Marc Baranski scite author profile

Marc Baranski

5Publications

153Citation Statements Received

4Citation Statements Given

How they've been cited

313

153

How they cite others

Affiliations

RWTH Aachen University, Paderborn University, Babson College

Publications

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Genetic algorithm for pattern detection in NIALM systems

Baranski

Voss

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Nonintrusive Appliance Load Monitoring system ( N M M ) require sufficient accurate total load data to separate the load into its major appliances. The mstavailable solutionsseparate the whole electric energy consumption based on the measurement of all three voltages and currents. Aside from the cost for special measuring devices, the intrusion into the local installation is the main problem for reachinga high market distribution. The use of standarddigital electricity meters couldavoid thisproblem with loss of information in the measured data. This paper presents a new N U M approach to analyse data, collected form a standard digital electricity meter:To disaggregate the consumption of the entire active power into its major electrical end uses, an algorithm consisting of fizzy clustering methods, a genetic algorithm and a dynamic programming approach ispresented.

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Non-intrusive appliance load monitoring based on an optical sensor

Baranski

Voss

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Real-world application of machine-learning-based fault detection trained with experimental data

Bode

Thul

Baranski

et al. 2020

Energy

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Automated data-driven modeling of building energy systems via machine learning algorithms

Rätz

Javadi

Baranski

et al. 2019

Energy and Buildings

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Detecting Patterns of Appliances from Total Load Data Using a Dynamic Programming Approach

Baranski¹,

Voss²

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Nonintrusive Appliance Load Monitoring (NIALM) systems require sufficient accurate total load data to separate the load into its major appliances. The most available solutions separate the whole electric energy consumption based on the measurement of all three voltages and currents. Aside from the cost for special measuring devices, the intrusion into the local installation is the main problem for reaching a high market distribution. The use of standard digital electricity meters could avoid this problem but the loss of information of the measured data has to be compensated by more intelligent algorithms and implemented rules to disaggregate the total load trace of only the active power measurements. The paper presents a new NIALM approach to analyse data, collected form a standard digital electricity meter. To disaggregate the consumption of the entire active power into its major electrical end uses, an algorithm consisting of clustering methods, a genetic algorithm and a dynamic programming approach is presented. The genetic algorithm is used to combine frequently occuring events to create hypothetical finite state machines to model detectable appliances. The time series of each finite state machine is optimized using a dynamic programming method similar to the viterbi algorithm.

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Marc Baranski

Genetic algorithm for pattern detection in NIALM systems

Non-intrusive appliance load monitoring based on an optical sensor

Real-world application of machine-learning-based fault detection trained with experimental data

Automated data-driven modeling of building energy systems via machine learning algorithms

Detecting Patterns of Appliances from Total Load Data Using a Dynamic Programming Approach

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