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The Hazardous Materials Safety and Security Technology Operational Test

This presentation outlines a research study that aims to demonstrate the use of existing technology to enhance the safety and security of hazardous materials. The study assesses the benefits and costs of this approach, focusing on wireless communication with GPS as an example. The findings show that technology can effectively reduce theft, but it is not a complete solution. The study includes various tests and evaluations of different technologies, such as vehicle tracking, panic buttons, remote locking/unlocking, and driver/cargo identification and verification. The results provide valuable insights and lessons learned for industry stakeholders.

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The Hazardous Materials Safety and Security Technology Operational Test

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  1. The Hazardous Materials Safety and Security Technology Operational Test Identifying Improvements in Safety, Security and Efficiency Joseph P. DeLorenzo Midwest Service Center Hazardous Materials Specialist T3 Session April 26, 2005

  2. Presentation Outline • Research Overview • Deployment • Technology & performance • Evaluation • Benefit-cost analysis using wireless communication with GPS as example • Conclusions

  3. Project Goals • Demonstrate an approach that uses existing technology to improve the safety and security of HazMat • Quantify the benefits and costs of this approach • Safety, Security & Efficiency

  4. Research Questions • The study quantitatively verified many assumptions about technology & security • Wireless communication w/ GPS is the base for all impact areas • Efficiency drives private deployment • Benefit-cost ratios vary based on load type (Low end is LTL, High end is explosives) • Technology is most effective at reducing theft • Technology is not a complete solution

  5. Research Approach • Utilized an Expert Panel & Delphi Process • Co-chaired by TSA and SAIC • Includes representatives from major associations and other security/counter terrorism experts. • Provided input into staged and controlled tests • Providing input into Delphi process • Reviewed and commented on final analysis

  6. Risk/Threat Assessment • Sets the stage for the rest of the project: • Considers: • Commodities, quantity, frequency, operation type, routing and loading/ transfer points • Organize the safety and security risks • Frames the problem • Identifies vulnerabilities

  7. Test Design • Developed Operational Test Scenarios • Address major threats and vulnerabilities • Consider different industry segments (bulk fuel, LTL, Truckload explosives, bulk chemical) • Selected Technologies • Existing technologies • Technologies suites address multiple vulnerabilities • Cost tiers • Included carriers, shippers, consignees and state agencies

  8. PICKUP • Driver identification • Cargo verification • Cargo tampering • Remote lock/unlock • EN ROUTE • Driver identification • Cargo location tracking • Cargo route adherence • Untethered trailer tracking • Cargo tampering alert • Remote lock/unlock • Real-time alerts to dispatch • Real-time alerts from dispatch to enforcement • Remote vehicle disabling • DELIVERY • Driver identification • Cargo verification • Remote lock/unlock • PUBLIC SECTOR • Driver verification and identification (enforcement) • Cargo route adherence (dispatch and enforcement) • Real-time alerts from dispatch to enforcement and emergency response Test Design

  9. Technologies Tested Wireless – Mobile Communications • Served as the base technology • Both Satellite and Terrestrial Communications with GPS • Digital Cellular phone

  10. Technologies Tested Vehicle and Trailer Tracking • AVL (GPS) • Geofencing, Off-route alerts • Tethered trailer tracking • Untethered trailer tracking • RESULTS/LESSONS LEARNED • Functioned as expected • Geofencing had high level of interest but there are resolution issues • Trailer tracking has high level of interest (additional FMCSA testing)

  11. Technologies Tested Panic Buttons • In-dash • Wireless remote • Local disabling • RESULTS/LESSONS LEARNED • Drivers like both in-dash and key fob • Viewed as “insurance policy” • Did not expect high usage but recognized they created “piece of mind”

  12. Technologies Tested • On board computers • Remote vehicle disabling • Loss of signal disable • Dispatch initiated • Local (no OBC) • Remote locking and unlocking RESULTS/LESSONS LEARNED Disabling: Technology functioned well, there are concerns about the application of the technology under real-word conditions Remote locking and unlocking: Worked excellent in both daily operations and on-site testing

  13. Technologies Tested Driver and Cargo Identification and Verification • Global Login/ Password • Biometric smart card • Electronic Supply Chain Manifest (ESCM) RESULTS/LESSONS LEARNED Biometrics: Good fingerprint reads were difficult due to environmental, ergonomic and other issues, needs further development Global Login: Well received and functioned reliably. ESCM: Poor performance of biometrics and duplication of effort affected the ESCM

  14. Technologies Tested Driver and Cargo Identification and Verification • Electronic Seals • RESULTS/LESSONS LEARNED • Operational problems were identified with the process of assigning and locking seals • Communication problems were noted with the seal due to trailer designs • System usage was complex, need further development

  15. FullFOT PSRC Add-on Technologies Tested Carriers & Shippers Qualcomm NMC Law Enforcement & Emergency Response Community Automated Public Sector Response Center (PSRC)

  16. FullFOT PSRC Add-on Technologies Tested Carriers & Shippers Qualcomm NMC Law Enforcement & Emergency Response Community Spill Center PSRC Automated Public Sector Response Center (PSRC)

  17. Technologies Tested Automated Public Sector Response Center (PSRC) • RESULTS/LESSONS LEARNED • Technology functioned well, demonstrated ability to reduce incident notification times. • System needs to be exception based. • There are concerns about relying on an industry based system. • Message priority is a concern. • Needs of public sector need to be further investigated.

