TIMEPAC will contribute to improving existing energy certification processes, moving from a single, static certification to more holistic and dynamic approaches that consider: a) the data generated in the overall energy performance certification process, from generation to storage, to analysis and exploitation, and throughout all the building lifecycle, from design, to construction and operation b) buildings as part of a built environment, connected to energy distribution and transport networks and c) buildings as dynamic entities, continuously changing over time. TIMEPAC will demonstrate the feasibility of combining EPC databases with other data sources to make certification more effective and reliable. The new methods and tools to enhance current certification practices will be developed in five Transversal Deployment Scenarios, and validated in four demonstration scenarios across six European countries: Austria, Croatia, Cyprus, Italy, Slovenia and Spain. The outcomes will be used as training materials to further educate professionals involved in certification processes throughout Europe. An online platform will provide access to training materials and courses delivered in a variety of contexts (onsite and online, blended). A TIMEPAC Academy will further develop and exploit the innovative EPC enhancement methods and tools and the training materials developed in the project.

The main challenge that the European start-up ecosystem is facing, is that innovative start-ups fail to scale up at a sufficient rate. Start-up incubators play a significant role in helping start-ups in Europe to scale up. An Incubator is a set-up to reduce the chances of failure of an early stage start-up and they have a deep impact on start-up ecosystem and its stakeholders. Although incubators have an increasingly important role in supporting early stage companies with the basic needs of developing a company, they are consistently failing to provide services that are needed for companies to go global and scale up. The Scale-up Champions project builds on the premise of equalising opportunities of scaling up for start-ups across Europe and connects less and more developed startup ecosystems. Our strategic objective is supported by the following sub-objectives: • Increase the connectedness among members of deep-tech start-up ecosystems and their companies (start-ups and scale-ups) and to the larger european business ecosystem seeking maximum synergies. • Increase access to customers, private and public, access to qualified employees, access to the right combination of finance and prospects for scaling up across borders. • Stimulate European investments in deep-tech digital sectors through increasing the number of cross-border investments. To achieve these objectives, Scale-up Champions’ consortium will implement the following actions: • Develop a method for experience-sharing among project partners that fosters the collaboration between different European start-up incubators. • Foster start-up and corporate cooperation in order to build sustainable partnerships through active support of start-ups and corporations. • Build the fundraising capacity of deep-tech start-ups through an active investment readiness program and create working networks between investors and start-ups. • Foster cross-border activities for European start-ups in order to support interna

OptEEmAL aims to develop an Optimised Energy Efficient Design Platform for refurbishment at district level, which will deliver an optimised, integrated and systemic design based on an Integrated Project Delivery (IPD) approach for building and district retrofitting projects, reducing time delivery and uncertainties, resulting in improved solutions when compared to business-as-usual practices. This main objective will be deployed through the following key objectives: 1. Development of a holistic and effective services platform for District Energy Efficient Retrofitting Design integrating interoperable modules and tools able to provide services for diagnosis, scenarios generation (according to stakeholders priorities), energy/ cost/ environment/ social evaluation, scenarios optimisation and data export. 2. Reinforcement of the presence of all involved stakeholders through an Integrated Project Delivery approach that will allow them being articulated through a collaborative and value-based process to deliver high-quality outcomes. 3. Development of an integrated ontology-based District Data Model that will contain key information in the fields of energy, comfort, environment (LCA), economic, social wellbeing and urban morphology. 4. Development of an Energy Conservation Measures catalogue (ECM) including technical, operational, maintenance and cost information giving valuable and consistent outputs to the design and district operation and maintenance stages. 5. Development of a bio-inspired optimization module based on Evolutionary computing with the aim to automate the decision making process to obtain the optimal design for an energy efficient retrofitting plan at district level. 6. Development of external connections of the OptEEmAL Platform to external entities (i.e. existing tools enabling the calculation of indicators to generate and optimise the retrofitting scenarios) 7. Strong disseminations, training, exploitation and market deployment strategies.