Estadísticas
Número total de visitas
| Visitas | |
|---|---|
| A novel methodology for the characterization of cutting conditions in turning processes using Machine Learning models and Acoustic Emission Signals | 290 |
Visitas al mes
| enero 2025 | febrero 2025 | marzo 2025 | abril 2025 | mayo 2025 | junio 2025 | |
|---|---|---|---|---|---|---|
| A novel methodology for the characterization of cutting conditions in turning processes using Machine Learning models and Acoustic Emission Signals | 0 | 0 | 0 | 0 | 50 | 61 |
| julio 2025 | agosto 2025 | septiembre 2025 | octubre 2025 | noviembre 2025 | diciembre 2025 | |
|---|---|---|---|---|---|---|
| A novel methodology for the characterization of cutting conditions in turning processes using Machine Learning models and Acoustic Emission Signals | 26 | 38 | 50 | 21 | 17 | 5 |
| enero 2026 | febrero 2026 | marzo 2026 | |
|---|---|---|---|
| A novel methodology for the characterization of cutting conditions in turning processes using Machine Learning models and Acoustic Emission Signals | 17 | 2 | 3 |
Descargas del fichero
| Visitas | |
|---|---|
| A novel methodology for the characterization of cutting conditions in turning processes using ML_final.pdf | 92 |
Países con más visitas
| Visitas | |
|---|---|
| Estados Unidos | 136 |
| China | 40 |
| Japón | 23 |
| Singapur | 12 |
| Vietnam | 8 |
| Brasil | 7 |
| España | 5 |
| Reino Unido | 5 |
| India | 4 |
| Letonia | 4 |
Ciudades con más visitas
| Visitas | |
|---|---|
| San Mateo | 61 |
| Buffalo | 8 |
| Singapore | 7 |
| Beijing | 5 |
| Madrid | 4 |
| San Jose | 4 |
| Los Angeles | 3 |
| Mumbai | 3 |
| Sheffield | 3 |
| Ashburn | 2 |
