The UK and global research and development communities have made tremendous strides in electronic device prototyping. Platforms that support conventional electronics have become well established, and the emerging potential of printed electronics and related additive technologies is clear. Together these support fast and versatile prototyping of the form and function of digital devices that underpin novel interactive data-driven experiences, including the Internet of Things (IoT), wearable technologies and more. However, challenges remain to realise their full potential. Interactive devices prototyped in labs and makerspaces implement novel capabilities and materials which require holistic manufacturing capability beyond simulation of conventional electronics. Even for conventional bench designs, to make the transition from prototype to product they need to be suitably robust, safe, long-lived, performant and cost-effective to deliver value as products - whether as a series of one-off mass customised devices, low-volume batches, or mass-produced artefacts. Unfortunately, the transition from prototype to production is not a natural one for end users; many ideas with potential don't progress beyond the first few designs. Democratising access to device production is the key next step in underpinning scalability and entrepreneurship in digital systems. We propose a Network+ of universities, research organisations and commercial enterprises who share the common goal of improving the transition from prototyping to production of digital devices. The Pro2 community will build upon the design and fabrication expertise of its researchers and practitioners to facilitate a deep synthesis of established principles, techniques and technologies and develop new concepts that span computer science, engineering and manufacturing. We will complement the on-going global investment into a variety of 'digital manufacturing' topics - including the UK's Made Smarter initiative - by tackling the challenge of progressively and cost-effectively transitioning from unconventional and single digital device prototypes, through tens of copies that can verify a design and validate utility, to batch production of hundreds to thousands of units. In prototyping, as additive manufacture and printed electronics converge further, in unconventional fields such as soft robotics and 4D printing, we need to identify how to integrate and optimise tools into workflows that support digital behaviour across materials, scales and functionalities. In production, smoothing the path from one-off microcontroller prototypes to scale-up is a significant challenge, and requires new processes and tools as well as reconfiguration of business models and services. Our vision for 'organic scaling' from prototype to production will allow faster exploration and exploitation of these digital device concepts and applications. This will accelerate the adoption of IoT, the growth of new consumer electronics markets, and more generally underpin the data-driven digital transformation of many industries. It will enable new research directions, create new business opportunities and drive economic growth.

The Future Places Centre will explore how ubiquitous and pervasive technologies, the IoT, and new data science tools can let people reimagine what their future spaces might be. Today, the footprint of such systems extends well beyond the work environments where they first showed themselves and are now, quite literally, ubiquitous. Combined with advances in data science, particularly in the general area of AI, these are enabling entirely new forms of applications and expanding our understanding of how we can shape our physical spaces. The result of these trends is that the potential impact of these systems is no longer confined to work settings or the scientific imagination; it points towards all contexts in which the relationship between space and human practice might be altered through digitally-enabled comprehension of the worlds we inhabit. Such change necessitates enriching the public imagination about what future places might be and how they might be understood. In particular, it points towards new ways of using pervasive technologies (such as the IoT), to shape healthy, sustainable living through the creation of appropriate places. To paraphrase Churchill: if he said we make our buildings, and our buildings come to shape us, the Future Places centre starts from the premise that new understanding of places (enabled by pervasive computing, data science and AI tools), can be combined with a public concern for sustainability and the environment to help shape healthier places and thus make healthier people. It is thus the goal of the centre to reimagine and develop further Mark Weiser's original vision of ubiquitous computing. As it does this so it will cohere Lancaster's pioneering DE projects and create a world-class interdisciplinary research endeavour that binds Lancaster to the local community, to industry and government, making the North West a test-bed for what might be.