The first Annual SYNCHRO-NET meeting

The SYNCHRO-NET project had its first annual project meeting in Barcelona in early June. I had a pleasure to take part in the three-day event and enjoy the welcoming atmosphere and sunny weather of the Catalonian capital.

For those who are not yet familiar with the project, SYNCHRO-NET is a three-and-half-year demonstration project on advanced logistics optimization. The project seeks to advance and promote new concepts of synchro-modality and slow steaming for more cost-efficient, less congested and greener intermodal supply chains. The project includes three demonstrations that test slow-steaming and synchro-modal solutions in real international logistics networks. The first demonstrator involves shipping of goods from the Far-East to the ports of Valencia, Algeciras and Barcelona, and subsequent movement by rail inland and final short truck movement. The second demonstrator focuses on regional logistics movements through the Port of Cork. The third demonstrator will address multimodal container movements in major European routes. The project is funded by the European Commission under the Horizon 2020 Programme.

During the two first days of the meeting, the Partner Forum discussed the SYNCHRO-NET work ahead: standardization, development of a tool for logistics optimization, real-world demonstrations, and exploitation and dissemination of the project’s results. The discussion produced some interesting findings and conclusions. The Partner Forum observed that, given the large number and variety of factors, the optimization of shipping and logistics in terms of cost (including CAPEX, crew cost, fuel), duration, environmental impact, reliability and various types of risks is nothing but an easy task. For example, weather, tide and state of the sea affect maritime logistics, its speed, reliability and cost-efficiency. There was also a great deal of discussion about the dimensions of risk in the meeting. The International Organization of Standardization (ISO) defines risk as the “effect of uncertainty on objectives.” In this light, the concept of risk in the SYNCHRO-NET context covers at least damage to cargo, lead time variability, variability of cost, and possibility of theft and piracy. The Forum concluded that cost-efficiency and quality of international logistics depend largely on real-time awareness and visibility over logistics operations: “the sooner you know, the lower the cost will be to solve the problem.”

The three days of SYNCHRO-NET meetings culminated in the International Logistics and Material Handling (SIL) conference, the primary annual industry fair and networking event for logistics professionals in Spain. In the conference, Mr. Santiago Blasco (DHL) introduced SYNCHRO-NET at the “Consumer & Goods” working session for a large audience. Later that day, a group of leading logistics experts from Spain and the rest of Europe debated on pressing topics at three SYNCHRO-NET roundtables. The roundtable sessions focused on the general theme “How to build win-win solutions synchro-modal logistics stakeholders.” Here are brief summaries of the roundtable sessions:

  • “Smart Steaming – how to build a win-win solution for all stakeholders.” The members of the roundtable raised concerns about organizational, technical and business challenges of future slow steaming. There are obvious draw-back in slow steaming such as longer lead times and lower capacity utilization. However, the panel concluded that smart rather than slow steaming is here to stay: “While maintaining high service level, we can make logistics more cost-efficient.”
  • ”Effective management of synchro-modal logistics.” The panelists of the second session argued that the concept of synchro-modality is not yet very established in the logistics sector. Even so, the panel agreed that synchro-modality builds on real-time optimization, risk analysis and advanced, ITC-enabled logistics planning. Synchro-modality requires visibility over the supply chain, so that logistics planers react to contingencies and can make effective decisions in real time. The panel concluded that collaboration across supply chain operators – especially among shippers, carriers, freight forwarders – is the key to synchronized international logistics.
  • “Synchro-modal IT tools: innovation and value added to the logistics industry.” The third panel focused on the rather technical topic of leveraging cloud-based IT architecture for advanced logistics planning. The panelists saw a great potential in modern ICT solutions to enable synchro-modality, smart steaming and other ways for optimizing international freight transport. There still remain challenges for bridging a broad array of different computer systems for higher degree of logistics interconnectedness and interoperability.

The SYNCHRO-NET project has had a strong start, and the project progresses on the right track and at the full speed after one year of work. There is still much hard work to do over the next six months, for CBRA and other partners. In autumn, CBRA researchers will be focusing on reviewing policies, legislations, and standards that have an effect on synchro-modality and slow steaming. The CBRA team will also continue promoting the SYNCHRO-NET project and its findings at various events and publications. Stay with SYNCHRO-NET and visit the project website www.synchro-net.org.

CBRA Blog by Dr. Toni Männistö

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Figure 1 Santiago Bosco presenting SYNCHRO-NET at the the International Logistics and Material Handling (SIL) conference

SUPPLY CHAIN SECURITY – CBP Needs to Enhance Its Guidance and Oversight of High-Risk Maritime Cargo Shipments, GAO, January 2015 (CORE1059)

Summary: The report reviews the US Customs and Border Protection’s (CPB) approach to risk assessment and targeting of maritime shipping containers. The report’s highlights that CPB does not have clear decision rules and reporting procedures to monitor percentage of containers that the risk assessment system flags high-risk and that get eventually examined. The source of this problem is that the CPB’s officials (targeters) may waive examination of the high-risk containers if the container (i) falls within a predetermined category (standard exception), or (ii) the targeters can articulate why the shipment should not be considered high risk. The targeting units have currently differing definitions of “standard exceptions” and differing views on what constitutes the “articulate reasons.” The GAO report recommends the CPB to clarify, harmonize and enforce the rules and the procedures for waiving the high-risk containers from examination. As for CORE, this report provides a detailed and recent outlook on the US maritime risk assessment and targeting scheme, and this information is going to support work of the CORE’s risk cluster and the demonstrations that involve shipping of sea containers into the US. The report is available for download at: www.gao.gov/assets/670/668098.pdf.

