/UserBehaviorModellingBuildings

Modelling of User Behavior in Buildings

Primary LanguageHTMLApache License 2.0Apache-2.0

User Behavior Modelling in Buildings

A Java implementation of several User Behavior Models in Buildings.

References

  1. IEA-EBC Annex 66 Task (https://annex66.org/)
  2. Haldi, F., & Robinson, D. (2008). On the behaviour and adaptation of office occupants. Building and environment, 43(12), 2163-2177.
  3. Haldi, F., & Robinson, D. (2009). Interactions with window openings by office occupants. Building and Environment, 44(12), 2378-2395.
  4. Rijal, H. B., Tuohy, P., Humphreys, M. A., Nicol, J. F., Samuel, A., & Clarke, J. (2007). Using results from field surveys to predict the effect of open windows on thermal comfort and energy use in buildings. Energy and buildings, 39(7), 823-836.
  5. Rijal, H. B., Tuohy, P., Humphreys, M. A., Nicol, J. F., Samuel, A., Raja, I. A., & Clarke, J. (2008). Development of adaptive algorithms for the operation of windows, fans, and doors to predict thermal comfort and energy use in Pakistani buildings. American Society of Heating Refrigerating and Air Conditioning Engineers (ASHRAE) Transactions, 114(2), 555-573.
  6. Yun, G. Y., & Steemers, K. (2008). Time-dependent occupant behaviour models of window control in summer. Building and environment, 43(9), 1471-1482.
  7. Yun, G. Y., Tuohy, P., & Steemers, K. (2009). Thermal performance of a naturally ventilated building using a combined algorithm of probabilistic occupant behaviour and deterministic heat and mass balance models. Energy and buildings, 41(5), 489-499.

Dependencies

Requires Apache Commons Math 3.6.1

License

This code is released by Technische Hochschule Nuernberg Georg Simon Ohm under the Apache License, Version 2.0

You may reference this repository by the following DOI

DOI .

Acknowledgments

Parts of this work have been developed with funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 680517 (MOEEBIUS)