Master's Degree Program

Civil Engineering and Construction Management

part-time

 
 

Civil Engineering and Construction Management

The comprehensive education for all-round civil engineers combines engineering, construction, legal and soft skills. In this degree program you will expand your already acquired skills and will also have the opportunity to select an individual specialization. Thus, the master's degree program will prepare you for the high-demand areas of the construction sector: national and international large-scale projects and resource-efficient and sustainable construction and renovation. Our intensive exchange with companies such as FCP, ÖBB, PORR and STRABAG SE continuously increases the quality of training and at the same time makes you a sought-after employee.

Department
Building and Design
Topic
Technologies

Highlights

  • Practical basic training to become an all-round civil engineer

  • Introduction to possible specializations

  • Strong network with leading companies in the construction industry

     

    Facts

    Final degree

    DI (comparable with Master of Science)

    Duration of course
    4 Semesters
    Organisational form
    part-time

    Tuition fee per semester

    € 363,361

    + ÖH premium + contribution2,3

    ECTS
    120 ECTS
    Language of instruction
    German

    Application winter semester 2025/26

    21. October 2024 - 21. May 2025

    Study places

    60

    1 Tuition fees for students from third countries € 727,- per semester. Details on tuition fees can be found in the general fee regulations.

    2 for additional study expenses (currently up to € 83,- depending on degree program and year)

    3 One time package of norms ca. € 320-350,- for students who have not completed their bachelor's degree at FH Campus Wien.

    Before the studies

    You are fascinated by everything that has to do with construction. You are particularly interested in scientific contexts, mathematical questions, enjoy technical drawing and have a good basic understanding of business. Personally, you are structured, work well under pressure and enjoy working with others. You have an analytical mind and act in a practical and solution-oriented manner.

    Why you should study with us

    First-class training and education

    Leading companies in the industry trust our training and education quality and may finance your very place at university.

    Support programs

    You will benefit from mentoring and scholarship programs and lay the foundation for your career early on.

    Architecture with construction technology

    Understanding each other better and learning from each other. A unique combination that you will only find with us.

    Relevant admission requirement

    The relevant admission requirement is

    • a completed relevant Bachelor's degree (specializing in construction engineering) or
    • an equivalent degree at a recognized domestic or foreign post-secondary educational institution.

    with a total of 180 ECTS credits in the fields of civil engineering, construction management, architecture, culture and water management. In exceptional cases, the head of degree program or, in individual cases, the FH-Council (university council) will decide.

    The Bachelor's degree program Bauingenieurwesen – Baumanagement offered at FH Campus Wien meets the relevant admission requirement.

    Language requirements for admission

    The required language level according to the Common European Framework of Reference for Languages (CEFR) is at least

    • German - level C1.

    Legalization of foreign documents

    Applicants may require legalization of documents from countries other than Austria in order for them to have the evidential value of domestic public documents. Information on the required legalizations can be found here in PDF format.

    Translation of your documents

    For documents that are neither in German nor English, a translation by a sworn and court-certified interpreter is required. Your original documents should have all the necessary legalization stamps before translation so that the stamps are also translated. The translation must be firmly attached to the original document or a legalized copy.

    Online application - uploading documents

    As part of your online application, upload scans of your original documents including all required legalization stamps. For documents not issued in German or English, scans of the corresponding translations must also be uploaded. The head of the study program decides on the equivalence of international (higher) education qualifications. Therefore, your documents can only be checked as part of the ongoing application process.

    Your path to studying at FH Campus Wien begins with your registration on our Bewerbungsplattform. In your online account, you can start your application directly or activate a reminder if the application phase has not yet started.

    Documents for your online application

    1. Proof of identity
      • passport or
      • identity card or
      • Austrian driving license (proof of citizenship required) or
      • residence permit (proof of citizenship required)
    2. Proof of change of name, if applicable (e.g. marriage certificate)
    3. Proof of fulfillment of the relevant admission requirement
      • degree certificate and
      • Transcript of Records or Diploma Supplement
      • If you have not yet completed your studies, please upload proof of all courses completed to date as part of the relevant degree program, including ECTS credits.
    4. Proof of German level C1 according to the Common European Framework of Reference for Languages (CEFR). The following apply as proof:
      • secondary school leaving certificate from a German-language school
      • completion of at least three years of studies in German
      • supplementary examination pre-study course - German C1
      • German certificate (not older than 3 years), e.g.:
        • Austrian German Language Diploma: ÖSD Certificate C1
        • Goethe Institute: Goethe Certificate C1
        • telc: German C1 University
        • German language test for university admission for foreign applicants: DSH-2
        • German Language Diploma of the Standing Conference of the Ministers of Education and Cultural Affairs of the Länder in the Federal Republic of Germany: DSD II - C1
        • Test of German as a foreign language (Test DaF): Level TDN 4 in all parts
        • Language Center of the University of Vienna: Course and successfully passed exam at level C1/2
        • Proof of a higher language level is also valid.
    5. Curriculum vitae in tabular form in German
    6. Proof of academic achievement incl. grade point average
      • proof of academic success from the 1st to 5th semester of the relevant Bachelor's degree (e.g. proof of academic success, Transcript of Records - all pages)
      • Indication of the weighted grade point average over all 5 semesters (please calculate to 2 decimal digits and add to the document if not indicated)
        • Weighted grade point average = ∑(grades × weight)/∑ weight
    7. Legalizations and translations, if applicable (see tab “Foreign documents and degrees”)

    Your application is valid once you have completely uploaded the required documents. If you do not have all the documents at the time of your online application, please submit them to the secretary's office by email as soon as you receive them.

