Autonomous Trucking on Resource Roads

FPInnovations’ Autonomous Trucking Initiative efforts aims to accelerate the use of advanced autonomous truck technology in the natural resources sector, with a focus on the forestry and mining sectors.
At the end of the project, this work is targeting to demonstrate SAE Level 4 autonomous driving solutions, using Class 8 trucks that are capable of operating in four-season moderate-to-severe weather, along typical terrain encountered on resource road conditions in Canada.
The success of this technology will serve as a catalyst for introducing connected and autonomous vehicles to the forest sector.

Why the initiative was started

Forestry is often reported as one of Canada’s most dangerous industries, where safety related incidences may occur during hauling operations on resource roads.
Aside from safety concerns, the truck driver labour shortage is problematic for the transportation industry. There are currently 25,000 vacancies in trucking. With the current aging driver demographic, vacancies are expected to increase, which will further strain the labour market.
FPInnovations is dedicated to improving the competitiveness of the Canadian forest sector and believes that this can be accomplished by finding technological solutions that can increase safety, reduce transportation costs, and enhance logistic planning.

The solution

FPInnovations believes that autonomous trucking technology is a viable solution for the truck driver labour shortage, where forest fibre and raw material can be hauled by:

– One experienced truck driver leading a convoy of electronically linked driverless class 8 trucks (Platooning).

  or

– Completely autonomous class 8 trucks (single vehicle autonomy).

Introduction of autonomous trucking in the Canadian resource sector will result in multiple benefits, including:

– Reduction in transport cost:

  • – Lowering direct labour costs.
  • – Facilitate double shifting and higher equipment utilization rates.
  • – Potential to reduce fuel consumption.

– Securing the constant flow of raw material and ultimately avoid mill shutdown due to lack-of-driver-availability supply issues and avoid lost profits.

– Potential to improve safety and reduce insurance cost over the long term.

The technology behind autonomous trucking

Radio Communication
Vehicles are electronically linked
GPS and IMUs
Real time positioning
Radar and Lidar
Object detection
Camera
High-definition object detection
  • Sensors such as RADAR, LiDAR, HD cameras and thermal cameras allow an autonomous system to « see» its surrounding environment.
  • GPS allows an autonomous system to find its location in the world. IMUs (Inertial Measurement Units) can also be used for position adjustments when GPS is unavailable. 
  • Radio and cellular communication allows an autonomous system to communicate with other autonomous capable vehicles, dedicated infrastructure, and even remote monitoring stations.

Challenges

– Many technology providers are working on autonomous transportation solutions for either on-road use (paved road networks with lane markings) or private/controlled access roads (mining sites and shipping / receiving yards).

– Finding an autonomous solution for a forest environment presents a unique set of challenges:

  • Challenging forest road topography
  • Mixed traffic and obstacles
  • Extreme Canadian weather
  • Adapting the technology for multiple tractor-trailer configurations
  • Public acceptance
  • Regulatory hurdles
  • Existing standards and policies that do not support autonomous transportation

FPInnovations intends on overcoming these challenges and leading the way to adopting the technology in a resource environment by applying an incremental approach to testing and deployment, as well as engaging with the right partners.

Development and commercialization timeline

FPInnovations has spearheaded testing of platooning and autonomous trucking solutions since 2016, working closely with key regulatory stakeholders at both the provincial and federal levels of government.

Highway and resource road testing (October 2018 and July 2019)

Highway and resource road testing was executed in La Tuque Quebec with two class 8 Peterbilt 579 platooning trucks supplied by technology provider, Auburn University.

Over 1500km were driven with the platooning system engaged on primary and secondary roads.

This test program identified technological areas requiring improvement, but also demonstrated that platooning is viable on resource roads.

Baseline testing (March – September 2022)

Baseline testing was executed in partnership with technology provider, Forterra. Testing consisted of exposing Forterra’s MMS (Mobile Mapping System) to our Canadian resource environment and evaluating its performance in winter and summer conditions (dust, snow, rain, etc.).

Approximately 2500km of Quebec forest roads were scanned with the MMS, which is a portable autonomous sensor kit. The MMS is considered to be the « eyes» of a typical autonomous system and consisted HD cameras, a lidar, GPS, and communication capabilities.

Phase 1 testing (July to December 2023)

Results from baseline testing were used to improve Forterra’s autonomous system. These improvements were applied to two autonomous capable class 8 Mack Granite trucks for Phase 1 testing.

