost connectivity of local ICT platforms and systems and thereby scalable, trusted and secure exchange of information, AEOLIX will improve the overall competitiveness of goods transport in the supply chain, while simultaneously targeting sustainability from environmental, economic and social perspectives.

Category: Projects
Skill Level: Beginner

The main goal of COG-LO is to create the framework and tools that will add cognition and collaboration features to future logistics processes by: 1) Introducing the Cognitive Logistics Object (CLO) by adding cognitive behavior to all involved Logistics actors and processes; 2) Developing the environment that will allow CLOs to exchange information through ad-hoc social secure networks. The main objectives of COG-LO are: (a) Definition of a Future Cognitive Logistics Objects reference implementation model that supports cognitive logistics behaviour; (b) Design and develop the necessary analytics and cognitive tools that enable complex event detection, context awareness and multi-criteria decision support. (c) To design and develop the collaboration platform based on hybrid ad-hoc social networks of CLOs. (d) To design and develop the COG-LO tools (Cognitive Advisor, which realizes the cognitive behavior of CLO based on the reference implementation model, and Tweeting CLOs, allowing CLOs to exchange information in ad-hoc Social IoT networks); (e) To evaluate the COG-LO results via intermodal, cross-country and urban logistics pilot operations. (f) To introduce new business models for ad-hoc collaborations affecting all logistics stakeholders and create a community of Logistics, ICT and urban environment stakeholders.
The consortium is led by SingularLogic and consists of 14 partners from 8 countries.

Category: Projects
Skill Level: Beginner

Ports are essential for the European economy; 74% of goods exported or imported to the EU are transported via its seaports. At the same time, the challenges they face are only getting greater: Volumes of cargo increase while they also arrive in a shrinking number of vessels: Post-Panamax vessels have a capacity of more than 18k containers. Port operators need to comply with increasingly stricter environmental regulations and societal views for sustainability. A sustainable land-use strategy in and around the port and a strategic transition to new, service-based, management models that improve capacity and efficiency are paramount. They are key enablers for ports that want to keep pace with the ocean carriers needs and establish themselves as trans-shipment hubs with a ‘societal license to operate’; for ports whose land strategy, hinterland accessibility and operations are underpinned by circular economy principles. COREALIS proposes a strategic, innovative framework, supported by disruptive technologies, including IoT, data analytics, next generation traffic management and 5G,for modern ports to handle future capacity, traffic, efficiency and environmental challenges. It respects their limitations regarding the port land, intermodal infrastructure and terminal operation. It proposes beyond state of the art innovations to increase efficiency and optimize land-use, while being financially viable, respecting circular economy and being of service to the city. Through COREALIS, the port will minimize its environmental footprint to the city, it will decrease disturbance to local population through a reduction in the congestion around the port. It will be a pillar of business innovation, promoting local startups in disruptive technologies of mutual interest. COREALIS innovations are key both for the major deep sea European ports in view of the new mega-vessel era, but also relevant for medium sized ports with limited investment funds for infrastructure and automation.

Category: Projects
Skill Level: Beginner

The EU maritime transport constitutes a crucial link in the global logistic chains and plays a leading role in international freight transport. Serving 40% of the EU’s internal trade and 75% of its external trade, maritime transport is an essential element in supporting Europe in maintaining its Number 1 position in global trade. Therefore, as a key node of the EU’s TEN-T ports have the ultimate objective to fully integrate maritime transport into the global logistics chain.
Within this framework, DocksTheFuture aims at defining the vision for the ports of the future in 2030, covering all specific issues that could define this concept including among others, dredging, emission reduction, energy transition, electrification, smart grids, port-city interface and the use of renewable energy management.
The proposal already addressed a preliminary research on the Port of Future concept, the definition of several Port of the Future topics to be addressed and their related targets in 2030 and a preliminary list of projects that could be potentially clustered together with the RIA retained proposals.
Moving from this point, DockTheFuture will:
- refine and tune the Port of Future concepts, the Port of the Future topics and their related targets in 2030 and the list of projects to be clustered together with the RIA retained proposals,
- identify appropriate KPIs and relevant monitoring and evaluation of results of actions
- leading to the a Port of the Future Road Map for 2030 that will include a number of exploitation elements such as tools for evaluation and transferability of Port of the Future solutions, R&D and policy recommendations, training packages and the creation of a Port of the Future Network of Excellence
All of these elements will be supported by a comprehensive Dissemination and Communication plan targeting all ports in Europe and other relevant stakeholders, including Mediterranean and other Neighbouring Partner Countries.