    After completing your online application, you will receive an email confirmation with information on the next steps.

    The admission procedure consists of a written test and an interview with the admission committee.

    • Aim
      The aim of the admissions procedure is to offer a place to those persons who complete the multi-stage admissions procedure with the best results. It leads to a ranking of the applicants.
    • Process
      Due to changes implemented by the Federal Government with regard to the operation of the study programme, the admission procedure for the Master's programme in Civil Engineering and Construction Management has been updated to reflect the new requirements. The admission procedure is carried out in a 2-stage procedure:
      • Level 1 - Success in a relevant Bachelor's programme - 40%
        • Presentation of the academic success of the 1st to 5th semester of relevant Bachelor's studies (e.g. Transcript of Records, proof of academic success, etc. - please note that this is only up to the 5th semester)
        • the calculated weighted (ECTS) grade point average over all 5 semesters must be indicated if it is not stated in the document! (Please use only the submitted document for the grade point average)
      • Level 2 - Admission interview - 60% (You will receive concrete details with by e-mail regarding the date, etc.)
        20-minute conversation consisting of:
        • motivation
        • qualification
        • relevant knowledge and experience
          An official photo ID must be presented at the beginning of the conversation.
    • Criteria
      The criteria leading to admission are exclusively performance-related. Geographical origin of applicants have no influence on admission. The admission requirements must be fulfilled. The final ranking of applicants is based on the following weighting:
      • Level 1 Success in studies - 40%
      • Stage 2 Admission interview - 60%

    You will receive the invitation to the admission procedure after a positive review of all relevant documents. You will receive the exact date and schedule for the admission interviews approximately one week before the assigned interview date. The dates are assigned and cannot be freely chosen. Depending on the number of applicants, additional admission appointments may be scheduled.

    The admission interviews take place online.

    • Tuesday, April 22nd, 2025
    • Tuesday, May 20st 2025
    • Tuesday, June 17th 2025

    In our online info sessions, we will introduce you to the key aspects of the Master's degree course in Civil Engineering - Construction Management. We will inform you about the content of the course and give you an outlook on your good career opportunities. Afterwards, there will be plenty of time for questions and discussion.

    Online infosessions on all study programs of the Department Building and Design

    In our online info sessions, we will introduce you to the key areas of the Bachelor's and Master's degree programs offered by the Department of Building and Design. We will inform you about the content of the courses and give you an outlook on possible career opportunities. Afterwards, there will also be time for questions and discussions.

    Do you still have questions about the study?

    Make an appointment with Eva-Elisabeth Pech eva-elisabeth.pech@fh-campuswien.ac.at for a a personal consultation via Zoom.

     

    During the studies

    FH Campus Wien has more than fifteen years of experience running civil engineering degree programs and today has extensive expertise and a large network at its disposal that will provide you with a wide range of opportunities during your studies and in the course of your professional career. This network includes leading contractors such as STRABAG SE, which cooperate with FH Campus Wien not only in the context of training for their employees. In addition to excellent contacts in the construction industry, during your studies you will have the opportunity to work in R&D projects and thus shape the dialogue between practice and science at FH Campus Wien. For example, on behalf of ASFINAG we are currently examining the advantages and disadvantages of different organizational structures in intermodal transport networks. This project is being conducted as part of the PIARC, the World Road Association. Practical orientation is a top priority in the teaching. In addition, we regularly invite you to further your education in the seminar series "Selected Chapters from Construction Practice". Practical relevance is also guaranteed at our Campus Lectures, public lecture evenings with prominent experts, that FH Campus Wien regularly invites you to join.

    The combination of structural engineering, economics and soft skills makes this generalist degree program a practical education for all-round civil engineers. As a graduate, you are up to the demanding tasks of construction site project management and can immediately take on a role in any construction company. In addition to the content and excellent career prospects, the FH Campus Wien degree program provides numerous other advantages: You will learn in small groups and benefit from the excellent FH Campus Wien network with top companies such as STRABAG SE, PORR, ÖBB and FCB. The excellent reputation the degree program enjoys in the construction industry is a useful building block for your career already.

    The master's degree program offers you the opportunity to acquire comprehensive experience as an all-round civil engineer. You will expand your engineering, construction and legal foundations. Furthermore, you will also have the chance to select an individual specialization.

    In the second and third semesters you will be able to decide on a total of two of the four specializations in "Construction", "Repair and Revitalization", "Infrastructure Construction" and "Sustainability in Civil Engineering". Your personality plays an important role at work, so you will also further develop your soft skills.

    Curriculum

    Module Modul A Building and Industrial Construction
    4 SWS
    7 ECTS
    Existing engineering structures | ILV

    Existing engineering structures | ILV

    2 SWS   3 ECTS

    Content

    Legal and technical fundamentals regarding the assessment, evaluation and rating of existing structures; Evaluation of the actual condition of existing structures including material testing; Causes and identification of structural defects; Numerical assessment of existing structures as a basis for structural maintenance and strengthening

    Teaching method

    Lectures and discussions, detailed practical project(s) 

    Examination

    Final exam: Written exam at the end of the course as well as grading of the presentation of the practical project(s)

    Literature

    Mehlhorn, G. und Curbach, M. (Hrsg.): Handbuch Brücken: Entwerfen, Konstruieren, Berechnen, Bauen und Erhalten. Springer Verlag, Wiesbaden, 2015.