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Full review: This GAO reports contains crucial information about the US risk assessment and container targeting systems that benefit the CORE’s risk cluster. The report outlines principles, procedures, datasets and scanning methods that constitute the world’s most advanced risk assessment system for maritime shipping containers. The CORE’s IT cluster might also benefit from the report’s description of the CPB’s Automated Targeting System (ATS) that is used to compute risk scores for shipping containers and flag the ones with the highest score as high-risk. Regarding the CORE demonstrations, the GM demon (WP19) must comply with data requirements (24-hour rule and the “10+2” rule) that enable the US risk assessment and targeting system. Also the demos involving customs controls, especially WP11.2 and WP10.1, may learn something from the ways how the US border control authorities are assessing risk levels of incoming containers.

Cross-references:

  • Supply Chain Security: CBP Needs to Conduct Regular Assessments of Its Cargo Targeting System. GAO-13-9. Washington, D.C.: October 25, 2012.
  • Maritime Security: Progress and Challenges in Key DHS Programs to Secure the Maritime Borders. GAO-14-196T. Washington, D.C.: November 19, 2013.
  • Supply Chain Security: Feasibility and Cost-Benefit Analysis Would Assist DHS and Congress in Assessing and Implementing the Requirement to Scan 100 Percent of U.S.-Bound Containers. GAO-10-12. Washington, D.C.: October 30, 2009.

Additional keywords: Security Filing and Additional Carrier Requirements (known as the 10+2 rule), 24-hour rule, risk assessment

 

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Review of Cargo 2000, C2K – an IATA interest group with the mission of creating and implementing quality standards for the worldwide air cargo industry, 2015 (CORE1043)

Summary: Cargo 2000 is the quality standard for the tracking, measuring general air cargo shipments. It is a project commenced in 1997 and is supported by a self-funded group of the world’s leading Airlines, Forwarders, Ground Handling Agents and specialist IT providers. IATA then provides oversight, administration and facilitation on behalf of the Membership. Cargo 2000 (C2K) uses standard recognized IATA Cargo-IMP (Interline Message Procedures) already used within the air cargo industry to provide reference points for measurement. These are known as FSU (Freight Status Update) messages. The key metrics under C2K are NFD (Notified for Delivery), in which case the destination has received both the physical cargo shipment and the information (paper or electronic) is available for collection by the Agent of the Consignee, and FAP, Flown as planned. In this case, the service delivered matches that which was promised to the customer in terms of timings and flights. In order to simplify and standardize the various processes that support C2K, as it is used by multiple stakeholders in a live environment, the C2K Master Operating Plan (MOP) was completely revised in 2012. The result is a very visual process description that allows every stakeholder to clearly see the part they play in the overall end-to-end routing of the shipment. The visual nature of the schematics, also allows the assessment of any new legislation, processes or procedures to be predicted both up and down the chain. Available to General Pubic at the IATA Website, this standard is hyperlinked here: http://www.iata.org

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Full review: Relevance for CORE: The CORE implementation objectives, which specify what will be done and how to reach the vision, are all subject to the Policies, Regulations, and Standards that exist within the Security Domain of the Global Supply Chain. Among all Work Packages of the project, some are directly impacted by the project, while others are solely primarily or secondarily contributed. Among these Work Packages, the CORE demonstrators will validate the applicability and benefits of the CORE approach in representative operating scenarios characteristic of the global supply chain. They will specifically show the way towards a Global Secure Supply Chain. The overriding goal is to demonstrate substantial gains in security and facilitation covering every major facet of the supply chain security sector.

The following CORE Work Packages are directly impacted by the C2K Industry Standards:

  • WP7: CORE Connectivity Infrastructure and Solutions Development Environment – provide an integrated set of tools for developing solutions for the Demonstrators in line with SCSRF utilising results from reference projects particularly e-Freight and iCargo.
  • WP12: Demonstrator Schiphol – apply global data pipeline concept to air cargo supply chains, managing air freight specific trade compliance requirements, and offering supply chain visibility in dashboards. Trade lanes with e.g. Africa, involving multiple inspection authorities.
  • WP17: DHL Demonstrator – managing airfreight trade compliance requirements EU-US in the context of fast supplying of parts. In this demonstrator, Cargo 2000 and mutual recognition with the US will become evident.

The following CORE Work Packages are primarily contributed by C2K:

  • WP14: Demonstrator FALACUS – FastLAne through CUStoms – implement an extensive supply chain of ceramics products along international corridors between Italy and USA.
  • WP15: Decathlon Demonstrator – operational and security related Key Performance Indicators (KPIs) within the CORE framework will be applied to monitor the overall level of security within the supply chain for different supply chain actors Taiwan to retail shop destinations across Europe implementation of this new transit modality and the impact it would have on the overall performance of the supply chain.
  • WP19: Stakeholder Engagement – Knowledge Diffusion and Sustainable Development Specify and apply an inclusive Stakeholder Engagement Strategy emphasising international co-operation to promote harmonisation of regulations, and to support further development and implementation of international standards.