Category: Projects
Skill Level: Beginner

ICONET will significantly extend state of the art research and development around the Physical Internet concept in pursuit of a new networked architecture for interconnected logistics hubs that combine with IoT capabilities and aiming towards commercial exploitation of results. ICONET strives to achieve the end commercial goal of allowing shipments to be routed towards final destinations automatically, by using collaborative decisions inspired by the information centric networking paradigm, and optimizing efficiency and customer service levels across the whole network. According to this vision, cargo regarded as smart physical packets will flow between hubs based on ‘content’ of the cargo influencing key commercial imperatives such as cost, optimisation, routing, efficiency and advancing EU's Green agenda. Consequently, the consortium are discernibly aimed at three (3) avenues of commercialisation and exploitation from the ICONET innovation, specifically targeted in the areas of

(a) Warehousing as a service

(b) E-commerce fulfillment as a service, and

(c) Synchromodality as a service.

PI based logistic configurations will be simulated, prototyped and validated in the project . Modelling and analysis techniques will be combined with serious game type simulation, physical and digital prototyping, using living lab (LL) requirements scenarios and data. With analyses and simulations, optimal topologies and distribution policies for PI will be determined. The project implementation will be based on a succession of phases of modelling and design/prototyping, learning and experimentation and feedback and interaction with the wider business community, including the ALICE logistics platform as well as members of the partner Associations ESC, UIRR and ELUPEG. Through its Living Labs, the project will address under the PI paradigm both Supply Network Collaboration and Supply Network Coordination.

Category: Projects
Skill Level: Beginner

Big data has opened a wide spectrum of opportunities in the field of transport research. Observing the recent emergent interest in the application of big data within transport, as well as the extended scope of its applications, it is evident that most of the challenges have yet to be addressed.

Leveraging Big Data to Manage Transport Operations (LeMO) project will explore the implications of the utilisation of big data to enhance the economic sustainability and competitiveness of European transport sector. The project will study and analyse big data in the European transport domain in particular with respect to five transport dimensions: mode, sector, technology, policy and evaluation. LeMO will accomplish this by conducting a series of case studies, in order to provide recommendations on the prerequisites of effective big data implementation in the transport field.

Through case studies, LeMO will investigate methodological, technological, governmental and institutional issues, which in turn contribute to evidence-based decision making. LeMO will supplement these case studies with a horizontal analysis that identifies the barriers and limitations of the transportation system to exploit big data opportunities. In collaboration with strong advisory and reference group, and expert stakeholders, LeMO will devise and develop research and policy roadmap that will provide incremental steps necessary towards data openness and sharing to make transport safer, more efficient and more sustainable. Notably, LeMO will bring crucial issues linked to privacy, data security and legal aspects to the forefront, paving the way for future legal framework for the collection and exploitation of big data in transport.

Furthermore, LeMO will disseminate project findings to a large population of stakeholders, including transport authorities and industries leading to better understanding of travellers' and consumers' behaviour, targeted information and identify policy interventions.

Category: Projects
Skill Level: Beginner

The EU faces the challenge to maintain and increase its economic growth and cope with the problem of freight transport efficiency in Europe. Integration of transport volumes and modes, better use of capacity, flexibility, resource efficiency and cooperation between all actors along the logistic chain are required.

Aligned with the European policies and the ALICE roadmap, LOGISTAR objective is to allow effective planning and optimizing of transport operations in the supply chain by taking advantage of horizontal collaboration, relying on the increasingly real-time data gathered from the interconnected environment. For this, a real-time decision making tool and a real-time visualization tool of freight transport will be developed, with the purpose of delivering information and services to the various agents involved in the logistic supply chain, i.e. freight transport operators, their clients, industries and other stakeholders such as warehouse or infrastructure managers.