    Austrian Standards: ÖNORM B4008-2 Bewertung der Tragfähigkeit bestehender Tragwerke – Teil 2: Brückenbau. Austrian Standards, Wien, 2019.

    Raupach, M. und Orlowsky, J.: Erhaltung von Betonbauwerken. Vieweg + Teubner Verlag, Wiesbaden, 2008.

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Building and Industrial Construction 1 | VO

    Building and Industrial Construction 1 | VO

    1 SWS   2 ECTS

    Content

    Structures and systems of building construction, industrial construction and industrialised building construction

    Teaching method

    Lecture, blackboard sketches, Power-Point presentations

    Examination

    Final exam: final written test

    Duration: 90 minutes

    NO documents may be used!

    Allowed: pens, eraser, ruler, calculator

    Grading: 50% bad luck, 50% Walloon. Positive is who reaches in sum min. 60%!

    In case of a negative evaluation both parts (Pech/Wallisch) have to be repeated!

    Due to the Covid 19 situation and the holding of LV according to the traffic light regulation of the BMBWF the examination modalities can also be adjusted at short notice during the current semester.

    Literature

    Barth, Christian/Rustler, Walter: Finite Elemente in der Baustatik. 2. Auflage. Praxis. Berlin: Beuth Verlag 2013

    Gestalten mit Glas. Hrsg.: INTERPANE GLAS INDUSTRIE AG. 9. Auflage. Lauenförde 2014

    Göttsche, Jens/Petersen Maritta: Festigkeitslehre - klipp und klar. 3. Auflage. München: Hanser Verlag 2015

    Pech, Anton/Jens, Klaus/Warmuth, Günther/Zeininger, Johannes: Parkhäuser – Garagen. 3. Auflage. Basel: Verlag Birkhäuser 2018

    Staffa, Michael: Tragwerkslehre. Berlin: Beuth Verlag 2014

    Wendehorst: Bautechnische Zahlentafeln. Hrsg.: Vismann, Ulrich: 37. Auflage vollständig überarbeitet und aktualisiert. Berlin: Beuth Verlag 2022

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Exercise for Building and Industrial Construction | UE

    Exercise for Building and Industrial Construction | UE

    1 SWS   2 ECTS

    Content

    Exercises on structures and systems of structural engineering, industrial construction and industrialised building construction

    Teaching method

    Lecture, Power Point presentation, exercises using hand calculation and on the laptop with RFEM, as well as calculation tasks using Moodle

    Examination

    Final exam: Evaluation of tasks submitted via Moodle.

    Grading: 50% Walloon, 50% hobble. Positive is who reaches a total of at least 60%!

    In case of a negative evaluation the tasks have to be repeated. The modules are supplemented by new

    Tasks output.

    Due to the Covid 19 situation and the holding of LV according to the traffic light regulation of the BMBWF, the

    Examination modalities can also be adjusted at short notice during the current semester.

    Literature

     

     

     

     

    Goris, Alfons/Bender, Michél: Stahlbetonbau-Praxis nach Eurocode 2: Band 2. Berlin: Beuth Verlag 2017

    Krätzig, Wilfred B./Witteg, Udo: Tragwerke 1. Theorie und Berechnungsmethoden statisch bestimmter Tragwerke. Berlin: Springer Verlag 1999

    Manual, Programm RSTAB 8 – Statik allgemeiner Stabwerke. Dlubal Software 2018

    Schneider Bautabellen für Ingenieure. Hrsg.: Albert, Andrej.25. Auflage. Köln: Reguvis Verlag 2022

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Module Infrastructure Construction
    4 SWS
    5 ECTS
    Applications in Geotechnics | UE

    Applications in Geotechnics | UE

    1 SWS   1 ECTS

    Content

    Practical applications of geotechnical investigation methods, special civil engineering measures, and soil improvement measures in earthwork.

    Teaching method

    Presentation of practical examples, presentations of companies with regard to field tests, construction methods from the field of special civil engineering, construction methods from the field of earthworks and soil improvement, to the respective presentations in the course of lectures and excursions, short reports on the presented contents are to be written by the students.

    Examination

    Final exam: Written Exam

    Literature

    Bohrhandbuch. Hrsg.: VÖBU. 5. Ausgabe. Wien 2021

    Grundbau-Taschenbuch: Teile 1-3. Hrsg.: Witt, Karl Josef. 8., vollständig überarbeitete und aktualisierte Auflage. Berlin: Wilhelm Ernst & Sohn 2018

    Spezialtiefbau: Kompendium Verfahrenstechnik und Geräteauswahl. Band I: Ramm- und Bohrgeräte 1. Hrsg.: Liebherr-Werk Nenzing GmbH. 1. Auflage. Berlin: Wilhelm Ernst & Sohn 2008 und Band 2. 1. Auflage. Berlin: Wilhelm Ernst & Sohn 2009

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Applications in Geotechnical Engineering | VO

    Applications in Geotechnical Engineering | VO

    1 SWS   1 ECTS

    Content

    Soil properties, geotechnical preliminary investigation, cuts, dams, earthworks, measurement technology, groundwater

