A Stochastic Model for Residential User Activity Simulation

Liu, Xiufeng; Yang, Yanyan; Li, Rongling; Nielsen, Per Sieverts

doi:10.3390/en12173326

Cited by 8 publications

(5 citation statements)

References 23 publications

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“…Data-driven approaches to predict the occupants' presence and behaviour in open office spaces and to analyse indoor comfort and energy consumption are most common if large data sets are available [20]. The algorithms based on approaches based on Markov chain were used in most of the analysed studies for simulating occupant presence or activities [24,25,[38][39][40]46]. Some other models, rarely used, include the Monte Carlo [35], regression and time-series models [36], Dynamic Markov Time-Window Inference (DMTWI), Auto-Regressive Moving Average (ARMA) and Support Vector Regression (SVR) models [42], agent-based models (ABM) [47], Gaussian approach [46,48], and artificial neural networks (ANN) [29,30,49,50].…”

Section: Previous Related Workmentioning

confidence: 99%

“…The algorithms based on approaches based on Markov chain were used in most of the analysed studies for simulating occupant presence or activities [24,25,[38][39][40]46]. Some other models, rarely used, include the Monte Carlo [35], regression and time-series models [36], Dynamic Markov Time-Window Inference (DMTWI), Auto-Regressive Moving Average (ARMA) and Support Vector Regression (SVR) models [42], agent-based models (ABM) [47], Gaussian approach [46,48], and artificial neural networks (ANN) [29,30,49,50]. New approaches like extreme learning machine (ELM) and its modifications [11][12][13][14][15], narrative-based modelling and multi-criteria analysis [20], have also been used recently.…”

Section: Previous Related Workmentioning

confidence: 99%

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Occupancy Prediction Using Differential Evolution Online Sequential Extreme Learning Machine Model

et al. 2020

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Despite increasing energy efficiency requirements, the full potential of energy efficiency is still unlocked; many buildings in the EU tend to consume more energy than predicted. Gathering data and developing models to predict occupants’ behaviour is seen as the next frontier in sustainable design. Measurements in the analysed open-space office showed accordingly 3.5 and 2.7 times lower occupancy compared to the ones given by DesignBuilder’s and EN 16798-1. This proves that proposed occupancy patterns are only suitable for typical open-space offices. The results of the previous studies and proposed occupancy prediction models have limited applications and limited accuracies. In this paper, the hybrid differential evolution online sequential extreme learning machine (DE-OSELM) model was applied for building occupants’ presence prediction in open-space office. The model was not previously applied in this area of research. It was found that prediction using experimentally gained indoor and outdoor parameters for the whole analysed period resulted in a correlation coefficient R2 = 0.72. The best correlation was found with indoor CO2 concentration—R2 = 0.71 for the analysed period. It was concluded that a 4 week measurement period was sufficient for the prediction of the building’s occupancy and that DE-OSELM is a fast and reliable model suitable for this purpose.

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Section: Previous Related Workmentioning

confidence: 99%

Section: Previous Related Workmentioning

confidence: 99%

Occupancy Prediction Using Differential Evolution Online Sequential Extreme Learning Machine Model

et al. 2020

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“…Bottom-up approach implements a Markov chain model that simulates the dwellers' behavior inside the households and their interaction with home appliances [12]. Usually, these methods are based on social demographic data [13], or appliances characteristics and consumption duration [14]- [17].…”

Section: A Literature Review and Contributionsmentioning

confidence: 99%

Conditional Multivariate Elliptical Copulas to Model Residential Load Profiles From Smart Meter Data

Duque

Vergara

Nguyen

et al. 2021

IEEE Trans. Smart Grid

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The development of thorough probability models for highly volatile load profiles based on smart meter data is crucial to obtain accurate results when developing grid planning and operational frameworks. This paper proposes a new top-down modeling approach for residential load profiles (RLPs) based on multivariate elliptical copulas that can capture the complex correlation between time steps. This model can be used to generate individual and aggregated daily RLPs to simulate the operation of medium and low voltage distribution networks in flexible time horizons. Additionally, the proposed model can simulate RLPs conditioned to an annual energy consumption and daily weather profiles such as solar irradiance and temperature. The simulated daily profiles accurately capture the seasonal, weekends, and weekdays power consumption trends. Five databases with actual smart meter measurements at different time resolutions have been used for the model's validation. Results show that the proposed model can successfully replicate statistical properties such as autocorrelation of the time series, and load consumption probability densities for different seasons. The proposed model outperforms other multivariate state-of-the-art methods, such as Gaussian Mixture Models, by one order of magnitude in two different distance metrics for probability distributions.

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“…This can be understood from the evidence that similar households in similar buildings can have significant differences in energy consumption and that a change in the household population can lead to significant changes in energy consumption. Thanks to the use of new technologies and services in the housing sector, it is possible to thoroughly examine the impact of dynamic changes in user activity on energy consumption [18][19][20]. To estimate the amount of heat consumed in buildings, analyses usually try to find empirical correlations between weather conditions and heat demand.…”

Section: Introductionmentioning

confidence: 99%

The Impact of Thermo-Modernization and Predictive Regulation on Heat Energy Consumption and Emission of Pollutants into the Atmosphere - The Case of Prefabricated Buildings

Piotrowska-Woroniak¹,

Cieśliński²,

Woroniak³

et al. 2022

Which Factors Contribute to Innovative Performance? A Case Study Applied to the Food and Beverage Industry

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The paper presents an assessment of thermal energy consumption for heating in 10 buildings made in the OWT-67N prefabricated large-panel technology from 1983 to 1986. The work covers the years 2002-2020 in three periods: before and after thermal modernization and after the use of an innovative weather prediction heating system control in buildings. The analysis made it possible to assess the impact of carrying out a deep thermal modernization, and then installing a modern forecast regulation system in terms of reducing heat energy consumption for central heating purposes, as well as reducing greenhouse gas emissions, such as CO2, SOx, NOx, CO and www.videleaf.com benzo(a)pyrene, into the atmosphere. The implementation of deep thermal modernization in buildings allowed for savings of 19.8-35% of thermal energy consumption for heating. The use of additional regulation based on prediction saved from 4.8 to 23.5%, except for one building BU10, where there was an increase in final energy consumption by 2.1%. Replacing the weather regulation in heating stations with the forecast regulation additionally reduced the emission of pollutants by 11.1%, compared to the reduction of pollutants achieved as a result of the thermal modernization of buildings alone, amounting to an average of 29.7%.

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A Stochastic Model for Residential User Activity Simulation

Cited by 8 publications

References 23 publications

Occupancy Prediction Using Differential Evolution Online Sequential Extreme Learning Machine Model

Occupancy Prediction Using Differential Evolution Online Sequential Extreme Learning Machine Model

Conditional Multivariate Elliptical Copulas to Model Residential Load Profiles From Smart Meter Data

The Impact of Thermo-Modernization and Predictive Regulation on Heat Energy Consumption and Emission of Pollutants into the Atmosphere - The Case of Prefabricated Buildings

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