Energy-focused geospatial system using multi-sectoral data to deliver net zero

Find Similar History 12 Claim Ownership Request Data Change Add Favourite

Title
Energy-focused geospatial system using multi-sectoral data to deliver net zero

CoPED ID
3e65e462-116c-4248-92c1-dfb7c4a88e67

Status
Closed


Value
£726,055

Start Date
March 31, 2021

End Date
June 30, 2021

Description

More Like This


The UK is the first major world economy to pledge net zero carbon emissions by 2050\. The achievement of this goal will require transformations in a number of sectors. To this end, sectors such as transport and urban planning, have embarked upon a nimble, focused and data-driven approach in addressing their challenges. The energy sector can undertake a similar approach, taking data from the energy sector and additional sectors , such as transport, to deliver targeted solutions at the local level.

We intend to use geospatial data, which combines location information with attribute and often temporal information, can contribute to the evolution of the distributed energy paradigm.

The ability to analyze sparse or incomplete data with respect to, for example smart meters, electric vehicle (EV) uptake, EV charging type, locations and user profile, has a range of implications that are difficult to model with conventional approaches.

We propose the creation of an energy-focused geospatial system that will enable the user to visualise overlays of multivariate spatially and temporally varying data, model and predict trends and correlations, infer across areas of sparse data collection, and model the effects of changes on the system such as varying supply, demand or infrastructure. It will further allow for the simulation and testing of different strategies, for example, alternative charging point placement.

We will address these challenges using our world-class expertise in Bayesian optimization and scalable Gaussian Process (GP) models. Using GPs will significantly improve the accuracy of AI models, over existing AI based tools. The successful application of this approach will enable the local energy sector to be more quantitative and targeted in its planning and prioritising of resources.

The successful transition to net zero local energy systems requires not only cross-sectoral data, advanced geospatial and machine learning models and techniques, but also, crucially extensive collaboration with a broad set of stakeholders to properly understand their needs.

We have already taken some initial steps in this process. For example, with respect to the EVs, we are in dialogue with a local council who are currently looking for immediate support with respect to the analysis of EV charger types, optimised roll-out of EV charging points and the implications for the capacity of local energy networks.

MIND FOUNDRY LIMITED LEAD_ORG
MIND FOUNDRY LIMITED PARTICIPANT_ORG

Jane Williams PM_PER

Subjects by relevance
  1. Machine learning
  2. Emissions
  3. Visualisation
  4. Optimisation
  5. Simulation
  6. Geographic information systems
  7. Energy production (process industry)
  8. Energy sector

Extracted key phrases
  1. Local energy system
  2. Local energy sector
  3. Energy paradigm
  4. Geospatial datum
  5. Geospatial system
  6. Sectoral datum
  7. Sparse datum collection
  8. Incomplete datum
  9. Advanced geospatial
  10. Additional sector
  11. Machine learning model
  12. AI model
  13. EV charging point
  14. EV charging type
  15. Major world economy

Related Pages

UKRI project entry

UK Project Locations