@inproceedings{discovery10063033,
            note = {This version is the author accepted manuscript. For information on re-use, please refer to the publisher's terms and conditions.},
          series = {CLIMA  - REHVA World Congress and the International Conference on Indoor Air Quality, Ventilation and Energy Conservation in Buildings},
           title = {SRC and its applications to building thermal control},
            year = {2013},
         journal = {Proceedings of CLIMA 2013},
         address = {Prague, Czech Republic},
       booktitle = {Proceedings of CLIMA 2013 - 11th REHVA World Congress and the 8th International Conference on Indoor Air Quality, Ventilation and Energy Conservation in Buildings},
          volume = {2013},
           month = {June},
        keywords = {Energy-efficient, model-based thermal control, Coupled building dynamics, Inter-zone air mixing.},
          author = {Lilis, GN and Giannakis, GI and Rovas, DV and Kosmatopoulos, EB},
        abstract = {Energy-efficient building design requires, the use of advanced thermal simulation programs
and respective complex building models, for the estimation of the annual building energy demand. This complexity, limits the use of such models in model-based building climate control
design, mainly because it entails additional difficulty in finding appropriate controllers. To
meet the above requirements, a novice climate control method is introduced, which is based
on SRC (a building thermal simulation program, which is complex enough for the initial
building design phase and at the same time, simple enough for model-based climate control design tasks). In the suggested method, the problem of finding energy-efficient operation
schedules of building devices, is formulated as a convex optimization problem and solved using a finite number of iterations, until a certain comfort criterion is met. The method is tested
on a two zone building with external and internal openings, where the advantages of interzone air mixing and coupled building model thermal dynamics, are taken into account. The
obtained operation schedules, when applied to the passive (openings) and active (HVAC)
devices of the test building, exhibited higher energy savings than the schedules provided by
a rule-based controller, while conforming to the same thermal comfort requirements.},
             url = {http://www.clima2013.org/}
}