    Teaching method

    Lecturer

    Examination

    Final exam: Written Exam

    Literature

    Bohrhandbuch. Hrsg.: VÖBU. 5. Ausgabe. Wien 2021

    Grundbau-Taschenbuch: Teile 1-3. Hrsg.: Witt, Karl Josef. 8., vollständig überarbeitete und aktualisierte Auflage. Berlin: Wilhelm Ernst & Sohn 2018

    Spezialtiefbau: Kompendium Verfahrenstechnik und Geräteauswahl. Band I: Ramm- und Bohrgeräte 1. Hrsg.: Liebherr-Werk Nenzing GmbH. 1. Auflage. Berlin: Wilhelm Ernst & Sohn 2008 und Band 2. 1. Auflage. Berlin: Wilhelm Ernst & Sohn 2009

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Infrastructure Construction | VO

    Infrastructure Construction | VO

    2 SWS   3 ECTS

    Content

    Conception and design of engineering structures in infrastructure construction such as bridges, underpasses, white and brown vats, underfloor routes, tunnels in open construction, supporting structures, slope stabilization measures. Presentation of construction methods for maintaining traffic at infrastructure construction sites.

    Practical examples and calculation approaches

    Teaching method

    Lecture, exercises, examples, discussions

    Examination

    Final exam: Written exam

    Literature

    EA. Pfähle: Empfehlungen des Arbeitskreises Pfähle. Berlin: Ernst, Wilhelm & Sohn 2012

    Handbuch Brücken, Entwerfen, Konstruieren, Berechnen, Bauen und Erhalten. Hrsg.: Mehlhorn, Gerhard/Curbach, Manfred. 3. Auflage. Berlin: Springer Verlag 2014

    Holst, Ralph/Holst, Karl Heinz: Brücken aus Stahlbeton und Spannbeton, Entwurf, Konstruktion und Berechnung. 6. Auflage. Berlin: Ernst & Sohn GmbH / Ernst W. + Sohn Verlag 2014

    Richtlinie Wasserundurchlässige Bauwerke – Weiße Wannen. Hrsg. Österreichische Bautechnik Vereinigung. Wien: Eigenverlag 2018

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Module Sustainable Building
    3 SWS
    4 ECTS
    Innovative Building Materials and Ecological Construction Materials | VO

    Innovative Building Materials and Ecological Construction Materials | VO

    1 SWS   1 ECTS

    Content

    Innovation approaches to building materials in the sense of "green buildings" can be based on increasing resource efficiency and recyclability, minimizing environmental impact, implementing social aspects or improving functional performance. Possible solutions may be in the form of innovative materials and raw materials (e.g., biogenic plastics), technologies (e.g. nanotechnology), construction methods (e.g. flying plants), or processes (e.g. site waste reclamation logistics). Innovative building materials must also meet technical requirements. In the course innovative building materials and construction methods are introduced or introduced by the students and analyzed according to the different aspects.

    Teaching method

    Presentation and speeches

    Examination

    Final exam: The mark is made up of a written examination and the marking of the papers (both assessments are required for a positive conclusion).

     

    Due to the Covid 19 situation and the holding of LV according to the traffic light regulation of the BMBWF, the examination modalities can also be adapted at short notice during the current semester.

     

    Literature

    Neue Materialien im Bauwesen. Kurzberichte zu den Verbundforschungsvorhaben aus den Förderinitiativen HighTechMatBau und KMU-innovativ. Hrsg.: Deutscher Ausschuss für Stahlbeton e.V. (DafStb) Stuttgart: Fraunhofer IRB Verlag 2021

    Röhlen, Ulrich/Ziegert, Christof: Lehmbau-Praxis - Planung und Ausführung. 3. aktualisierte und erweiterte Auflage. Berlin: Beuth Verlag 2020

     

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Low energy houses and LowEx Systems | ILV

    Low energy houses and LowEx Systems | ILV

    2 SWS   3 ECTS

    Content

    - Introduction to energy standards and terms
    - Overall energy concept, especially for cooling
    - Passive house standard, superstructures, details and products
    - Moisture recovery
    - Legal framework and context to buildings and low-exergy

    Teaching method

    Lecture, detail work. Interactive teaching. Practical examples. Various samples of components for illustration.

    Examination

    Final exam: Final written examination, standard (The written examination includes the following material: uploaded documents, information from the lecture, applying acquired knowledge to new tasks. No aids are allowed in the examination).

    Literature

    Kranzl, Lukas/Müller, Andreas/Matzenberger, Julian/Bayr, Michael: LowEx – Das Konzept der Exergie in energieökonomischen Analysen IEA Energy Conservation in Buildings and Community Systems Programme Annex 49: Low Exergy Systems for High Performance Buildings and Communities. Hrsg.: Bundesministeriums für Verkehr, Innovation und Technologie 2011.

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Module Design and Construction in Existing Contexts
    5 SWS
    7 ECTS
    Review of Existing Load Bearing Structures | ILV

    Review of Existing Load Bearing Structures | ILV

    3 SWS   4 ECTS

    Content

    • Historical Review "Gründerzeit"
    • Static elements of "Gründerzeit"-buildings
    • Foundation in stock, fondation improves efficiency
    • Barrier in stock, barrier improves effciency
    • Ceiling & roof systems
    • Conversion of the roof, new developments, restorations and roof extensions
    • Earthquake calculation & action research

    Teaching method

    Lecture & Excursion, perhaps project work

    Examination

    Final exam: Final Written Exam, project work, permanent assessment

     

    Due to the Covid 19 situation and the holding of LV according to the traffic light regulation of the BMBWF, the examination modalities can also be adapted at short notice during the current semester.