Phase 1 testing was conducted in Idaho and California, USA, as well as five test sites in Quebec, Canada.

Phase 1 testing consisted:

  • Leader truck = manually driven.
  • Follower truck = autonomously driving with safety driver present.
  • Empty quad axle semi-trailer (no payload).
  • Demonstrate platooning technology on private forest roads (controlled access).
  • More than 1400 km in autonmous mode
  • Exposed to Canadian winter weather (snowfall, cold temperatures = -22°C)

Partners

Stakeholders and their roles and responsiblities

The autonomous truck initiative is a commercially oriented endeavor that will be governed by three key stakeholder groups: Operations and Testing Expertise (FPInnovation),  Technology Provider, Industry Stakeholders, and Government Stakeholders.

  • Act as the honest broker – a neutral third party – tasked with finding the right technology for the Canadian natural resource sector.
  • Facilitate communication among all stakeholders (industry, government, technology provider).
  • Work directly with forest companies to ensure their operational needs are represented in the project.
  • Guide technology providers on adapting their technology to a forest environment.
  • Engage with Federal and Provincial regulators throughout Canada on testing / deployment processes.
  • Lead test planning efforts and establish clear KPIs (Key Performance Indicators) and SPIs (Safety Performance Indicators) that demonstrate system capabilities and safety milestones.
  • Oversee deployment of the technology, and its supporting ecosystem, and ensure it is executed in a safe manner.
  • Will supply autonomous capable trucks for the purpose of testing in Canada.
  • Will adapt their technology to meet the needs of the Canadian natural resource sector.
  • Is an integral part of the initiative, actively participating in test preparation, execution, analysis and reporting.
  • Contribute to test plan creation, working with FPI to set realistic KPIs and SPIs that demonstrate their system’s capabilities and targets.
  • Participate in ecosystem design as well as safe technology deployment planning efforts.

Stakeholders (Resolute, Alpac, Chantier Chibougamau, West Fraser) :

  • Provide financial support for the initiative.
  • Ensure that the forestry sectors requirements are represented in the initiative.
  • Actively participate in regular monthly meetings and working sessions, providing feedback on project parameters and participating actively in decision making processes.
  • Provide assistance in test preparations and exécution, supplying manpower and equipment when required.

FPInnovations’ autonomous trucking work has been supported financially by various governmental bodies:

  • SPN (Société du Plan Nord Quebec)
  • MRNF (Ministère des Ressources naturelles et des Forêts),
  • NRCan (Natural Resource Canada – Government of Canada).

FPInnovations pursue its autonomous trucking efforts by engaging with provincial and federal regulators such as:

  • Transport Canada
  • MTMD (Ministère des Transports et de la Mobilité durable – Quebec)
  • SAAQ (Société de l’assurance automobile du Québec)
  • MTO (Ministry of Transportation of Ontario)
  • Ministry of Highways – Government of Saskatchewan
  • SGI (Saskatchewan driver’s licensing and vehicle registration
  • ATEC (Alberta Transportation and Economic Corridors)

FAQ

What is the difference between autonomous platooning and single vehicle autonomy?
  • Platooning in the autonomy space involves a convoy of electronically linked trucks where the lead truck is driven manually by an experience driver and the follower trucks are driverless, mimicing the movement of the lead truck.
  • Single vehicle autonomy is an independant vehicle that is operating without a driver present.
  • During testing and early deployment of FPInnovations’ Autonomous Trucking Initiative, there will always be a safety driver present in all vehicles. This safety driver will remain vigilant and ready to take over control of the vehicle in the event of a safety incident.
What is SAE L4 autonomy?
  • SAE L4 refers to a vehicle capable of autonomous driving under certain well defined conditions. When the autonomous system is engaged, it is in control and responsible for all driving features even if a human is present in the driver’s seat.
  • A system capable of SAE L4 operation will not operate unless all required conditions are met and will perform the appropriate reaction if a condition outside of its capability is encountered (i.e. stop, slow down, etc.).
  • Conditions that define its operational design domain may include speed, geographical location, time of day, and weather conditions to name a few.
Are autonomous trucks safe for operation in a forest environment?
  • This is the brunt of FPInnovations’ work in the initiative – finding an efficient and safe solution for the forest industry’s truck driver labour shortage.
  • Over 90% of road accidents are attributed to human error. The adoption of autonomous vehicles and the appropriate ecosystem to support them have the potential to drastically reduce this source of accidents. It will also make it possible to safely support transport operations 24 hours a day, 7 days a week.

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