S., G., & 57191053793. (2023). Development of a novel compression-based piezoelectric traffic model for improving the roadways energy harvesting system by applying the celular Atomata traffic model. International Journal of Renewable Energy Research.
Chicago Style CitationS., Gareh, and 57191053793. Development of a Novel Compression-based Piezoelectric Traffic Model for Improving the Roadways Energy Harvesting System By Applying the Celular Atomata Traffic Model. International Journal of Renewable Energy Research, 2023.
MLA引文S., Gareh, and 57191053793. Development of a Novel Compression-based Piezoelectric Traffic Model for Improving the Roadways Energy Harvesting System By Applying the Celular Atomata Traffic Model. International Journal of Renewable Energy Research, 2023.