This work is licensed under the Creative Commons Attribution 4.0 International License.
Biolek, V., & Hanák, T. (2019). LCC estimation model: A construction material perspective. Buildings, 9(8), p. 182.BiolekV. & HanákT.(2019).LCC estimation model: A construction material perspective.Buildings,9(8), p.182.Search in Google Scholar
Bottero, M., Caprioli, C., & Oppio, A. (2021). A literature review on construction costs estimation: Hot topics and emerging trends. In Morano, P. et al. (Ed.), Appraisal and Valuation. Green Energy and Technology. Springer, Cham, pp. 117-131.BotteroM.CaprioliC. & OppioA.(2021).A literature review on construction costs estimation: Hot topics and emerging trends. InMoranoP.. (Ed.),Appraisal and Valuation. Green Energy and Technology.Springer,Cham, pp.117-131.Search in Google Scholar
Bromilow, F. J., & Pawsey, M. R. (1987). Life cycle cost of university buildings. Construction Management and Economics, 5, pp. S3-S22.BromilowF. J. & PawseyM. R.(1987).Life cycle cost of university buildings.Construction Management and Economics,5, pp. S3-S22.Search in Google Scholar
Car-Pušić, D., Marović, I., Mladen, M., & Tijanić, K. (2020). Predicting buildings construction cost overruns on the basis of cost overruns structure. Przegląd Nauk. Inżynieria i Kształtowanie Środowiska, 29(3), pp. 366-376.Car-PušićD.MarovićI.MladenM. & TijanićK.(2020).Predicting buildings construction cost overruns on the basis of cost overruns structure.Przegląd Nauk. Inżynieria i Kształtowanie Środowiska,29(3), pp.366-376.Search in Google Scholar
Cemix, wall systém, Available at https://www.cemix.cz/data/files/cemix_omitkove_systemy_2012.pdf. [Accessed 2012].Cemix, wall systém, Available at https://www.cemix.cz/data/files/cemix_omitkove_systemy_2012.pdf. [Accessed 2012].Search in Google Scholar
Cerić, A., Vukomanović, M., Ivić, I., & Kolarić, S. (2020). Trust in megaprojects: A comprehensive literature review of research trends. International Journal of Project Management, 39(4), pp. 325-338.CerićA.VukomanovićM.IvićI. & KolarićS.(2020).Trust in megaprojects: A comprehensive literature review of research trends.International Journal of Project Management,39(4), pp.325-338.Search in Google Scholar
ČSN 73 0532 (730532). (2020). Akustika – Ochrana proti hluku v budovách a posuzování akustických vlastností stavebních konstrukcí a výrobků – Požadavky. Praha: Úřad pro technickou normalizaci, metrologii a státní zkušebnictví.ČSN 73 0532 (730532). (2020).Akustika – Ochrana proti hluku v budovách a posuzování akustických vlastností stavebních konstrukcí a výrobků – Požadavky.Praha:Úřad pro technickou normalizaci, metrologii a státní zkušebnictví.Search in Google Scholar
European Commission. Life-cycle costing. Available at https://ec.europa.eu/environment/gpp/lcc.htm (accessed on 7 Feb 2023).European Commission.Life-cycle costing. Available at https://ec.europa.eu/environment/gpp/lcc.htm(accessed on 7 Feb 2023).Search in Google Scholar
Fan, M., & Sharma, A. (2021). Design and implementation of construction cost prediction model based on SVM and LSSVM in industries 4.0. International Journal of Intelligent Computing and Cybernetic, 14(2), pp. 145-157.FanM. & SharmaA.(2021).Design and implementation of construction cost prediction model based on SVM and LSSVM in industries 4.0.International Journal of Intelligent Computing and Cybernetic,14(2), pp.145-157.Search in Google Scholar
Flores-Colen, I., & de Brito, J. (2010). A systematic approach for maintenance budgeting of buildings façades based on predictive and preventive strategies. Construction and Building Materials, 24(9), pp. 1718-1729.Flores-ColenI. & de BritoJ.(2010).A systematic approach for maintenance budgeting of buildings façades based on predictive and preventive strategies.Construction and Building Materials,24(9), pp.1718-1729.Search in Google Scholar
Flyvbjerg, B. (2009). Survival of the unfittest: Why the worst infrastructure gets built – and what we can do about it. Oxford Review of Economic Policy, 25(3), pp. 344-367.FlyvbjergB.(2009).Survival of the unfittest: Why the worst infrastructure gets built – and what we can do about it.Oxford Review of Economic Policy,25(3), pp.344-367.Search in Google Scholar