    Literature

     

     

     

     

    Kolbitsch, Andreas: Altbaukonstruktionen. Wien: Springer Verlag 1989

    ÖNORM B 1998-1-3 (Erdbeben für Bestandsbauten) und ÖNORM B 4008: 2018 (Bewertung der Tragfähigkeit bestehender Tragwerke)

    Pauser, Alfred: Eisenbeton. Wien: Manz Verlag 1994

    Pech, Anton/Kolbitsch, Andreas/Zach, Franz: Baukonstruktionen. Decken. Basel: Birkhäuser Verlag 2020

    Pech, Anton: Ziegel im Hochbau. Sonderband Baukonstruktionen Ausgabe 2016. Basel: Birkhäuser Verlag 2016

    Teaching language

    Deutsch

    3 SWS
    4 ECTS
    Repair of Engineering Structures | ILV

    Repair of Engineering Structures | ILV

    2 SWS   3 ECTS

    Content

    Maintainance of concrete structures:

    • Surface preparation
    • Concrete replacement
    • Crack filling
    • Cavity filling
    • Surface protection
    • Remove drill cores St 927/15
    • Perform tear strength test
    • Record flatness
    • Determine roughness depth
    • Preparation of measurement and execution documents for compensation gradients
    • planning

    Planning of retrofitting measurements

    • additional tension members
    • adding constructive members
    • adding of reinforcement

    Site visit

    Teaching method

    Lectures

    Discussion in groups

    Case studies

    Excursion

    Examination

    Final exam: Written exams

    Distance learning

    Literature

    doi.org/10.1007/978-3-658-33947-0
    doi.org/10.1002/9783433608371

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Module Modul L: Digitalization and Law
    3 SWS
    4 ECTS
    Digitization and innovation - exercise | ILV

    Digitization and innovation - exercise | ILV

    2 SWS   3 ECTS

    Content

    • Basics of digitization with definitions of terms
    • Digitization in construction- BIM
    • GIS
    • Smart Decision Making
    • Virtual and Augmented Reality
    • asset management
    • Digital (intelligent) construction site
    • Databases and Interoperability
    • Business Intelligence
    • Innovation in construction - challenges
    • Research and development
    • Complementary presentations by experts
    • Live system demos

    Students work on current problems in the construction industry using digital technologies, such as low code development, and develop optimized digital solutions. These apps & co add value directly to the construction process and massively reduce manual effort.

    The basics of low code development are taught and these are practically implemented in group work based on problems. Depending on the problem, databases are set up, BI evaluations are created, digital forms or mobile applications are created.

    Teaching method

    Lecture, practical demonstration, external expert lectures with discussion. Exercise with minimal lecture; self-study, guided by subject matter experts.

    Examination

    Continuous assessment: Exercises and presentation

    Literature

    Digital Roadmap Austria 2016

    Goger, Gerald/Piskernik, Melanie/Urban, Harald: Studie Potenziale der Digitalisierung im Bauwesen – Empfehlungen für zukünftige Forschung und Innovationen. TU-Wien. Studie im Auftrag des BMVIT und WKO. Wien 2018

    Weber, Herbert/Viehmann, Johannes: Unternehmens-IT für die Digitalisierung 4.0. Herausforderungen, Lösungsansätze und Leitfäden. 1. Auflage. Wiesbaden: Springer Vieweg Verlag 2017.

    Weitere Literatur wird aus Aktualitätsgründen vor Beginn der LV festgelegt.

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Kooperative Vertragsabwicklung mit alternativen Vertragsmodellen | VO

    Kooperative Vertragsabwicklung mit alternativen Vertragsmodellen | VO

    1 SWS   1 ECTS

    Content

    • Theoretical foundations of building contract law: Which rights and obligations are incumbent on the client or the contractor according to ÖNORM B 2110?
    • ÖNORM B 2110: Structure and content; procedural provisions, contractual provisions
    • Practical example

    Teaching method

    Lecture, discussion, distance learning (readings)

    Examination

    Final exam: written examination, distance learning

     

    Literature

    • Gölles/Link, Kommentar zu den ÖNORMEN B2110 und B2117 für Praktiker, Austrian Standard plus Publishing, 2011
    • Gölles /Link, Prüf- und Warnpflicht beim Bauvertrag, Austrian Standard plus Publishing, 2015.
    • Karasek,ÖNORM B 2110-Allgemeine Vertragsbestimmungen für Bauleistungen, Manzverlag, 2016
    • Kropik, der Bauvertrag und ÖNORMEN B2110, Austrian Standard plus Publishing, 2009
    • Kropik, Bauvertrags- und Nachtragsmanagement, Eigenverlag, 2014

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Module Modul Q: Vertiefendes Projektmanagement
    2 SWS
    3 ECTS
    Project Development and Controlling | ILV

    Project Development and Controlling | ILV

    2 SWS   3 ECTS

    Content

    The course provides an overview of the aspects of real estate project development and presents the entire field of work using practical examples.