The C2K Standard will have the secondary effects on the following Work Packages:

  • WP3: Multi-method Threat and Vulnerability Analysis (MTVA) Suite
  • WP4: SC Situational Awareness Tools & Maps
  • WP5: Real-time Lean Agile Resilient Green Optimised (LARG+O) SC
  • WP16: ENI Demonstrator
  • WP22: Analysis and Testing of a Secure Hybrid Composite Container

CORE Impact Anticipation: CORE seeks to give consolidated solutions and develop the resilience, optimisation and interoperability of the global supply chain, including Port, Container, Post, Truck, Rail, Maritime and Air. Cargo 2000 contributes thence directly to CORE vision.

Cross References: Introduction to Cargo 2000 by IATA, http://www.iata.org/whatwedo/cargo/cargo2000/Documents/c2k-introduction.pdf

Full Citation: IATA Website, Cargo 2000 Page, accessed 22 September 2014: http://www.iata.org

 

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Review of the TIR Convention and its accompanying Security and Risk Management electronic tools, 2013 (CORE1040)

Summary: The Customs Convention on the International Transport of Goods under Cover of TIR Carnets (TIR Convention, 1975) constitutes the international legal framework for the TIR system. TIR is the only universal Customs transit system, today operational in 58 countries, that allows the goods to transit from a country of origin to a country of destination in sealed load compartments with Customs control recognition along the supply chain. This minimizes administrative and financial burdens, while Customs duties and taxes that may become due are covered by an international guarantee (covering more than USD 1 billion worth of international trade every day). In order to ensure the security of the TIR System, electronic controls run in parallel with the security elements already specified in the TIR Convention. TIR handbook can be found at: http://www.unece.org

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Full review: The TIR system is an international Customs transit system for goods. ‘TIR’ stands for Transports Internationaux Routiers (International Road Transport) and is an international harmonized system of Customs control that facilitates trade and transport whilst effectively protecting the revenue of each Country through which goods are carried. It is based on six essential principles and an electronic security and risk management control system composed of four tools:

  • Secure vehicles or containers: Goods are carried in sealed vehicles or containers which are approved for use by Customs and re-approved every two years.
  • International chain of guarantee: Duties and taxes due in case of irregularity are secured by an international guarantee chain throughout the journey.
  • TIR Carnet: The goods are accompanied by the TIR Carnet: a harmonized control document accepted by the Customs authorities of the countries of departure, transit and destination.
  • Mutual recognition of Customs controls: Control measures taken in the country of departure are accepted by countries of transit and destination.
  • Controlled access: Access to the TIR system for national issuing and guaranteeing Associations is given by the competent national authorities, and for transport operators, by the national Customs authorities and the national Association.
  • SafeTIR: An electronic control system for TIR Carnets that provides traceability and risk management, as described in Annex 10 to the TIR Convention.

Real-Time SafeTIR (RTS) allows customs officers to enhance their risk management procedures and comprises following three modules:

  • SafeTIR data transmission module: Once a TIR operation is terminated, RTS automatically sends a SafeTIR message to the IRU.
  • TCHQ: TIR Carnet Query Module allows any customs office to obtain immediate information on the status of the Carnet for the prompt detection of any possible irregularities.
  • SafeTIR Reconciliation Automation module: automates the SafeTIR data reconciliation procedure.

TIR Customs Portal is an online service developed by the IRU, which allows customs officers to:

  • obtain immediate information on the status of the TIR Carnet for the prompt detection of any possible irregularities; and
  • transmit SafeTIR data on the termination of the TIR operation.

ASKTIRweb makes it easier for TIR associations to manage the entire life-cycle of the TIR Carnets from the time of order and delivery from IRU until their return to the IRU and the subsequent administrative procedures such as claims and SafeTIR. ASKTIRweb is a mandatory TIR Carnet management system for all new TIR associations.

The TIR-EPD application is intended for submission of advance information on transported goods to Customs Authorities. Fully compliant with WCO SAFE Framework of Standards and with the national regulations of connected countries, TIR-EPD enables Customs Authorities to perform advance risk analysis. TIR Carnet Holders can send advance information free-of-charge simultaneously to the Customs Authorities of the countries according to their itineraries.

In order to ensure the security of the TIR System, electronic controls run in parallel with the security elements already specified in the TIR Convention.

The perceived strengths of the TIR-system include: Access to 58 TIR operational countries; Management of a low cost, high value guarantee; Intermodality; Security in the supply chain; Reduced delays and costs for the international transit of goods; and Trade facilitation – goods move across international borders with minimum interference. Future opportunities include: Increased trust with national Customs; Encouragement of international trade; and Economic benefits for supply chain actors and nations.

Detailed analysis and relevance for CORE:

Research and analysis: The TIR system is based on proven business-to-governments solutions and both CORE and the TIR system could benefit from an investigation and evaluation of the legal, technical and operational feasibility as well as the business benefits of integrating TIR data to the CORE ecosystem and CORE concepts and solutions such as “trusted trade lane”, “data pipeline”, “piggy-backing” for customs and “dashboards”.

Demonstrators: The use of TIR and its security and risk management electronic tools in the framework of CORE demonstrators can have four different types of advantages which meet CORE’s overarching objectives to optimize the security of global supply chain whilst maintaining or improving business performance:

  • Compliance with customs requirements: customs duties attached to the goods guaranteed by the TIR guarantee chain.
  • Security of exchanges: transmission of safety and security data, in accordance with e.g. EU Customs legislation, to national customs before the arrival of the goods at borders.
  • Facilitation of international trade: mutual recognition of customs controls for all TIR countries and reduction of customs formalities at borders.
  • Visibility of data: use of TIR security and risk management electronic tools to check the status of TIR operations in real-time.