  18. Technology Compendium • Development of a research compendium of technologies and service providers • Currently 94 providers with 147 existing technologies • Enhancements planned • Via www.safehazmat.com

  19. Overall goal to provide information for decision-makers Conservatism built into the analysis wherever possible Costs include those for systems already deployed Minimum benefits calculated Assumes security benefits start to accrue at or near full deployment Note: To date no studies were uncovered that have attempted the analysis conducted here, particularly relating to security benefits Evaluation Approach

  20. Efficiency Benefits • Efficiency benefits defined for wireless communication with GPS • Payback periods within industry standards • Recognizing that all operations may not realize all of the benefits, a “minimum” benefit was calculated. • Full deployment could result in savings of $1 billion per year industry wide

  21. Efficiency Benefits Wireless Communication with GPS Positioning * For the first three years: Includes monthly service fees and capital costs amortized over the three year period

  22. Efficiency Benefits Wireless Communication with GPS Positioning * For the first three years: Includes monthly service fees and capital costs amortized over the three year period

  23. Efficiency Benefits • Efficiency ratios give some indication to the speed at which technology will be voluntarily deployed * Assessment of ITS/Commercial Vehicle Properties User Services, Prepared By ATA Foundation, June 1996 ** Motor Carrier Technologies, Prepared by ATA Foundation, October 1999 *** Motor Carrier Technologies Survey, Prepared by American Trucking Associations, 2001

  24. Safety and Public Sector Benefits • Public Sector focused on two areas: • Improved response times through faster notification • Panic buttons provided time savings of 18 minutes over traditional notification process • Off-route detections improved by nearly 3 hours • Improved quality of information • Positive driver ID time savings of 28 minutes • Alerts included manifest information, driver information and location

  25. Safety and Public Sector Benefits • Public Sector Reporting Center Concept • Proof-of-concept test • Other issues such as functioning with wider deployment and message priority must be considered. • Industry participants expressed an interest in the PSRC concept to improve asset management

  26. Security Benefits • Using the Delphi method vulnerability reductions were identified • Greatest reduction was from the base wireless communication system with GPS • Incremental gains were identified from the other technologies • Greatest reductions were in theft prevention

  27. Security Benefits Selected Vulnerability Reductions: Bulk Fuel

  28. Security Benefits • Potential cost savings based on vulnerability reductions • Calculated benefits (safety, security 7 efficiency) using 3 methods • Net benefits • Benefit – Cost Ratios • Break – even analysis • Combined benefits analysis

  29. Security Benefits Wireless Communication with GPS

  30. Security Benefits Break Even Points for 3 year period

  31. Overall Benefits & Costs Wireless Communications + GPS Overall benefits = Safety Benefit + Security Benefit + Efficiency Benefits

  32. Conclusions • The wireless communication system with GPS tracking provided efficiency benefits and the base vulnerability reduction • Additional technologies provided incremental improvements in security. • A stratification of load types and technologies seems inherent in the results • Greatest vulnerability reductions were provided for theft scenario • Wireless communications with GPS tracking provided a positive return on investment in all four test scenarios.

  33. Conclusions • Except for LTL, preventing only one terrorist attack over a three year period produces a cost savings well beyond the break even point. • The combined benefit-cost analysis showed positive benefit-cost ratios in all categories • Notification times and the quality of information provided to the public sector was improved.

  34. The Bottom Line Despite the results, technology alone is not a complete security solution – only technology along with sound security practices and supported by ongoing public and private outreach, training and security programs can help to meet a constantly present threat.

  35. Next Steps • High-level Needs Assessment to address public sector response to hazmat safety and security incidents. Completion April 2005 • Industry Outreach Task • Promote voluntary deployment • Continue and expand Technology Compendium • Additional testing: • Untethered Trailer Tracking • Expanded Satellite Based Communications • Vehicle Disable (upcoming)

  36. Final Reports • Posted on the FMCSA Web site: www.fmcsa.dot.gov http://www.fmcsa.dot.gov/safetyprogs/fot/ • 2 Final Reports • Deployment final report – describes the actual testing process and lessons learned • Evaluation final report – the independence evaluation and benefit-cost analysis

  37. The End joseph.delorenzo@fmcsa.dot.gov 708.283.3572

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