LOGISTAR will address several advances beyond the State of the Art in the interdisciplinary field of the smart algorithms for data processing: Artificial Intelligence focussed onr prediction, parallel hybrid metaheuristics for optimization, automated negotiation techniques, and constraint satisfaction problem solving techniques. The resulting platform will outperform other market products and services such as Freight Exchange Systems, Collaborative Platforms, Transport Control Towers or Routing Systems.

LOGISTARS involves RTD organisations (DEUSTO, UCC, CSIC), technology developers (DNET, SWC), consultancy firms (MDST, PRESTON), ICT services developers (SAG, DBH, GENEGIS) and stakeholders from different stages of the supply chain (AHLERS, ZAILOG, NESTLÉ, PLADIS, CODOGNOTTO).

The duration of the project is estimated to be 36 months and has an approximate budget of 5 million euros.

For further information you can vistit the project website:  https://logistar-project.eu

Category: Projects
Skill Level: Beginner

Currently most of EU research activities in the area of supply chain has been supported through programmes specifically focusing on some aspects as for example technologies for handling and transportation in ALICE, for internal logistics and production networks in EFFRA, Integrated platforms for implementing new communication paradigms in ICT, platfomrs for industrial symbiosis in SPIRE.
The aim of the project is to put in place a cross-sectoral and cross-technological initiative at European level to increase integration between production and distribution proposing research and innovation priorities for the future of supply chain.
In particular, the project will develop a Strategic Research Agenda where the effort of different communities like EFFRA, SPIRE, ALICE and other ICT are put together to face important challenges like customization and sustainability. Most important steps of the project will be: (i) Creating a European network where most important stakeholders will be involved reaching a critical mass of people from all targeted industries and scientific domains by mean of direct actions along the whole project life; (ii) Identifying future industrial scenarios for 2050: through the analysis of the socio-economic trends and drivers in the market and their impact on innovation & technology development it will be possible to fix some promising scenarios for the future; (iii) Developing a strategic research agenda and a joint action plan on broader innovation policy issues of common interest. NEXT-NET will be grounded on the analysis of most important European and national roadmaps status of implementation, on identification of the most promising enabling technologies for the future industrial scenarios to develop the research and innovation priorities, on workshops (focus groups, brainstorming sessions, ...) with experts and stakeholders from more that 4 supply chains accross Europe.

Category: Projects
Skill Level: Beginner

NOESIS project will identify the critical factors/features which lead to successful implementation of Big Data technologies and services in the field of transport and logistics with significant value generation from a socioeconomic viewpoint. This will be achieved through the examination of areas and contexts throughout Europe, in which ICT investments and exploitation of data should be implemented. The impact of Big Data will be evaluated in a series of transportation use cases (Big Data in Transport Library) by developing and applying a ‘Learning framework’ and a Value Capture mechanism which will estimate the expected benefits and costs.

Category: Projects
Skill Level: Beginner

Ports are a great example of heterogeneous information hubs. Multiple stakeholders operate inside and outside them with different motivations and businesses. Although document and data interchange is already in place through Port Community Systems (PCS), the interchange is limited to official documentation and services of the Port Authority, such as custom declarations, import/export of cargo, and other formal documents. However, an effective integration of operational data is far from optimal in most ports, and especially so in medium or small ports, where budget is limited and IT services usually is outsourced.

In contrast, the available operational data (resources tracking, container status, vessel operations, surface or berth available, air/water quality measurements,...) is constantly increasing and technology is getting inexpensive and widely available. However, the application of such systems is still single-entity centric, since the information is not shared, keeping the real potential of the Internet of Things (IoT) and Industry 4.0 hidden. The same holds for geographic areas surrounding ports, where Smart Cities integrate various data systems and provide valuable services to citizens and authorities.

PIXEL will enable a two-way collaboration of ports, multimodal transport agents and cities for optimal use of internal and external resources, sustainable economic growth and environmental impact mitigation, towards the Ports of the Future. PIXEL will leverage technological enablers to voluntary exchange data among ports and stakeholders, thus ensuring a measurable benefit in this process. The main outcome of this technology will be efficient use of resources in ports, sustainable development and green growth of ports and surrounding cities/regions.