CORE Impact anticipation: CORE can have an important impact on the TIR system by reinforcing its place as a global multimodal logistics and trade solution. The investigation and evaluation of the legal, technical and operational feasibility as well as the business benefits of using the existing features of the TIR system within the CORE ecosystem and opening cargo-related datasets can contribute to improving freight and logistics services provision and operations by shippers, LSPs, transport operators, ports and customs authorities. The efficiency and security upgrades will come by significantly reducing waiting times and administrative burden at borders and at the same time providing a more cost efficient way of improved supply chain visibility and traceability of cargo to the benefit of all private and public stakeholders.

Cross-references:

Application of the TIR Convention in the EU: Council Regulation (EEC) No 2913/92; Commission Regulation (EEC) No 2454/93 and Regulation (EU) No 952/2013 of the European Parliament and of the Council applicable as of 1 May 2016.

Youtube video on TIR: https://www.youtube.com

 

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SUPPLY CHAIN SECURITY – DHS Could Improve Cargo Security by Periodically Assessing Risks from Foreign Ports, GAO, September 2013 (CORE1007)

Summary: This GAO report reviews maritime supply chain security programs that the Department of Homeland Security and its component agencies – mainly the Customs and Border Protection (CBP) and the Coast Guard – have implemented since 2001. The report examines (1) the extent to which DHS has assessed risk levels of foreign ports and allocated security resources accordingly and (2) activities DHS has taken to monitor and improve efficiency and effectiveness of its security initiatives. Drawing on numerous interviews of key stakeholders and examination of key documents, the report recommends CBP to consider expansion of its Container Security Initiative (CSI) into new ports based on a periodic risk assessment of foreign ports. The report also highlights opportunities for further harmonization of the US maritime security initiatives with their foreign counterparts through mutual recognition agreements. Since this report contains fundamental information about the US maritime security programs, many CORE work packages are likely to benefit from the insights this report provides. Especially, the demonstrations, which involve ocean shipping, as well as the risk cluster, can use this information to support and guide their work. The document is available for download at: http://www.gao.gov/assets/660/657893.pdf (accessed 13.3.2016)

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Full review: The report provides a comprehensive outlook on the US maritime supply chain security initiatives that the DHS and its component agencies – mainly CBP and Coast Guard – have implemented since 2001. The report features some interesting figures that map the security initiatives on the global supply chain and that illustrate current solutions the US government employs to screen and examine US-bound shipping containers. The CORE’s demonstrations that involve maritime shipping are likely to benefit from the information this report provides. Also the risk cluster can use the information, and especially the mapping of the US maritime security initiatives over the global supply chain, to design risk-based, layered approaches to maritime supply chain security. The education cluster can also reuse the contents of this report to produce relevant and informative training material for various supply chain stakeholders that are involved in the seaborne trade and logistics.

Cross-references:

  • Maritime Security: Progress and Challenges 10 Years after the Maritime Transportation Security Act. GAO-12-1009T. Washington, D.C.: September 11, 2012.
  • Supply Chain Security: Container Security Programs Have Matured, but Uncertainty Persists over the Future of 100 Percent Scanning. GAO-12-422T. Washington, D.C.: February 7, 2012.
  • Homeland Security: DHS Could Strengthen Acquisitions and Development of New Technologies. GAO-11-829T. Washington, D.C.: July 15, 2011.
  • Maritime Security: Responses to Questions for the Record. GAO-11-140R. Washington, D.C.: October 22, 2010.
  • Supply Chain Security: DHS Should Test and Evaluate Container Security Technologies Consistent with All Identified Operational Scenarios to Ensure the Technologies Will Function as Intended. GAO-10-887. Washington, D.C.: September 29, 2010.
  • Supply Chain Security: CBP Has Made Progress in Assisting the Trade Industry in Implementing the New Importer Security Filing Requirements, but Some Challenges Remain. GAO-10-841. Washington, D.C.: September 10, 2010.

Additional keywords: Mutual recognition, Customs-trade partnership against Terrorism (C-TPAT), Container Security Initiative (CSI), maritime security, counter-terrorism

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SUPPLY CHAIN SECURITY – Container Security Programs Have Matured, but Uncertainty Persists over the Future of 100 Percent Scanning, GAO, February 2012 (CORE1005)

Summary: This GAO document analyses the progress and challenges of the US maritime supply chain security initiatives. The document puts a special emphasis on (1) the advance cargo information (ACI) schemes that enable the US Customs and Border Protection (CBP) to assess risk levels of US-bound cargo containers, (2) technologies to track, monitor and screen the shipping containers for weapons of mass destruction (WMD) and other contraband, and (3) to evaluate the progress towards the 100-percent scanning of the US-bound containerized cargo. As the overarching theme, the report addresses the current state of the partnerships the component agencies of the Department of Homeland Security (DHS) have been fostering with the private sector and foreign governments. Besides the demonstrations, which deal with the US-related maritime logistics, the CORE’s risk and educational clusters can benefit from the insight and information this report offers. The document is available for download at: http://www.gao.gov/assets/590/588253.pdf (accessed 12.3.2016)

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Full review: This report provides a general outlook on the US maritime supply chain security initiatives, but the contents of this document largely overlaps with other, reviewed GAO documents. However, this report offers some fresh perspectives on the US maritime security – particularly the best updates available on the advanced cargo information programs –, and therefore the CORE’s partners, which are engaged in demonstrations on maritime security, might benefit from studying this GAO document. Moreover, the CORE risk, educational and IT clusters might learn from this document how the US Department of Homeland Security (DHS) has implemented its supply chain security philosophy in the maritime context. In particular, the risk cluster may use the description of the US risk-based approach to cargo inspections as a starting point for the related CORE solutions. The IT cluster may learn from the ways how the US government has organized its IT processes and infrastructure that support the maritime security initiatives. Finally, the educational cluster can use the material of this report to produce meaningful training material for CORE’s stakeholders that are engaged in maritime supply chain security.

