Kanta-Häme wants to be a trendsetter and a technological pioneer in meeting carbon neutrality goals. The built environment has a major impact on achieving these goals, as it consumes a significant proportion of total energy, causing a large amount of CO2-emissions. Building owners often says that many so-called easy ways to save energy have already been done and now we should move to the next level. One way to improve the energy efficiency of buildings is to increase the level of smart properties in buildings. At the EU level, the development of the Smart Readiness Indicator (SRI) for buildings is underway, and mandatory implementation in the largest non-residential properties is already mentioned in the new version of the Building Energy Efficiency Directive (EPBD). While preparing the project, it has become clear that building owners and users need more information about the requirements, targets and benefits of building intelligence. Traditionally, building automation systems contain very little intelligent control and are adjusted according to the control curves given as general instructions. Supporting the smart specialization strategy of Kanta-Häme, the goal of the ADRA project is to develop solutions and innovations that increase the smart properties of buildings and to promote their introduction and generalization. The smart solutions for buildings developed in the project focus on improving energy efficiency and energy flexibility, as well as improving conditions, taking into account the user's needs. The aim is to develop building control systems as such systems which learns from it’s users energy consumption patterns. Adaptive and learning control learns to respond to the building's needs proactively, for example by considering the user's needs or based on information from the energy system. In addition, the goal of the project is to design and develop an information system that serves the user, which takes into account the types of users of different buildings and which motivates the user, e.g. energy efficiency measures. These solutions and innovations are developed, planned and demonstrated in the Future Living Lab, a smart building demonstration space being built in the project. As a result of the project, the requirement mapping and the guidelines of the smart readiness indicators for different types of buildings will be produced for the target groups. Utilizing requirement mapping, a demonstration space for the building's smart features, the Future Living Lab, will be developed and built, where new solutions, new modes of operation, models and experiments will be developed and overall solutions will be demonstrated in such a way that the building would work adaptively, smart and energy-wise. The project's implementers are the HAMK Tech and HAMK Smart research units, and the project promotes industry-networked research. The project is carried out research-oriented in such a way that the intelligent readiness of the buildings is developed by means of co-development with the operators of the project's target groups. Representatives of the project's target groups will be involved in the development and construction of the Future Living Lab. The project supports the strategy of the Baltic Sea region by intensifying cooperation in research focusing on the intelligence of buildings and thus energy wisdom, by cooperating with research organizations operating in the countries of the Baltic Sea region on a wide scale. The project supports the development of carbon-neutral solutions and operating models and promotes research and development related to renewable energy sources and the diversification of energy production that increases energy efficiency through improving the energy efficiency of buildings and flexible energy use. The project supports the principles of sustainable development and the Union's environmental policy by developing energy solutions for buildings that improve energy efficiency and do not harm the environment. The project brings smart building solutions to the attention of target groups in the area, so that carbon-neutral solutions spread as much as possible.