Galimshina, A., Moustapha, M., Hollberg, A., Padey, P., Lasvaux, S., & Sudret, B., et al. (2020). Statistical method to identify robust building renovation choices for environmental and economic performance. Building and Environment, 183, p. 107143.GalimshinaA.MoustaphaM.HollbergA.PadeyP.LasvauxS. & SudretB.. (2020).Statistical method to identify robust building renovation choices for environmental and economic performance.Building and Environment,183, p.107143.Search in Google Scholar
Goh, B. H., & Sun, Y. (2016). The development of life-cycle costing for buildings. Building Research and Information, 44(3), pp. 319-333.GohB. H. & SunY.(2016).The development of life-cycle costing for buildings.Building Research and Information,44(3), pp.319-333.Search in Google Scholar
Heluz katalog. kompletní cihelný systém pro hrubou stavbu. Available at https://www.heluz.cz/files/obecne/katalog/1045402-katalog-vyrobku-heluz.PDF. [Accessed červenec 2021].Heluz katalog.kompletní cihelný systém pro hrubou stavbu.Available at https://www.heluz.cz/files/obecne/katalog/1045402-katalog-vyrobku-heluz.PDF. [Accessed červenec 2021].Search in Google Scholar
Heralova, R. S. (2017). Life cycle costing as an important contribution to feasibility study in construction projects. Procedia Engineering, 196, pp. 565-570.HeralovaR. S.(2017).Life cycle costing as an important contribution to feasibility study in construction projects.Procedia Engineering,196, pp.565-570.Search in Google Scholar
Illankoon, I. M. C. S., & Lu, W. (2019). Optimising choices of ‘building services’ for green building: Interdependence and life cycle costing. Building and Environment, 161, p. 106247.IllankoonI. M. C. S. & LuW.(2019).Optimising choices of ‘building services’ for green building: Interdependence and life cycle costing.Building and Environment,161, p.106247.Search in Google Scholar
Islam, H., Jollands, M., & Setunge, S. (2015). Life cycle assessment and life cycle cost implication of residential buildings – A review. Renewable and Sustainable Energy Reviews, 42, pp. 129-140.IslamH.JollandsM. & SetungeS.(2015).Life cycle assessment and life cycle cost implication of residential buildings – A review.Renewable and Sustainable Energy Reviews,42, pp.129-140.Search in Google Scholar
ISO 15686-5:2017. Buildings and constructed assets – Service life planning. Part 5: Life–cycle costing. Publication date: 2017-07.ISO 15686-5:2017.Buildings and constructed assets – Service life planning. Part 5: Life–cycle costing. Publication date: 2017-07.Search in Google Scholar
Juszczyk, M. (2016). Application of PCA-based data compression in the ANN-supported conceptual cost estimation of residential buildings. AIP Conference Proceedings, 1738, pp. 1-8.JuszczykM.(2016).Application of PCA-based data compression in the ANN-supported conceptual cost estimation of residential buildings.AIP Conference Proceedings,1738, pp.1-8.Search in Google Scholar
Juszczyk, M. (2018). Implementation of the ANNs ensembles in macro-BIM cost estimates of buildings’ floor structural frames. AIP Conference Proceedings, 1946, pp. 1-5.JuszczykM.(2018).Implementation of the ANNs ensembles in macro-BIM cost estimates of buildings’ floor structural frames.AIP Conference Proceedings,1946, pp.1-5.Search in Google Scholar
Korytarova, J., & Hromadka, V. (2010). Building life cycle economic impacts. In: 2010 International Conference on Management and Service Science, Wuhan, China, 24-26 August 2010, pp. 1-4.KorytarovaJ. & HromadkaV.(2010).Building life cycle economic impacts. In:2010 International Conference on Management and Service Science, Wuhan, China, 24-26 August 2010, pp.1-4.Search in Google Scholar
Korytárová, J., & Papežíková, P. (2015). Assessment of large-scale projects based on CBA. Procedia Computer Science, 64, pp. 736-743.KorytárováJ. & PapežíkováP.(2015).Assessment of large-scale projects based on CBA.Procedia Computer Science,64, pp.736-743.Search in Google Scholar
Krzemiński, M. (2017). Optimization of work schedules executed using the flow shop model, assuming multitasking performed by work crews. Archives of Civil Engineering, 63(4), pp. 3-19.KrzemińskiM.(2017).Optimization of work schedules executed using the flow shop model, assuming multitasking performed by work crews.Archives of Civil Engineering,63(4), pp.3-19.Search in Google Scholar
Kupilík, V. (1999). Závady a životnost staveb. Grada, Praha, Czech Republic, 288 p.KupilíkV.(1999).Závady a životnost staveb.Grada, Praha,Czech Republic,288p.Search in Google Scholar