Cross-references:

  • Supply Chain Security: DHS Should Test and Evaluate Container Security Technologies Consistent with All Identified Operational Scenarios to Ensure the Technologies Will Function as Intended. GAO-10-887. Washington, D.C.: September 29, 2010.
  • Supply Chain Security: CBP Has Made Progress in Assisting the Trade Industry in Implementing the New Importer Security Filing Requirements, but Some Challenges Remain. GAO-10-841. Washington, D.C.: September 10, 2010.
  • Combating Nuclear Smuggling: Inadequate Communication and Oversight Hampered DHS Efforts to Develop an Advanced Radiography System to Detect Nuclear Materials. GAO-10-1041T. Washington D.C.: September 15, 2010.
  • Supply Chain Security: Feasibility and Cost-Benefit Analysis Would Assist DHS and Congress in Assessing and Implementing the Requirement to Scan 100 Percent of U.S.-Bound Containers. GAO-10-12. Washington, D.C.: October 30, 2009.
  • Combating Nuclear Smuggling: Lessons Learned from DHS Testing of Advanced Radiation Detection Portal Monitors. GAO-09-804T. Washington, D.C.: June 25, 2009.

Additional keywords: Importer Security Filing (10+2 rule), Advanced Targeting System (ATS), 24-hour rule, 100-percent scanning requirement

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C-TPAT Program Benefits Reference Guide, 2014 (CORE1032)

Summary: This guidebook outlines the key elements and benefits of the Customs-Trade Partnership Against Terrorism (C-TPAT) program that is designed to secure global supply chains and to improve United States border security. Document is available at: https://www.cbp.gov/sites/default/files/documents/C-TPAT%20Program%20Benefits%20Guide.pdf (link tested on 3 March 2016)

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Full review: C-TPAT partners receive a wide range of benefits listed below:

  • C-TPAT Partners are examined at a considerably lower rate than non-C-TPAT Partners.
  • C-TPAT certified/validated highway carrier Partners are granted expedited border crossing privileges. C-TPAT Partners at many Canada/Mexico land border ports of entry have access to Free and Secure Trade (FAST) Lanes.
  • Some categories of C-TPAT importer Partners are exempt from stratified exams.
  • C-TPAT shipments subject to examination are moved ahead of any non-C-TPAT shipments, to the extent possible.
  • In the event of a significant disruption/delay in cargo processing operations, actions are taken to maintain communication and coordination with C-TPAT Partners for business resumption.
  • C-TPAT Partners’ trade compliance issues are given priority over those issues related to non-C-TPAT Partners.
  • Each C-TPAT Partner is assigned a Supply Chain Security Specialist (SCSS) who coordinates between the C-TPAT Partner and the US Customs and Border Protection agency (CBP). The Specialist also assists the Partner with supply chain security issues.
  • Partners have access to the C-TPAT’s automated Portal system, to communicate with CBP and exchange program related information in a secure manner.
  • C-TPAT Partners are eligible to attend C-TPAT events like the annual Conference and other training seminars organized by the program.
  • C-TPAT importer Partners are eligible to participate in the Importer Self-Assessment (ISA) Program.
  • The Penalty Mitigation benefit is granted to sea carriers for late submission of data required under the Importer Security Filing requirements.
  • C-TPAT members are eligible to participate in other U.S. Government pilot programs, such as the Food and Drug Administration’s Secure Supply Chain program.

In addition, some benefits are associated with Mutual Recognition Arrangements (MRAs) when two customs authorities formally acknowledge the security requirements or standards of one program, as being equivalent to the other program. Some of the resulting benefits to the trade community are illustrated below:

  • C-TPAT importer Partners that also conduct export operations and Partners of the foreign Customs Administration programs (manufacturers and exporters of record) are granted a reduction in their overall cargo risk score, implying fewer examinations at export and import ports.
  • A C-TPAT validation for an overseas partner is not required if an MRA is in place because CBP recognizes the status of the Partner in the foreign partnership program.
  • Companies covered by MRAs need only to comply with a common set of security requirements, avoiding the hassle of following multiple sets of requirements from one partnership program to another.
  • MRAs lead to more transparency in international commerce. Mutual exchange of information between these partners facilitates trade across Mutual Recognition Partner nations.

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C-TPAT Best Practices Catalog Addendum, 2009 (CORE1031)

Summary: This addendum document lists cargo security best practices with focus on prevention of weapons of mass effect, terrorists, and/or contraband from infiltrating into the international supply chain. Each best practice is linked to a specific business entity, such as a Manufacturing Company, a Highway Carrier, an Importer or a Foreign Consolidator but these may apply to other business types as well. The document is available at: https://www.cbp.gov/sites/default/files/documents/ctpat_bpa_2009_0.pdf (link tested on 3 March 2016)

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Full review: The best practices are outlined as follows:

Risk assessment: Programs are in place to enable the identification of the most vulnerable supply chain areas, to grade suppliers supply chain security criteria. Specific processes have been developed to manage the supplier’s products, software and services and internal monitoring systems to enhance the safety and security procedures.

