With the active large-scale roll-out of smart metering worldwide, details about the type of smart meter data that will be available for analysis are emerging. Consequently, focus has steadily been shifting from analysis of high-rate power readings (usually in kHz to MHz) to low-rate power readings (sampled at 1 to 60 sec) and very low-rate meter readings of the order of 15-60 minutes. This has triggered renewed research into practical non-intrusive load disaggregation of low- to very-low granularity meter readings to address challenges not addressed by existing disaggregation approaches, namely, indistinct appliance ON/OFF transitions, increased likelihood of overlapping appliance usage within a sample and noise due to unknown appliances. I...
International audienceNon-intrusive load monitoring (Nilm) deals with the disaggregation of individu...
Information on residential power consumption patterns disaggregated at the single-appliance level is...
Device specific power consumption information leads to a high potential for energy savings. Smart me...
With the active large-scale roll-out of smart metering worldwide, details about the type of smart me...
We propose two algorithms for power load disaggregation at low-sampling rates (greater than 1sec): a...
Understanding how the electrical appliances and devices in a house consume power is an important fac...
Non-intrusive appliance load monitoring (NALM), also called load disaggregation, is a method for iso...
A nonintrusive load monitor (NILM) aims to solve the energy disaggregation problem by incorporating ...
Energy disaggregation algorithms disintegrate aggregate demand into appliance-level demands. Among v...
With the large-scale roll-out of smart metering worldwide, there is a growing need to account for th...
In order to achieve more efficient energy consumption, it is crucial that accurate detailed informat...
AbstractAn algorithm for the non-intrusive disaggregation of energy consumption into its end-uses, a...
In this MSc. thesis steady-state disaggregation methods for the Non-Intrusive Load Monitoring are re...
This paper is motivated by the growing demand of disaggregating electricity consumption measured by ...
International audienceNon-intrusive load monitoring (Nilm) deals with the disaggregation of individu...
Information on residential power consumption patterns disaggregated at the single-appliance level is...
Device specific power consumption information leads to a high potential for energy savings. Smart me...
With the active large-scale roll-out of smart metering worldwide, details about the type of smart me...
We propose two algorithms for power load disaggregation at low-sampling rates (greater than 1sec): a...
Understanding how the electrical appliances and devices in a house consume power is an important fac...
Non-intrusive appliance load monitoring (NALM), also called load disaggregation, is a method for iso...
A nonintrusive load monitor (NILM) aims to solve the energy disaggregation problem by incorporating ...
Energy disaggregation algorithms disintegrate aggregate demand into appliance-level demands. Among v...
With the large-scale roll-out of smart metering worldwide, there is a growing need to account for th...
In order to achieve more efficient energy consumption, it is crucial that accurate detailed informat...
AbstractAn algorithm for the non-intrusive disaggregation of energy consumption into its end-uses, a...
In this MSc. thesis steady-state disaggregation methods for the Non-Intrusive Load Monitoring are re...
This paper is motivated by the growing demand of disaggregating electricity consumption measured by ...
International audienceNon-intrusive load monitoring (Nilm) deals with the disaggregation of individu...
Information on residential power consumption patterns disaggregated at the single-appliance level is...
Device specific power consumption information leads to a high potential for energy savings. Smart me...