Projects / Programmes
On the basis of computer programme for dynamic thermal analysis of one space building KAMRA an upgraded version is developed which enables the use of fuzzy control system developed on the platform of MATLAB-SIMULINK model. The new software enables dynamic
Code |
Science |
Field |
Subfield |
2.01.05 |
Engineering sciences and technologies |
Civil engineering |
Building physics |
Code |
Science |
Field |
T125 |
Technological sciences |
Automation, robotics, control engineering |
T140 |
Technological sciences |
Energy research |
buildings, openings, dynamic thermal response, daylighting, movable parts, systems control, regulation, modeling, identification, intellignet control, symulation, supervision
Researchers (9)
no. |
Code |
Name and surname |
Research area |
Role |
Period |
No. of publicationsNo. of publications |
1. |
15395 |
PhD Aleš Belič |
Systems and cybernetics |
Researcher |
1998 - 1999 |
323 |
2. |
02182 |
PhD Aleš Krainer |
Civil engineering |
Head |
1998 - 1999 |
468 |
3. |
10635 |
PhD Živa Kristl |
Civil engineering |
Researcher |
1998 - 1999 |
309 |
4. |
13565 |
PhD Gašper Mušič |
Systems and cybernetics |
Researcher |
1998 - 1999 |
450 |
5. |
01251 |
PhD Niko Seliškar |
Civil engineering |
Researcher |
1998 - 1999 |
114 |
6. |
17133 |
Milan Simčič |
|
Researcher |
1998 - 1999 |
34 |
7. |
10742 |
PhD Igor Škrjanc |
Systems and cybernetics |
Researcher |
1998 - 1999 |
730 |
8. |
11493 |
MSc Miha Tomšič |
Civil engineering |
Researcher |
1998 - 1999 |
329 |
9. |
00172 |
PhD Borut Zupančič |
Systems and cybernetics |
Researcher |
1998 - 1999 |
418 |
Organisations (2)
Abstract
On the basis of computer programme for dynamic thermal analysis of one space building KAMRA an upgraded version is developed which enables the use of fuzzy control system developed on the platform of MATLAB-SIMULINK model. The new software enables dynamic thermal response to the real time changes of the position of blinds and glass transmition, together with changeable thermal insulation layer on the loadbearing construction, thus taking into account the possiblity of real time changes of thermal capacity of the envelope.
The simulation model was tested (sensitivity analysis) on test cell in real wether conditions.
Hardware for control system was designed and constructed and connected to test cell. Mitshubishi PLC controler enables use of Fuzzy IDR Block software and MEDOC functions for sequence control. First test measurments will start in the second half of December 1998.
The application can be observed and controlled from any location by distance control via Internet/Intranet and Active-X technology.