Analysis of Classifier Performance on Aggregated Energy Status Data: Unterschied zwischen den Versionen
Zur Navigation springen
Zur Suche springen
| Zeile 5: | Zeile 5: | ||
|betreuer=Dominik Werle | |betreuer=Dominik Werle | ||
|termin=Institutsseminar/2018-06-22 | |termin=Institutsseminar/2018-06-22 | ||
| − | |kurzfassung= | + | |kurzfassung=Non-intrusive load monitoring(NILM) algorithms aim at disaggregating the energy dataset created by households to appliance level. However, there is no conventional way of quantifying and representing the tradeoff between the quality of analyses, such as the accuracy of the disaggregated consumption curves, and the load on the available resources. Thus, it is hard to plan the underlying infrastructure and resources for the analysis system and to find the optimal configuration of the system. In this thesis, we want to plan such a system which can, on the one hand, assess the quality of different analyzes. On the other hand, allocates the runtime behavior for multiple analysis based on varying configuration parameters and changed characteristics of the input dataset. Besides, be aware of the real scenario we added artificial noise for simulating the noisy data, which could be generated by low-quality sensors, and observing how it impacts the analyses' qualities. |
}} | }} | ||
Version vom 28. Mai 2018, 16:32 Uhr
| Vortragende(r) | Dou Beibei | |
|---|---|---|
| Vortragstyp | Masterarbeit | |
| Betreuer(in) | Dominik Werle | |
| Termin | Fr 22. Juni 2018 | |
| Vortragsmodus | ||
| Kurzfassung | Non-intrusive load monitoring(NILM) algorithms aim at disaggregating the energy dataset created by households to appliance level. However, there is no conventional way of quantifying and representing the tradeoff between the quality of analyses, such as the accuracy of the disaggregated consumption curves, and the load on the available resources. Thus, it is hard to plan the underlying infrastructure and resources for the analysis system and to find the optimal configuration of the system. In this thesis, we want to plan such a system which can, on the one hand, assess the quality of different analyzes. On the other hand, allocates the runtime behavior for multiple analysis based on varying configuration parameters and changed characteristics of the input dataset. Besides, be aware of the real scenario we added artificial noise for simulating the noisy data, which could be generated by low-quality sensors, and observing how it impacts the analyses' qualities. | |