    The analysis and evaluation methods required for solid project development are explained in theory and practice and practiced interactively using specific projects.

    In addition to legal aspects, the players involved in project development and their tasks are also discussed.

    Teaching method

    Lecture and practical examples, self-study and elaboration of questions. To support them, the participants will receive the slides with comments.

    Examination

    Continuous assessment: The assessment consists of the active participation of the students and the completion of a written examination within the framework of the last lecture unit.

     

    Participation:

    - The students have the opportunity to participate actively in the course of the lecture. (Within the course by completing group work tasks and presenting them)

    - Between the lectures, students have the opportunity to reflect what they have learned by working out and answering questions.

    A positive, active participation may improve the grade of the written examination by one degree.

     

    Exam:

    Within the framework of the written examination, open and closed questions must be answered and a calculation carried out.

    The length of the test is set at 90 min.

    The positive test is required for a positive completion of the lecture.

    Literature

    Alda, Willi/Hirschner, Joachim: Projektentwicklung in der Immobilienwirtschaft. 6. Auflage. Wiesbaden: Springer Fachmedien 2016

    Handbuch Immobilienprojektentwicklung. Hrsg.: Eberhardt, Stephan R./Klaubetz, Jürgen 2.

    Immobilienbewertung Österreich. Hrsg.: Funk, Sven/Bienert, Margret. 4. Auflage. Wien: ÖVI Immobilien Akademie 2022

    Kallinger, Wienfried/Gartner, Herbert/Stingl, Walter: Bauträger und Projektentwickler. 8. Auflage. Wien: Manz Verlag 2020

    Kranewitter, Heimo: Liegenschaftsbewertung. 7. Auflage. Wien: Manz Verlag 2017

    Teaching language

    Deutsch

    2 SWS
    3 ECTS

    Module Modul D: Hydraulic engineering and waste management
    2 SWS
    2 ECTS
    Sewage and Waste Management | VO

    Sewage and Waste Management | VO

    2 SWS   2 ECTS

    Content

    Planning, preparation of a demolition measure taking into account the current state of the art and the relevant standards. The general conditions (including personal and environmental protection), the types of demolition with the selection of suitable equipment and the implementation of a demolition project with the extraction of pure material flows are explained. Furthermore, the handling of the waste streams that occur most frequently in the construction industry in terms of quantity (including excavated material and construction waste) is examined and possible treatment methods (recycling or proper landfilling) are shown. Exploration and suspect areas (contaminated sites) are also dealt with.

    In the field of wastewater, the basics of road drainage and municipal wastewater collection as well as the determination of wastewater quality and its treatment in wastewater treatment plants are presented.

    Teaching method

    Lecture
    script accompanied by PowerPoint
    discussion
    exercises and group work
    distance learning

    Examination

    Final exam: Written examination

     

    Literature

    Diese ist u.a.:

    • Lippok, Dietrich Korth: Abbrucharbeiten, RUDOLF MÜLLER
    • Renner, Kauch, Schribertschnig, Abwasser- und Abfalltechnik, MANZ
    • Bundesabfallwirtschaftsplan, BMK
    • Richtlinien für Recycling-Baustoffe, BRV
    • ÖNORM B 2251 Abbrucharbeiten, ASI
    • ÖNORM B 3140 Rezyklierte Gesteinskörnungen für ungebundene und hydraulisch gebundene Anwendungen sowie für Beton, ASI
    • ÖNORM B 3151 Rückbau von Bauwerken als Standardabbruchmethode, ASI
    • ONR 22251 Mustertexte für umweltgerechte bauspezifische Leistungsbeschreibungen, ASI

    Weitere Literatur wird in der Lehrveranstaltung bekanntgegeben bzw. zur Verteilung gebracht.

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Module Poject
    4 SWS
    6 ECTS
    Building and Industrial Construction 2 | VO

    Building and Industrial Construction 2 | VO

    2 SWS   2 ECTS

    Content

    Hall systems; Prefabricated parts; Connections in prefabricated construction; Inserts in concrete structures; Foundations in hall construction; Construction work and construction supervision; Use of glass as a building material in building construction; Prestressed systems

    Teaching method

    Lecture with calculation and practical examples

    Examination

    Final exam: Final exam (written)

    The whole examination (Vill, Wallisch) must be positive (at least 60% of the maximum score)

    Time: 90 min

    Literature

    Avak, Ralf/Conchon, René/Aldejohhann, Markus: Stahlbetonbau in Beispielen, Teil 2 – Bemessung von Flächentragwerken nach EC 2, Konstruktionspläne für Stahlbetonbauteile. 4. Auflage. Köln: Werner Verlag 2013

    Bodner, Julian/Gianmoena, Markus/Kals, Hanspeter: Hochhaus Konstruktionen – Wohnbau. Wien: TU Wien 2017

    Rombach, Günter: Spannbetonbau. 2., aktualisierte Auflage. Berlin: Ernst & Sohn 2010

    Schober, Hans: Gespannte Seilnetzfassaden. In: Stahlbau Heft 12/2004

    Staffa, Michael: Tragwerkslehre. Berlin: Beuth Verlag 2014

    Zilch, Konrad/Zehetmaier, Gerhard: Bemessung im konstruktiven Betonbau. 2., neu bearbeitete und erweiterte Auflage. Berlin: Springer Verlag 2010

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Integral Planning 1 | UE

    Integral Planning 1 | UE

    2 SWS   4 ECTS

    Content

    Contents:

    The course deals with building in existing structures. An existing building structure is subjected to a structural and functional analysis, the potential for upgrading the existing structure with a functional extension and the expansion of the existing structure is explored in compliance with building regulations, and a specific, individual room program is developed.

