Travelled to:1 × Australia
1 × Austria
1 × Croatia
1 × Czech Republic
1 × Finland
1 × France
1 × Germany
1 × Greece
1 × Italy
1 × USA
2 × Canada
Collaborated with:F.Plasil P.Hnetynka I.Gerostathopoulos J.Keznikl M.Kit M.Malohlava D.Skoda ∅ R.A.Ali T.Pop V.Matena O.Kovac M.Outly P.Hosek S.Sentilles A.Vulgarakis J.Carlson I.Crnkovic S.Kugele C.Segler A.Knoll S.García P.Pelliccione C.Menghi T.Berger A.Knauss J.Kofron Md Rakibul Alam C.Prehofer Alessandro Attanasi A.Hujecek N.Hoch
Talks about:system (10) compon (10) physic (5) cyber (5) architectur (4) smart (4) adapt (4) base (4) ensembl (3) model (3)
♂ Person: Tomás Bures
DBLP: Bures:Tom=aacute=s
Facilitated 3 volumes:
Ed
PrCh
EdContributed to:
2015201520142014
201420132012
20122010
20092008
2019
201920162016
2019Wrote 18 papers:
- CBSE-2015-KitPMBK #communication #component #optimisation
- Employing Domain Knowledge for Optimizing Component Communication (MK, FP, VM, TB, OK), pp. 59–64.
- ECSA-2015-Gerostathopoulos #adaptation #cyber-physical
- Meta-Adaptation Strategies for Adaptation in Cyber-Physical Systems (IG, TB, PH, AH, FP, DS), pp. 45–52.
- CBSE-2014-Bures #cyber-physical #development
- Development of smart cyber-physical systems (TB), pp. 189–190.
- CBSE-2014-BuresHP #architecture #continuation #modelling #product line #runtime
- Strengthening architectures of smart CPS by modeling them as runtime product-lines (TB, PH, FP), pp. 91–96.
- ECSA-2014-BuresGHKKP #component #cyber-physical
- Gossiping Components for Cyber-Physical Systems (TB, IG, PH, JK, MK, FP), pp. 250–266.
- WICSA-2014-AliBGKP #adaptation #architecture #estimation
- Architecture Adaptation Based on Belief Inaccuracy Estimation (RAA, TB, IG, JK, FP), pp. 87–90.
- CBSE-2013-BuresGHKKP #component #named
- DEECO: an ensemble-based component system (TB, IG, PH, JK, MK, FP), pp. 81–90.
- CBSE-2013-KezniklBPGHH #component #design #invariant #refinement
- Design of ensemble-based component systems by invariant refinement (JK, TB, FP, IG, PH, NH), pp. 91–100.
- CBSE-2012-PopPOMB #co-evolution #component #network
- Property networks allowing oracle-based mode-change propagation in hierarchical components (TP, FP, MO, MM, TB), pp. 93–102.
- WICSA-ECSA-2012-KezniklBPK #component #towards
- Towards Dependable Emergent Ensembles of Components: The DEECo Component Model (JK, TB, FP, MK), pp. 249–252.
- CBSE-2010-HosekPBHM #comparison #component #embedded #framework #realtime
- Comparison of Component Frameworks for Real-Time Embedded Systems (PH, TP, TB, PH, MM), pp. 21–36.
- SAC-2009-BuresHM #component #product line #using
- Using a product line for creating component systems (TB, PH, MM), pp. 501–508.
- CBSE-2008-SentillesVBCC #component #distributed #embedded
- A Component Model for Control-Intensive Distributed Embedded Systems (SS, AV, TB, JC, IC), pp. 310–317.
- ASE-2019-Gerostathopoulos #automation #evaluation
- Automated Trainability Evaluation for Smart Software Functions (IG, SK, CS, TB, AK), pp. 998–1001.
- SLE-2019-GPMBB #multi #specification
- High-level mission specification for multiple robots (SG, PP, CM, TB, TB), pp. 127–140.
- ECSA-2016-Gerostathopoulos #adaptation #architecture #cyber-physical #self
- Architectural Homeostasis in Self-Adaptive Software-Intensive Cyber-Physical Systems (IG, DS, FP, TB, AK), pp. 113–128.
- WICSA-2016-BuresHKAS #approach #architecture #physics #statistics
- Statistical Approach to Architecture Modes in Smart Cyber Physical Systems (TB, PH, JK, RAA, DS), pp. 168–177.
- ICSA-2019-AlamGPAB #detection #framework
- A Framework for Tunable Anomaly Detection (MRA, IG, CP, AA, TB), pp. 201–210.