Built on top of the state-of-the art interoperability technologies, PIXEL will centralise data from the different information silos where internal and external stakeholders store their operational information.

Category: Projects
Skill Level: Beginner

The Port of the Future will be able to enhance sustainable development and to manage the resources to be invested and their employment for a competitive advantage. Therefore, the port of the future must be oriented to port community and have an operative strategic capability to work, in line with European purposes, on the following:
- Smart, through ICT solutions, because it is important to improvement exchange of information flows between port and port community;
- Interconnected with the use of a combination of different modes of transport and the integration of different technologies, because it is important to achieve better monitoring and controlling of the freight flows;
- Green through the adoption of green technologies because it is important to reduce the environmental impact of port operations saving the resources.

All in all, sustainable development is the present and future for ports that want to lead the industry supported by three cornerstones: Operational Excellence, Insightful Collaboration with partners through the supply chain, and top notch Safety, Health and Environmental practices.

PortForward proposes a holistic approach that will lead to a smarter, greener and more sustainable port ecosystem and which will include the following features:

- The introduction of an Internet of Things (IoT) concept for port assets (infrastructure, vehicles, cargo, people):
- The socio-economic analysis of the port interface with its surrounding area and the port-city, as well as the rest of the logistics value chain.

Category: Projects
Skill Level: Beginner

SELIS is aimed at delivering a ‘platform for pan-European logistics applications’ by:
- Embracing a wide spectrum of logistics perspectives and creating a unifying operational and strategic business innovation agenda for pan European Green Logistics.
- Establishing an exceptionally strong consortium of logistics stakeholders and ICT providers, that can leverage EU IP from over 40 projects so as to create proof of concept Common Communication and navigation platforms for pan-European logistics applications in month 18 deployed in 8 living labs (LLs) representing the principal logistics communities..
- Establishing a research and innovation environment using the LLs to provide data than can be used for discovery of new insights that will enable continuous value creation supporting the large scale adoption of SELIS.

The proposed Shared European Logistics Intelligent Information Space, SELIS, is a network of logistic communities’ specific shared intelligent information spaces termed SELIS Community Nodes (SCN). SCNs are constructed by individual logistics communities to facilitate the next generation of collaborative, responsive and agile green transportation chains. SCNs link with their participants’ existing systems through a secure infrastructure and provide shared information and tools for data acquisition and use, according to a 'cooperation agreement'. Connected nodes, provide a distributed common communication and navigation platform for Pan European logistics applications. Each Node decides what information wishes to publish and what information wants to subscribe to.

The SELIS Community Node (SCN) concept represents the evolution of a longline of research in this area. The fundamental principle is that it provides a ‘lightweight ICT structure’ to enable information sharing for collaborative sustainable logistics for all at strategic and operational levels.

Category: Projects
Skill Level: Beginner
Skill Level: Beginner

In 2017 the comprehensive view on the Physical Internet from the IPIC conference merged with the technical and intralogistic view from the Logistikwerkstatt Graz for a promising format. Both the IPIC and the Logistikwerkstatt Graz are well established international conferences with broad contribution from industry and research. The purpose of our fourth Physical Internet conference was to bring together all interested parties and continue sharing of ideas to further build foundations and momentum towards the emergence of efficient and sustainable interconnected logistics. The Institute of Logistics Engineering (ITL) at Graz University of Technology hosted this international event July 4-6, 2017 in Austria on its campus.

The conference included keynotes from key stakeholders of supply chains (manufacturers, retailers, 3PL and academics) and stimulated the discussions in several workshop sessions. New business models, enabling technologies and experimentations already underway were presented, making this meeting a unique opportunity to learn, network and discuss the latest results and challenges about interconnected logistics.

In this content area you will find all contributions made to IPIC 2017 in Graz www.pi.events/IPIC2017/

Skill Level: Beginner

In this section you will find Reference Documents on the Physical Internet

Skill Level: Beginner