Business partner requirements: Several security measures have been taken by entities. These include conducting supply chain security audits to ensure compliance of non-C-TPAT business partners; carrying out security audits of a foreign manufacturer; making security self-assessments, conducting onsite inspections to ensure freight security; shipping cargo only through accredited ports and steamship lines; monitoring compliance of manufacturing facilities; screening procurements to identify ineligible status of suppliers, and performing audits of business partners.

Conveyance/Container/Trailer Security: Examples of such security practices are: integrating special security features in the GPS (global positioning system); using laser beams to protect trailers; using colour codes for matching consignments; installing infrared sensors in docks to prevent unauthorized access; using special codes to identify correct shipments; documenting all seal changes for shipments in transit; ensuring delivery by authorized Company drivers; sealing containers; operating through C-TPAT carriers; using only “seaworthy” containers; installing in-transit temperature data sensors to ensure product quality; enclosing container storage area; conducting non-intrusive inspection prior to loading a vessel; establishing specific inspection points; using multiple security devices on each container; using automated container yards; instructing foreign suppliers to provide inspection checklists; using dock locking arms for container storage; installing motion sensors in a trailer; operating through contracted highway carriers and security services; documenting a seal destruction policy, and so forth.

Physical Access Controls: Some practices by Importers include establishing multiple security stations within the building; using metal detectors for employees; installing an electronic swipe card/ lock box systems for access control for sensitive documents; conducting electronic scanning of visitors’ drivers licenses; utilizing a third-party software system to manage key inventory; and providing panic buttons for company employees.

Physical Security: Several innovative solutions have been designed to ensure physical security, such as electronically closing gates and activating tire puncturing devices to prevent vehicle exits; using an electronic security information reporting system, installing invisible electronic fences; installing laser sensors; setting up optical light beams to detect intruders; fitting double locks on doors; Installing infrared sensors on fences; using body alarm functions for emergencies; appointing patrolling guards, using multiple glass meeting rooms; using multiple interior infrared security alarm beams to detect unauthorized access; and installing security guard view towers.

Personnel Security: An Importer requires business partners to provide a monthly master list of employees and immediately notify when their employees are hired or terminated, in order to ensure that only authorized business partner’s employees enter the manufacturing facilities.

Security Training/Threat Awareness/Outreach: Business entities have invested in a wide range of training programs. One such initiative is the four-tier C-TPAT training targeted for management and supervisors, shipping and receiving personnel, internal personnel dealing with contractors and hourly staff. Other businesses use different approaches, like establishing an online training portal;; offering general security training and of site-specific training for security guards; issuing security advisories; making regular security awareness assessments; establishing a situation matrix chart to address possible incidents; establishing a direct communication channel between the president of the company and employees; putting in place a toll free hotline for company personnel; conducting security drills and exercises; establishing a web-based security awareness training; documenting security incidents in a central database; and establishing a global communication system to contact all employees and contractors remotely.

Procedural Security: Instances of this type of security measures include a bio-thermal intrusion alarm system; a global SAP network to generate all written orders for import and export; automatic screening procedures of purchase orders for restricted parties; lock boxes for sensitive documentation; an automated loading module called the Automatic Truck Loading System (ATLS); a container seal number as the shipment tracking (invoice/bill of lading) number, and so forth.

Information Technology (IT) Security: Such security practices include a biometric fingerprint door lock; a remote data backup center; a retina scanning system for access to the computer system; requiring supervisory approval to copy data; use of electronic password protected purchase orders; establishing a daily “e-test” for employees to access computers, and so forth.

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CEN Supply Chain Security — Good Practice Guide for Small and Medium Sized Operators, 2012 (CORE1030)

Summary: This is a guidance document for small and medium sized enterprises, SMEs. on how to apply a supply chain security approach to their operations in order to mitigate the risk of criminal activities. It gives an overview of the main crime types occurring in the supply chain along with some countermeasures, as well as the supply chain security initiatives, and the compliance requirements thereof. The document is available for purchase e.g. at:   http://shop.bsigroup.com/ProductDetail/?pid=000000000030258778  (link tested on 3 March 2016)

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Full review: The recommended supply chain strategy rests on a six-step approach. The first step is to define a context for the supply chain, crime prevention and security management activities taking into consideration the security sensitiveness, the geography and transport modes, and the main stakeholders involved in the supply chain operation. The second step is to make a threat and vulnerability analysis with regard to terrorist and other criminal threats in the supply chain. The main criteria included are the gaps existing in enhanced security, the high-risk crime types, and the potential consequences of crime occurrences. The third step covers the regulatory framework, the major aspects being the regulations and programs required for successful business operations, expectations of customers and suppliers, requirements laid down by insurance providers, and relevant government authorities. The fourth step refers to an overall security plan, taking into account the physical security, data security, human resources security (including selection, training, and exit procedures), business partner security (including selection, and auditing), and process control and monitoring of deviations. The fifth step involves implementing into practice concrete security measures, investment in technologies, procurement of services, in-house solutions and so forth. The final step is to monitor and measure the security performance and take appropriate corrective actions.

