The purpose of this project is to contribute to the transformation of the forest-wood sector into a higher value-added sector and to support the acute need for a structural transition of society from a fossil-based to a low-carbon economy. This transformation is based on a more efficient appreciation of the domestic renewable raw material base - forest woody biomass. The main emphasis is on increasing the degree of finalization in the processing of wood raw material. This requires knowledge and technology-based innovation to maintain competitiveness, create new jobs and increase the added value of forestry goods. In order to meet these international and national objectives, individual project activities are compiled. The project activities are presented at conferences (LignoSilva, MAP, AOEPLH, APOL), scientific articles without impact factor (Forests, Sustainability, Wood research, Remote Sensing Central European Forestry Journal), workshops, TV show TA3 (Healthy Forest and Breakfast at TA3), major exercises for TUZVO (subjects of forensic crime and transport-mining technologies). Currently, two patents are issued for the submitted activities, and during the solution it is expected to introduce a new technology for the use of data from CT scanning. The first activity focuses on maximizing the demand for data from CT scanning, which brings immediate practical knowledge in increasing the possibilities of automating the production of wood products with high added value (oak barrels, sports tools, floors, musical instruments, auctions with prized log cuts). The result of the activity is an automatic semi-operating line with CT scanning technology producing a semi-finished product with high added value. The second activity is dedicated to digital assortment in the forest with the use of state-of-the-art scanning technologies, which finds direct applicability, for example, in the upcoming national forest inventory and monitoring. Its introduction has considerable economic potential, when the deployed technology reduces the time of inventory and the requirements for the number of measurement groups. The result of the activity is a usable methodology applicable to digital national forest inventory and monitoring. The third activity is replaced by the development of biological products to protect the forest under the conditions of a changing climate. The developed biological preparation is currently patented. The developed preparation should be used in large-scale tests and its effectiveness evaluated. The biological preparation has immediate practical use in forest protection, which has a high economic potential. As a result of the activity, biological preparation is deployed to protect the forest under real conditions. The fourth activity focuses on the need to return minerals back to the soil using secondary raw materials such as sludge and ash. There are two levels of economic benefit: the use of substances that would otherwise end up in landfills and the more efficient cultivation of forests. The result of the activity is a safe, tailor-made substrate for growing tree seedlings using secondary substances from production. The fifth activity is aimed at creating special papers with multifunctional properties - filters for air purification based on nanocellulose or nanofibrillated cellulose with antiseptic effects on air - droplet-borne enteroviruses or bacteria. The result of the activity is a filtering device that allows air filtering to deactivate viruses and then release the deactivated virus into an environment where it serves as a natural vaccination for a specific virus mutation. Such facilities have enormous economic potential, as human diseases cause major economic damage, such as the COVID 19 pandemic. The sixth activity focuses on the development of economically sustainable and functional substitution of fossil-based plastic packaging. These are cellulose-paper technologies for biodegradable packaging. It is therefore a paper packaging coated with a thin layer of biodegradable plastic that forms a barrier between the paper and the stored food. After the end of the purpose of the packaging, this packaging is degradable in nature, similar to foliage in the forest. The result is a functional, nature-degradable packaging that stores food and is a substitute for packaging made with fossil resources. The seventh activity is focused on the use of wood from end-of-life products. The company produces thousands of tonnes of wood waste, which may not be immediately used for energy purposes but can be processed and further used in the wood cascading chain. Such wood is often treated with varnishes, oils for which it is necessary to design methods of separation of these components. The result of the activity is a safe method of reusing wood waste and transforming it into a valuable raw material suitable for the production of, for example, agglomerated materials. Activity - Intelligent Industrial Wood Processing Tech