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Michael has 20+ years’ experience of applied research and innovation in federated systems management and data-driven research/innovation across healthcare, smart cities, engineering, telecommunications and creative industries. He is an expert in translational research through deep knowledge of digital innovation, acceleration methodologies, state-of-the-art data infrastructures, discovery pipelines and real-world testing. He has an international reputation as thought-leader pioneering the evolution of information technologies for tackling important business and societal challenges. 

His contribution to digital transformation builds on large-scale multi-disciplinary projects revolutionising the way Internet ecosystems are designed, built and how impacts are understood. From 2000-2010 Michael undertook ground-breaking research into B2B web services supporting dynamic management, security and interoperability for inter-organisation collaboration. The insights led to ways to interoperate, federate and orchestrate data and computing resources, as well as reducing the cost of operating such federations. The work influenced service strategies of the world’s biggest companies (IBM, GSK, Audi, BAE Systems, EADS, Fujitsu, British Telecom, Microsoft and Pinewood Studios for example) through dynamic management protocols linked to business decisions, SLA-based service management and integrating service discovery and negotiation into enterprise processes and standards. Data, computing and network convergence during this period extended research towards Platform-as-a-Service (PaaS) supporting QoS engineering and management for real-time interactive applications deployed on virtualised clouds and networks. 

As a result of this research, in 2010 Boniface was appointed to the Steering Committee of the European Future Internet Assembly and Chair of the . Here he explored the dynamic and complex interdependencies between heterogenous resources under different domains of control, along with the socio-economic challenges faced by companies needing to understand performance, acceptance and viability of new services introduced into Internet ecosystems. This led to principles of open APIs, programmable resources, deep observability, on-demand access and approaches that overcome the constraints of current business models and as such digital innovation platforms were born as an extension of PaaS, and a way to build platforms as hubs for communities wanting to explore service and value networks.

In collaboration with major European institutes such as Fraunhofer and IMEC, he then pioneered innovation processes, services and tools to establish platforms for digital innovation. From 2010, his research led to a series of platforms and communities that have incrementally tackled aspects of convergence through federation models. He led strategy to influence funding priorities and community building for digital innovation , and as a core player with IMEC and Fraunhofer, he helped sure €21M of grants from funding bodies for    (2012-2021) resulting in the largest federation of testing facilities in Europe.

In programme (€10.8M 2011-2015) Michael led ground-breaking social and networked media services conducting 10s of trials in real-world operational environments with end users. He developed techniques combining semantic graph knowledge modelling and time-series data analysis extending earlier QoS engineering research towards QoE and the exploration of provenance and correlation between derived from data sets within an ethical framework considering Privacy by Design and EU 95/46. As part of EXPERIMEIDA he led the research and development of the appearing on He the provided scientific leadership of exploring how educational games for children could help them learn social and emotional well-being skills. Working together with teachers and game developers he demonstrated how serious games can create new learning opportunities for inclusive education in school settings across Europe

Then through the (€7M 2017-2020) he extended EXPERIMEDIA by adding infrastructure providers to the ecosystem within smart cities to drive adoption of 5G. His research focused on graph analytics exploring aggregation, normalisation, linking and causation between federated datasets for optimal resourcing decisions. In FLAME, he managed a €2.1M investment programme for engagement of SMEs including establish Dev/Ops used by 24 companies running over 30 technology trials for continuous deployment, testing and evaluation of a 5G service delivery platform including scaling from desktop to lab to real-world locations in Bristol, Barcelona, London and Sicily. Within these projects is has led over 50 trials in real-world environments building evidence of performance, acceptance and feasibility as input to standardisiation and future investment.