Five supply chain crime types have been elucidated in this guide. These include:  Property theft (cargo theft, intellectual property breaches); targeted damage (terrorism, sabotage); cross-border duty and tax fraud; illegitimate transporting, exporting and/or importing (smuggling of prohibited and restricted goods, people smuggling); and crime facilitation (document forgery, bogus companies, cybercrime). For each crime type, the main focus should be on the issue (main features and typical sectors/products involved), scope of the problem and actions to mitigate risks.

This guidebook has chosen eight security initiatives for illustration purposes. It explains the context of each initiative, whom it is meant for, and some basic requirements and the implications. These are as follows:

  • Import Control System (ICS) in the EU (a systems tool meant for the lodging and processing of Entry Summary Declarations, and for the exchange of messages across national customs agencies, economic operators and the European Commission).
  • Export Control System (ECS) in the EU (introduces EU procedures to computerize and control indirect exports and to implement the EU safety and security regulations);
  • Maritime Security Legislation, International Ship and Port Facility Security (ISPS) Code in the EU (International regulations to ensure the security of maritime transportation are being issued by the International Maritime Organization, IMO, in the International Ship and Port Facility Security Code);
  • Aviation Security Legislation, Air Cargo Supply Chains in the EU (three categories of aviation security legislation exist in the EU- Framework regulation, supplementing regulations, and implementing regulations-all targeted towards civil aviation security).
  • European Union Authorized Economic Operator, EU AEO (operators involved in international trade of goods certified as complying with WCO or equivalent supply chain security standards);
  • Regulated agent, Known consignor and Account consignor in the EU (Specific “trusted trader” status existing in the European air cargo supply chains);
  • ISO 28000 Series of Standards on Supply Chain Security Management Systems (address potential security issues at all stages of the supply process, e.g. terrorism, fraud and piracy);
  • Transported Asset Protection Association (TAPA) in Europe (fighting cargo crime using real-time intelligence and the latest preventative measures).

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Border Agency Cooperation, Part 3 of 3

The last blog in our three-part series on Border Agency Cooperation introduces a conceptual framework capturing the essential dimensions of Border Agency Coordination: three levels of collaboration, four areas of integration and four objects for sharing. We hope that the framework helps the customs and other border agency communities to see all levels of Border Agency Cooperation (BAC) so that they can move from isolated coexistence towards more active cooperation at the borders. Higher levels of cooperation are likely to translate into higher levels of trade facilitation, control over cross-border cargo flows and resource efficiency, simultaneously. Compared with the previous BAC Blog Part 2, this BAC Blog Part 3 intends to present a comprehensive framework surrounding BAC ambitions, plans, implementations and monitoring activities – while the previous BAC Bloc 2 focused purely on a set of 15 key BAC actions, grouped according to the main beneficiary groups. This final BAC Blog has been written by Dr. Toni Männistö of CBRA.

Let’s start by first presenting the BAC diagram: Conceptual framework on Border Agency Cooperation (source: Männistö, T., and Hintsa J., 2015; inspired by Polner, 2011 and by Institute of Policy Studies, 2008)

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Levels of cooperation

Intra-agency cooperation is about aligning goals and work within one organization, either horizontally between departments or vertically between headquarters and local branches, in particular border-crossing offices / stations. Ways to foster horizontal intra-agency cooperation include development of intranet networks, cross-training, inter-departmental rotation of staff, and establishment of joint task forces that tackle multifaceted challenges like transnational terrorism. Ideally, the vertical cooperation would be bi-directional: headquarters would define priorities and objectives and then communicate them to local branches. The branches would, reciprocally, send back status reports and suggest improvements to the general policies. Solving intra-agency cooperation lays a basis for broader cooperation: it’s hard for any organization to cooperate efficiently with external stakeholders if it struggles with internal problems. The logical first step in coordinated border management is therefore breaking departmental silos and building a culture of cooperation within boundaries of one organization.

Inter-agency cooperation, at the operational level, concerns relationships among a broad range of border agencies that play a role in controlling cross-border trade and travel. In many countries, primary agencies present at the borders include customs, border guards, immigration authorities and transport security agencies. However, also police organizations, health authorities, and phytosanitary and veterinary controllers, among others, take part in border management. According to a recent study, typical areas of customs- border guard inter-agency cooperation can include strategic planning, communication and information exchange, coordination of workflow of border crossing points, risk analysis, criminal investigations, joint operations, control outside border control points, mobile units, contingency/emergency, infrastructure and equipment sharing, and training and human resource management (CSD, 2011). Governmental inter-agency cooperation occurs between border control agencies and ministries and policy making bodies that are responsible for oversight and financing of border management activities.

International cooperation may take place locally at both sides of a border. One Stop Border Posts, OSBPs – border crossings managed jointly by two neighboring countries – are prime examples of such cooperation. One Stop Border Posts can involve various forms of collaboration: harmonization of documentation, shared maintenance of the infrastructure, joint or mutually recognized controls, exchange of data and information and common investments in infrastructure and so forth. Operational arrangements between the Norwegian, Finnish and Swedish customs illustrate advanced international cross-border cooperation that save time and money of border control authorities and trading companies. The cooperation builds on division of labor, where the national border authorities of each country are allowed to provide services and exercise legal powers of their home country and neighboring countries. For instance, when goods are exported from Norway, all paperwork related to both exports and imports may be attended by either Swedish, Finnish or Norwegian customs office (Norwegian Customs, 2011). At the political level, this requires international cooperation between authorities and policy makers in two or more countries. Operational cooperation (e.g., mutual recognition of controls or regional Single Window), often bringing tangible trade facilitation benefits, usually follows from political, supranational decisions (e.g., the WCO’s Revised Kyoto Convention and SAFE Framework of Standards).