Lazzarin, R. M., Busato, F., & Castelloti, F. (2008). Life cycle assessment and life cycle cost of buildings’ insulation materials in Italy. International Journal of Low Carbon Technologies, 3(1), pp. 44-58.LazzarinR. M.BusatoF. & CastellotiF.(2008).Life cycle assessment and life cycle cost of buildings’ insulation materials in Italy.International Journal of Low Carbon Technologies,3(1), pp.44-58.Search in Google Scholar
Leśniak, A., Wieczorek, D., & Górka, M. (2020). Costs of facade systems execution. Archives of Civil Engineering, 66(1), pp. 81-95.LeśniakA.WieczorekD. & GórkaM.(2020).Costs of facade systems execution.Archives of Civil Engineering,66(1), pp.81-95.Search in Google Scholar
Marchini, A., & Patzlaff, J. O. (2016). Building information modeling (BIM) application in civil constructions intending the increase of service life. Journal of Building Pathology and Rehabilitation, 1(1), p. 12.MarchiniA. & PatzlaffJ. O.(2016).Building information modeling (BIM) application in civil constructions intending the increase of service life.Journal of Building Pathology and Rehabilitation,1(1), p.12.Search in Google Scholar
Marková, L. (2011). Náklady životního cyklu stavby: náklady investora, celospolečenské dopady. Akademické nakladatelství CERM, Brno, 125 p.MarkováL.(2011).Náklady životního cyklu stavby: náklady investora, celospolečenské dopady.Akademické nakladatelství CERM,Brno,125p.Search in Google Scholar
Mésároš, P., Mandičák, T., Spišáková, M., Behúnová, A., & Behún, M. (2021). The implementation factors of information and communication technology in the life cycle costs of buildings. Applied Sciences, 11(7), p. 2934.MésárošP.MandičákT.SpišákováM.BehúnováA. & BehúnM.(2021).The implementation factors of information and communication technology in the life cycle costs of buildings.Applied Sciences,11(7), p.2934.Search in Google Scholar
Nematchoua, M. K., Raminosoa, C. R. R., Mamiharijaona, R., René, T., Orosa, J. A., & Elvis W., et al. (2015). Study of the economical and optimum thermal insulation thickness for buildings in a wet and hot tropical climate: Case of Cameroon. Renewable and Sustainable Energy Reviews, 50, pp. 1192-1202.NematchouaM. K.RaminosoaC. R. R.MamiharijaonaR.RenéT.OrosaJ. A. & ElvisW.. (2015).Study of the economical and optimum thermal insulation thickness for buildings in a wet and hot tropical climate: Case of Cameroon.Renewable and Sustainable Energy Reviews,50, pp.1192-1202.Search in Google Scholar
Oduyemi, O., Okoroh, M. I., Fajana, O. S., & Arowosafe, O. (2018). The need for economic performance measures for life cycle costing of sustainable commercial office buildings. Journal of Facilities Management, 16(1), pp. 54-64.OduyemiO.OkorohM. I.FajanaO. S. & ArowosafeO.(2018).The need for economic performance measures for life cycle costing of sustainable commercial office buildings.Journal of Facilities Management,16(1), pp.54-64.Search in Google Scholar
Plebankiewicz, E., & Wieczorek, D. (2020). Adaptation of a cost overrun risk prediction model to the type of construction facility. Symmetry (Basel), 12(10), p. 1739.PlebankiewiczE. & WieczorekD.(2020).Adaptation of a cost overrun risk prediction model to the type of construction facility.Symmetry (Basel),12(10), p.1739.Search in Google Scholar
Plebankiewicz, E., Zima, K., & Wieczorek, D. (2021). Modelling of time, cost and risk of construction with using fuzzy logic. Journal of Civil Engineering and Management, 27(6), pp. 412-426.PlebankiewiczE.ZimaK. & WieczorekD.(2021).Modelling of time, cost and risk of construction with using fuzzy logic.Journal of Civil Engineering and Management,27(6), pp.412-426.Search in Google Scholar
Příčky zděné (těžké). Available at https://www.estav.cz/cz/808.pricky-zdene-tezke. [accessed 6 August, 2016].Příčky zděné (těžké). Available at https://www.estav.cz/cz/808.pricky-zdene-tezke. [accessed 6 August, 2016].Search in Google Scholar
Prostějovská, Z. (2008). Management výstavbových projektů. Vyd. 1. V Praze: České vysoké učení technické, 200 s.ProstějovskáZ.(2008).Management výstavbových projektů. Vyd. 1.V Praze:České vysoké učení technické, 200 s.Search in Google Scholar
