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Calibrated simulation is the process of using an existing building simulation computer program and “tuning” or calibrating the various inputs to the program so that predictions match closely with observed energy use. Historically, the calibration process has been an art form that inevitably relies on user knowledge, past experience, statistical expertise, engineering judgment, and an abundance of trial and error. Despite widespread interest in the professional community, unfortunately, no consensus guidelines have been published on how to perform a calibration using detailed simulation programs. This research project was initiated with the intention to cull the best tools, techniques, approaches, procedures from the existing body of research and develop a coherent and systematic calibration methodology that includes both “parameter estimation” and determination of the uncertainty in the calibrated simulation. A general methodology of calibrating detailed simulation programs to performance data is proposed which we deem to be methodical, rational, robust and computationally efficient, while being flexible enough to satisfy different users with different personal preferences and biases. The methodology involves various concepts and approaches borrowed from allied scientific disciplines which are also reviewed in this report. The methodology essentially consists of four aspects: (i) heuristically define a set of influential input parameter and schedules along with their best-guess estimates and their range of variation depending on the building type; (ii) perform a coarse grid search (involving thousands of simulations) wherein the heuristically defined influential parameters are subject to a Monte Carlo simulation in order to identify a sub-set of the most sensitive parameters, define narrower bounds of variability of such parameters, and identify a small set of feasible parameter vector solutions; (iii) perform a guided grid search to further refine the feasible parameter vector solutions and (iv) use this solution set to make predictions and determine the prediction uncertainty of the entire calibration process. The methodology has been illustrated with three case study buildings that include two synthetic cases, and one actual building.

Product Details

Published:
2006
Number of Pages:
297
File Size:
1 file , 4.9 MB
Product Code(s):
D-28705