The aims of this competition are to:

• support and enable business led innovation across the UK supply chain in resilient time, frequency, and synchronisation (TFS), for the development of products, services and end user applications
• develop a TFS ecosystem and capability for relevant industries and critical national infrastructure
• disrupt and create new markets, both in the UK and globally, to improve the provision of TFS

Your project must deliver feasibility study for an innovative development and show a route to market.

Your project must be focused on one or more of these development areas relating to the dissemination of TFS:

• products
• services
• protocols and algorithms
• standards

We are looking for your projects to be scalable, geographically or across applications. Interoperability for international use is of particular interest.

Your project should lead to the following types of impact for the UK:

• economic, including new revenue, cost savings, other economic impacts
• national capability in TFS

During the project, NPL can provide up to 12 hours of free consultancy and free access to highly accurate and traceable time and frequency signals. The access will come from four sites in the South East of England and one site in Scotland.

Each site has different types of signals and support facilities available. This will allow a variety of different projects with individual requirements to access facilities which can support their innovation.

The sites are in two broad categories:

Innovation nodes

The innovation nodes are sites that combine signal access with laboratory space and where traceable signals are available for R&D, testing and validation of applications. Three innovation nodes are being set up in partnership between NPL and respective host organisations and are available to successful applicants during their project:

1. The University of Surrey 5G/6G Innovation Centre provides access to a shared lab and is particularly suitable for telecommunications and network timing projects.

2. Cranfield University provides access to a shared lab and is particularly suitable for autonomy and transport related projects (to be available by March 2023).

3. University of Strathclyde provides access to a dedicated lab and is particularly suitable for developments related to photonics, smart grids and fintech (to be available by March 2023).

Data centres

Two data centres in London and Reading allow signal connections via a cross-connect in a real-world delivery environment.

Projects that include one or more industry sectors are of interest.

Example sectors include but are not limited to:

• telecommunications
• energy
• autonomy
• finance
• smart factories
• sensors
• the Internet of Things (IoT)
• broadcast
• health
• space
• transport including rail, road, aviation, maritime

Projects involving cross-sector technologies such as those contributing to telecommunication technologies or timing over digital networks are of particular interest.

We reserve the right to apply a portfolio approach to funding projects across the competition strands, research categories, technologies, technological maturities, locations, markets, themes and project sizes.

Your project must focus on one or more of the following themes:

Resilience

Your project must contribute to the resilience of time dissemination in one or more of the following:

• availability (continuity of signal)
• redundancy and holdover
• alerting and monitoring

This could include, for example, developments relating to signal processing for time or frequency.

Distribution

Your project must enable end users to have improved access to time or frequency signals.

You must include one or more of the following:

• dissemination to multiple users
• scalability
• accessibility (geography)
• ubiquity and availability, including locations where Global Navigation Satellite System (GNSS) signals are not available

For example, developments could include scalability to users at the edge of networks or to those currently without access.

There is also interest in developments relating to the application or extension of existing infrastructures such as that for communication.

Trust, assurance and security

Your project must contribute to the trust, assurance and security of time or frequency signals from the source to the end user, or a defined subset of this path.

You must include one or more of the following:

• integrity
• accuracy: absolute time value at the end user compared to the traceable source
• confidence in end-to-end transmission
• validation

This could, for example, relate to audit and certification of time signals at various levels of accuracy or signal integrity when transferring time signals over distances and mediums. Algorithms and protocols, especially those that increase the integrity of timing signals, are also in scope.

Integration and processing of signals

Your project must contribute to one or more of the following:

• integration of multiple time or frequency sources
• innovation in processing hardware or software relating to time or frequency signals