Qazi, A., Quigley, J., Dickson, A., & Kirytopoulos, K. (2016). Project complexity and risk management (ProCRiM): Towards modelling project complexity driven risk paths in construction projects. International Journal of Project Management, 34(7), pp. 1183-1198.QaziA.QuigleyJ.DicksonA. & KirytopoulosK.(2016).Project complexity and risk management (ProCRiM): Towards modelling project complexity driven risk paths in construction projects.International Journal of Project Management,34(7), pp.1183-1198.Search in Google Scholar
Santos, R., Costa, A. A., Silvestre, J. D., Vandenbergh, T., & Pyl, L., (2020). BIM-based life cycle assessment and life cycle costing of an office building in Western Europe. Building and Environment, 169, p. 106568.SantosR.CostaA. A.SilvestreJ. D.VandenberghT. & PylL., (2020).BIM-based life cycle assessment and life cycle costing of an office building in Western Europe.Building and Environment,169, p.106568.Search in Google Scholar
Silva, A., & de Brito, J. (2021). Service life of building envelopes: A critical literature review. Journal of Building Engineering, 44, p. 102646.SilvaA. & de BritoJ.(2021).Service life of building envelopes: A critical literature review.Journal of Building Engineering,44, p.102646.Search in Google Scholar
Śladowski, G., Szewczyk, B., Sroka, B., & Radziszewska-Zielina, E. (2019). Using stochastic decision networks to assess costs and completion times of refurbishment work in construction. Symmetry (Basel), 11(3), p. 398.ŚladowskiG.SzewczykB.SrokaB. & Radziszewska-ZielinaE.(2019).Using stochastic decision networks to assess costs and completion times of refurbishment work in construction.Symmetry (Basel),11(3), p.398.Search in Google Scholar
Sobanjo, J. O. (1999). Facility life-cycle cost analysis on fuzzy sets theory. Durability of Building Materials and Components 8. Institute for Research in Construction, Ottawa, Canada.SobanjoJ. O.(1999).Facility life-cycle cost analysis on fuzzy sets theory.Durability of Building Materials and Components 8.Institute for Research in Construction,Ottawa, Canada.Search in Google Scholar
Spickova, M., & Myskova, R. (2015). Costs efficiency evaluation using life cycle costing as strategic method. Procedia Economics and Finance, 34, pp. 337-343.SpickovaM. & MyskovaR.(2015).Costs efficiency evaluation using life cycle costing as strategic method.Procedia Economics and Finance,34, pp.337-343.Search in Google Scholar
Tillmann, J. (1997). Příprava, provádění a užívání staveb 2. Prospektrum, Praha.TillmannJ.(1997).Příprava, provádění a užívání staveb 2.Prospektrum,Praha.Search in Google Scholar
Torres, A., Acosta, L. M., Gibert, V., & Serrat, C. (2019). Implementation of a multi-scale predictive system of the degradation of the urban front in Brno, Czech Republic. IOP Conference Series: Earth and Environmental Science, 222, p. 012029.TorresA.AcostaL. M.GibertV. & SerratC.(2019).Implementation of a multi-scale predictive system of the degradation of the urban front in Brno, Czech Republic.IOP Conference Series: Earth and Environmental Science,222, p. 012029.Search in Google Scholar
ÚRS, a.s. Katalog stavebních konstrukcí a prací ÚRS, cenová úroveň 2021/2.ÚRS, a.s. Katalog stavebních konstrukcí a prací ÚRS, cenová úroveň 2021/2.Search in Google Scholar
Venkrbec, V., Galić, M., & Klanšek, U. (2012). Construction process optimisation - Review of methods, tools and applications. Gradjevinar, 70(7), pp. 593-606.VenkrbecV.GalićM. & KlanšekU.(2012).Construction process optimisation - Review of methods, tools and applications.Gradjevinar,70(7), pp.593-606.Search in Google Scholar
Wong, I. L., Perera, S., & Eames, P. C. (2010). Goal directed life cycle costing as a method to evaluate the economic feasibility of office buildings with conventional and TI-façades. Construction Management and Economics, 28(7), pp. 715-735.WongI. L.PereraS. & EamesP. C.(2010).Goal directed life cycle costing as a method to evaluate the economic feasibility of office buildings with conventional and TI-façades.Construction Management and Economics,28(7), pp.715-735.Search in Google Scholar
Xie, S., & Fang, J. (2018). Prediction of construction cost index based on multi variable grey neural network model. International Journal of Information Systems and Change Management, 10(3), p. 209-226.XieS. & FangJ.(2018).Prediction of construction cost index based on multi variable grey neural network model.International Journal of Information Systems and Change Management,10(3), p.209-226.Search in Google Scholar