    Based on these fundamentals, a preliminary design with an individually tailored construction system in timber construction is being developed in parallel in an interdisciplinary approach. The focus is on prefabrication and generally life-cycle oriented construction with sustainable building materials.

    The project is conceived in an interdisciplinary way in the fields of architecture, construction, building physics and building industry, with students of the course "Green Building" being responsible for the architectural elaboration and those of civil engineering for the subject-specific processing;

    The fundamental essence of this integral course is the merging of the preliminary design concepts into a holistic project.

    Teaching method

    Interdisciplinary exercise

    Examination

    Continuous assessment: Horizontal evaluation

    Final presentation

    Submitted works

    Literature

    Kovacic, Iva; Achammer, Christoph; Wiegand, Dietmar; Sreckovic, Marijana: "Integrated Plannin GUIDLINE for public policy, investeros and planners", TU Wien, Wien, 2015

    Lattke, Frank; Schlehlein, Maximilian: "leanWOOD Buch 5 - Die Holzbauplanung", TU München, München, 2017

     

    "Modular vorgefertigt"; Zeitschriftenreihe, Detail 6, 2020

     

    "Bauen mit Weitblick", Abschlussbericht Forschungsvorhaben,Technische Universität München, 2018

     

    Kaufmann, Hermann; Krötsch, Stefan; Winter, Stefan: "Atlas mehrgeschossiger Holzbau", 2017

    Teaching language

    Deutsch

    2 SWS
    4 ECTS
    Module Modul L: Digitalization and Law
    1 SWS
    1 ECTS
    Environmental Law and EIA | VO

    Environmental Law and EIA | VO

    1 SWS   1 ECTS

    Content

    • Overview of the ordinances to the Waste Management Act with focus on the Landfill Ordinance
    • Explore other material laws (Mineral Raw Materials Act, Chemicals Act, State Waste Management Acts)
    • EIA
    • Clarification of liability issues, acting persons (agents, experts, representatives of authorities), procedures (permit, criminal proceedings, jurisdiction) on the basis of a case study

    Teaching method

    Lecture

    Examination

    Final exam: Due to the Covid 19 situation and the holding of LV according to the traffic light regulation of the BMBWF, the examination modalities can also be adapted at short notice during the current semester.

    Literature

    Der Begriff der Betriebsanlage. In: Die gewerbliche Betriebsanlage 4. Hrsg.: Stolzlechner, Harald/Wendl, Harald/Bergthaler, Wilhelm. Wien: Manz Verlag 2016

    Ennöckl, Daniel/Raschauer, Nicolas: Umweltverträglichkeitsprüfung (UVP). In: Handbuch Umweltrecht 3. Hrsg.: Ennöckl, Daniel/Raschauer, Nicolas/Wessely, Wolfgang. Wien Facultas 2019

    Reithmayer-Ebner, Claudia: Naturschutz. In: WEKA-Handbuch Betriebsanlagenrecht in der Praxis. Wien: WEKA Verlag (lfd.Aktualisierungen)

    Reithmayer-Ebner, Claudia: Wasserrecht. In: WEKA-Handbuch Betriebsanlagenrecht in der Praxis. Wien: WEKA Verlag (lfd.Aktualisierungen)

    Stolzlechner, Harald: Die Genehmigungspflicht der Betriebsanlage. In: Die gewerbliche Betriebsanlage 4. Hrsg.: Stolzlechner, Harald/Wendl, Harald/Bergthaler, Wilhelm. Wien: Manz Verlag 2016

    Vockenhuber, Lisa/Grosse, Eva-Maria: EU-Taxonomie - Implikationen für die Immobilienwirtschaft, immolex 2021/177. Wien: Manz Verlag 2021

    Vogelsang, Kai: Sonderbestimmungen für UVP-pflichtige Betriebsanlagen. In: Die gewerbliche Betriebsanlage 4. Hrsg.: Stolzlechner, Harald/Wendl, Harald/Bergthaler, Wilhelm. Wien: Manz Verlag 2016

    Wimmer-Nistelberger, Marlene: Baurecht und alternative Energien. ZVB 2021/58

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Module Modul Q: Vertiefendes Projektmanagement
    4 SWS
    4 ECTS
    Construction site setup and operation | VO

    Construction site setup and operation | VO

    2 SWS   2 ECTS

    Content

    - Part I - Work preparation

    - Part II - Scheduling

    - Part III - Personnel resource planning

    - Part IV - Equipment planning

    - Part V - ÖBGL and equipment cost calculation

    - Part VI - Joint ventures

    Teaching method

    Keynote speeches

    Discussion panels

    Individual case studies to promote understanding

    Examination

    Continuous assessment: Written exams

    Literature

    Arbeitsvorbereitung für Bauprojekte. Nutzen der Arbeitsvorbereitung für den Projekterfolg. In: 8. Grazer Baubetriebs- und Bauwirtschaftssymposium. Hrsg.: Lechner, Hans/ Heck, Detlef/ Hofstadler, Christian. 1. Auflage. Graz: Verlag der TU Graz 2010.

