@article{article_1519713, title={MATHEMATICAL MODELING OF QUARTZ LUMINESCENCE SIGNALS FOR EARTHQUAKE DETECTION}, journal={İstanbul Ticaret Üniversitesi Fen Bilimleri Dergisi}, volume={24}, pages={60–83}, year={2025}, DOI={10.55071/ticaretfbd.1519713}, author={Dervişağaoğlu, Oğuzhan and Camgöz, Berkay}, keywords={Lüminesans fiziği, gömülü sistemler, deprem, algoritmalar, huffman kodlama}, abstract={This study can be accepted pure research. Most part of this research luminescence physics and the other minor parts of the research are applied mathematics and computer science, earthquake science, embedded systems. Main idea is to use smoky quartz solids to detect luminescence light which is crucial to apply on the vibration of earthquake. Furthermore, new algorithm (Pascal’s Triangle Multiplication Algorithm) which has been thought as it could be useful on multiply smaller or medium data sets. Thermoluminescence properties of amethyst materials have been obtained. The Pascal triangle multiplication algorithm is considered to be efficient in signal processing within embedded systems. Based on this premise, it has been proposed that smoky quartz, which exhibits triboluminescent properties, could also be utilized in fields such as earthquake detection and dosimetric detectors. Due to the deterministic nature of this multiplication algorithm, it is anticipated that it can be employed in larger data sets through optimizations like data compression by guiding of Huffman coding. That will give the scientists much more time to evaluate data which comes from sensors that detect the triboluminescence from smoky quartz solids according to author who is in charge of writing this paper.}, number={47}, publisher={İstanbul Ticaret Üniversitesi}, organization={Kurum yok}