In 2020, tübi̇tak made some changes in. The 1501 industrial r&d projects support and 1507 sme r&d startup support. Programs and switched to the on-call system. One of the striking issues regarding. The issues explained in this invited system was the technology readiness levels in. The priority area . It can be said that in the old system , tübi̇tak projects generally. Started at ths 1 level and ended at ths 6 level. In the new system, depending. Therefore, on the subject of the call, the starting and ending ths levels of the project vary. Depending on the sector and scope of the subjects. Therefore, if we need to elaborate on the. Subject of technology readiness level , it was put forward as a concept by nasa in the. Therefore, 1970s as a 7-item process with a researcher, and was accepted in its current. 9-item form in the 1990s.
Basically, Technology Readiness Level
Can be defined as a scale that helps separate the stages of a project from the moment it is put forward as an idea until it is put into use. In this way, a solid road map is created by carrying out the C Level Executive List necessary research and verification at each stage, and risks and costs are reduced and monitored. The determination of the Technology Readiness Level is determined according to the answers received to. Therefore, the questions of experts in the sector to which the project is affiliated. Therefore, since there is no single perspective, Technological Readiness Levels vary depending on the sector of the project. However, the stages of this 9-item Technology Preparation Level are interpreted below with a general perspective.
THS-1 Core principles observed and reported
The first of the preparation level is the lowest technology level. It mostly includes the representation on paper of the basic lines of the AWB Directory project to be developed. At this stage, basic findings are revealed through observation or report. THS-2: Technology concept or application formulated At this stage. Therefore, the focus is generally on defining the concept in the application area. However, characteristic features of applications are determined and tools are developed for analysis or simulation. There is no detailed analysis at this stage. Therefore, the outputs are based on physical and mathematical principles. THS-3: Critical function and/or feature proven based on analytics and experience R&D. However, analytical and laboratory studies of the outputs obtained in THS-2 have started. The ideas put forward at this stage need to be proven experimentally and analytically.