Areas of integration

Technical integration often entails improving connectivity and interoperability of information and communication technology systems within and across organizations. Single Window solutions are typical outcomes of technical cooperation as they enable automatic exchange of electronic trade information among border control agencies. The UN Centre for Trade Facilitation and Electronic Business, UN/CEFACT, is an important international organization helping to build connectivity across countries and between business and governmental stakeholders. UN/CEFACT, for instance, develops and maintains globally recognized standards for EDI messages.

Operational integration is largely about coordination of inspection and auditing activities among border control agencies. Benefits of synchronized activities are evident: organizing necessary controls at one place and at the same time reduces delays and administrative burden that trading companies and travelers face at borders. A simple and powerful example of operational integration is coordination of opening hours and days of customs offices at the both sides of a border. Operational integration also covers provision of mutual administrative assistance, joint criminal investigations and prosecution, and sharing of customs intelligence and other information.

Legislative integration seeks to remove legal barriers and ambiguities that prevent border control agencies from exchanging information, sharing responsibilities or otherwise deepening their cooperation. Essentially, most forms of Border Agency Coordination require some degree of legislative harmonization and political commitment. For example, Article 8 of the WTO/TFA to the WTO Members requires that national authorities and agencies responsible for border controls and dealing with the importation, exportation and transit of goods must cooperate with one another and coordinate their activities in order to facilitate trade.

Institutional integration is about restructuring roles and responsibilities of border controls agencies. An example of a major restructuring is the annexing of US border control agencies – including the US Customs and Border Protection, Transportation Security Administration and Coast Guard – into the Department of Homeland Security, DHS, a body that took over the key governmental functions involved in the US non-military counter-terrorism efforts in the aftermaths of the September 11th, 2001, terrorist attacks.

Objects of sharing

Sharing of information – data, knowledge and intelligence – reduce duplicate work (e.g., sharing of audit findings), enable operational coordination (e.g., synchronized border controls) and facilitate development of common agenda for future border agency coordination. At the global level, the WCO’s Customs Enforcement Network CEN is an example of a trusted communication system for exchanging information and intelligence, especially seizure records, between customs officials worldwide. Another WCO initiative, the Globally Networked Customs, analyzes potential to further “rationalize, harmonize and standardize the secure and efficient exchange of information between WCO Members” (WCO 2015).

Resource sharing involves multi-agency joint investments in equipment, facilities, IT systems, databases, expertise and other common resources. The joint investment activities are likely to result in higher resource utilization and bulk purchasing discounts. For example, national and regional Single Window solutions are often outcomes of joint development and investment activities of various government agencies.

Sharing of work is mostly about rationalization of overlapping border control activities, controls and formalities. If two border control agencies, for instance, agree to recognize each other’s controls, there is no need to control the same goods more than once. Combining forces to investigate and prosecute crime also often help border control agencies to use their limited resources more efficiently.

Sharing of responsibilities is about coordinating and streamlining administrative and control tasks among border control agencies. Norway, again, sets a good example of sharing the responsibilities. The Norwegian customs represents all other border control agencies – except the veterinary office – at the frontier. Customs officers are responsible for routine border formalities, and they summon representatives of other border control agencies as and when the officers need assistance. Internationally, the Norwegian customs cooperates closely with Swedish and Finnish border control authorities at the Northern Scandinavian border posts. Bilateral agreements between its neighbors allow Norwegian customs officers authority to perform most customs checks and formalities for and on behalf of their Swedish and Finnish colleagues. The coordination decreases border-crossing times and lowers administrative costs for trading companies and the border control agencies in the three countries.

This concludes now our three-part series on Border Agency Cooperation. In Part 1, we shared an illustrative worst case example on how complex, slow and expensive a cross-border supply chain execution comes when no cooperation takes place between relevant government agencies, neither nationally nor internationally. In Part 2, we presented a conceptual BAC model with 15 key actions to improve the degree of cooperation in a given country or region – for the direct benefit of supply chain companies, or government agencies, or both. And in this Part 3, we finally presented our comprehensive BAC framework, which hopefully helps government policy makers and border agencies to design, implement and monitor their future BAC programs and initiatives in an effective and transparent manner. Toni Männistö and Juha Hintsa.

Bibliography:

Center for the Study of Democracy (CSD), 2011. “Better Management of EU Borders through Cooperation”, Study to Identify Best Practices on the Cooperation Between Border Guards and Customs Administrations Working at the External Borders of the EU.

Institute of Policy Studies 2008, Better connected services for Kiwis: a discussion document for managers and front-line staff on better joining up the horizontal and vertical, Institute of Policy Studies, Wellington, NZ.

Männistö, T., and Hintsa J., “Theory of Border Agency Cooperation”, CBRA working paper 2015, Lausanne, Switzerland.

Norwegian Customs, 2011. Case Study on Border Agency Cooperation Submitted by Norway for the November Symposium.

Polner, M. (2011). Coordinated border management: from theory to practice. World Customs Journal, 5(2), 49-61.

United Nations Conference on Trade and Development (UNCTAD), 2011 Border Agency Coordination”, UNCTAD Trust Fund for Trade Facilitation Negotiations Technical Note No. 14.