CO2 Monitoring and Mapping for the Mobility Industry
EmissionZero.AI monitors and maps traffic Greenhouse Gas (GHG) Emissions for fleets and mobility services. Our solution enables clients to accurately measure CO2 and NOx emissions, prioritize decarbonization investment alternatives and support climate incentive applications using evidence-based data.
Hour by Hour CO2 emissions of a leading mobility service, Vancouver, BC Canada
Mobility services, large fleets and transportation authorities around the world are obliged to cut greenhouse gases emissions by 50% by 2030. Reduction of traffic GHG emissions (primarily CO2 and NOx) is extremely important as ground transportation contributes 30% to 40% of total GHG inventory of most industrial countries.
Current technologies for traffic emissions estimation are based on indirect economic metrics or low resolution atmospheric observations. Without evidence-based, up-to-date, high resolution data, mobility players are struggling to map their emissions footprint, to prioritize carbon offsetting investments and support claims for carbon credits.
EmissionZero.AI is the first to leverage machine learning, mobility location data and atmospheric science to accurately monitor traffic CO2 and NOx emissions. This with extreme spatial and temporal granularity and across entire countries. Our technology leads the market with a highly scalable and accurate solution, enabling rapid, cost efficient, global or regional deployments.
By dramatically shortening the feedback cycle, EmissionZero's analytics SaaS platform enables effective execution of carbon reduction plans. It measures and maps emissions, monitors progress of CO2 and NOx reduction projects, assists to plan ahead and reports evidence-based results to support Carbon Credits transactions.
In addition to traffic emissions, the platform can integrate external datasets to map and analyze GHG emissions from stationary inventories including commercial, residential and industrial sources.
Fleets and Mobility Services
Mobility services and corporates with large fleets can now monitor and map their specific CO2 and NOx footprint. The solution enables clients to continuously measure their fleet’s GHG emissions with high granularity across entire countries.
Hour by Hour CO2 emissions of a leading mobility service, Greater Vancouver, BC Canada
Monitor and map CO2 and NOx emissions per line, level of occupancy, type of vehicle, Origin-Destination and more to identify best reduction opportunities.
Evaluate carbon offsetting alternatives using prediction and simulation tools to assure “CO2 ROI” - maximize carbon reduction within budgetary constraints.
Impact Analytics: Track the actual impact of past and ongoing reduction efforts.
Support GHG inventory reports and apply for Carbon Credits and green incentives using evidence-based data.
Identify the impact of the fleet's traffic patterns on general traffic flow and GHG emissions. Predict impact of planned carbon reduction efforts on public health.
Authorities can effectively measure, plan and manage reduction of traffic CO2 and NOx inventories in their jurisdiction. Authorities can further generate accurate measurements across cities, counties or entire states as well as identify Origin-Destination patterns of emissions. Simulation of decarbonization scenarios allows authorities to analyze the actual impact of efforts and report evidence-based results to the public.
Monitor and map ongoing traffic CO2 and NOx emissions per road segment, vehicle type and unit of time. From a single street to an entire state.
Optimize investments. Evaluate impact of transportation projects and carbon offsetting initiatives using prediction and simulation tools.
Map exposure of residential areas to traffic emissions to improve Public Health and prioritize mitigation efforts.
Run Origin-Destination analytics to identify source of emitting traffic and support joint reduction projects with neighbouring jurisdictions.
Regulatory Compliance - Share evidence-based data with the public, business community and other Gov arms.