    Duschel, Michael/Plettenbacher, Wolf: Handbuch Arbeitsvorbereitung im Baubetrieb. Praktische Methoden und Lösungen für die optimale Vorbereitung und Steuerung von Bauvorhaben. Wien: Linde Verlag 2013.

    Fellner, Thomas: Baubetrieb. Band 1. - Reihe: Baubetriebslehre. 1. Auflage. Wien: Manz Schulbuchverlag 2016.

    Hofstadler, Christian/Franzl, Gerald: Bewehrungsarbeiten im Baubetrieb. Hrsg.: Verband österreichischer Biege- und Verlegetechnik (VÖBV) 2011.

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Life Cycle Management | VO

    Life Cycle Management | VO

    1 SWS   1 ECTS

    Content

    • Basics, objectives and tasks of Life Cycle Management (LCM)
    • Life cycle assessment methods and procedures
    • New construction
    • Maintenance
    • Costs and cost analysis
    • Ratings and indicators
    • Performance prediction
    • Standard life cycles
    • Asset Value and asset evaluation
    • Environment and ecological balance

    Teaching method

    Lecture

    Examination

    Final exam: Written exam

    Literature

    Brozek Barbara: Entwicklung eines Nutzerkostenmoduls im österreichischen PMS. Wien: Technische Universität Wien, Institut für Straßenbau und Straßenerhaltung. Dissertation 2009

    Bull, John W.: Life-Cycle-Costing for the analysis, management and maintenance of civil engineering infrastructure. Whittles Publishing 2015

    Resch Stefan, et al.: Der Weg zum lebenszyklusorientierten Infrastrukturbau: Die 3 Säulen erfolgreicher Bauprojekte in einer digitalen Wirtschaft. IG Lebenszyklus Bau. Wien 2017

    Stempkowski Rainer/Longin Therresa/Makovec Andreas: Life-Cycle-Management im Infrastrukturbereich. Beiträge zum Fachbereich Baubetrieb Bauwirtschaft. In: 20 Jahre Bauen und Gestalten an der FH Campus Wien 2019

    Weninger-Vycudil, Alfred/Brozek, Barbara u.a.: Handbuch Pavement Management in Österreich. Straßenforschung. Wien 2016

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Scientific Communication | SE

    Scientific Communication | SE

    1 SWS   1 ECTS

    Content

    Guidelines for DA and scientific articles; ethics of science; forms of scientific communication (poster; technical article, study, etc.)

    Teaching method

    Lecture and exercises

    Examination

    Continuous assessment: Exercises in the course and final test (all exercises and the final test must be completed positively for a positive assessment).

     

    Literature

    Falkenberg, Viola: Wissenschaftskommunikation: Vom Hörsaal ins Rampenlicht mit Übungen und Checklisten. Stuttgart: utbv 2029

    Richtlinien der Österreichischen Agentur für wissenschaftliche Integrität zur Guten Wissenschaftlichen Praxis. Hrsg.: Österreichische Agentur für wissenschaftliche Integrität. Wien 2015

    Weitze, Marc-Denis/Heckl Wolfgang M.: Wissenschaftskommunikation - Schlüsselideen, Akteure, Fallbeispiele. Berlin: Springer Verlag 2016.

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Sustainable building construction and renovation technology
    Module Timber construction
    6 SWS
    9 ECTS
    Building Physics in Timber Construction | ILV

    Building Physics in Timber Construction | ILV

    1 SWS   2 ECTS

    Content

    heat and moisture protection in timber constructions

    constructions without further testings

    wooden flatroof construction

    structural damages sound insulation in timber constructions detailing fire safety in timber buildings detailing

    Teaching method

    lessons and examples

    Examination

    Final exam: Written exam

    Literature

    Holz im Hochbau. Theorie und Praxis. Hrsg. Pech, Anton. 1. Auflage. Basel: Birkhäuser Verlag 2016

    Skriptum der LV

    Teibinger Martin: Bauen mit Brettsperrholz infodienstholz: Schallschutz im Holzbau. In: informationsdienst-holz.de/publikationen/2- informationsdienst-holz-holzbau-handbuch/reihe-3-bauphysik/schallschutz-im-holzbau/

    Teibinger Martin: Holzrahmenbauweise im Geschoßbau. Fokus Bauphysik. Hrsg.: Holzforschung Austria.  Wien 2014

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Multistorey Timber Construction (incl. Hybrid Construction) | VO

    Multistorey Timber Construction (incl. Hybrid Construction) | VO

    2 SWS   2 ECTS

    Content

    Multi-storey timber construction, i.e. beginning with 3 floors, inclusive timber-concrete and timber-steel, based on the whole value chain; project development - engineering - production - installation - maintenance.

    Teaching method

    • Frontal lecture
    • workshop
    • discussion
    • distance learning module
    • field trip

    Examination

    Final exam: 30 % project work distance learning

    10 % project work field trip

    60 % exame

    _____

    100 %

     

    IMPORTANT!

    For a positive overall grade positive gradings for project work distance learning and the exame are mandatory.

    The weighting is done in proportion to the shares of the assessment methods.

    If the works are not submitted correspondes this with a negative assessment.

    Literature

    Cheret, Peter/Schwaner, Kurt/Seidel, Armin:Handbuch und Planungshilfe. Urbaner Holzbau. Baden-Württenberg: DOM publishers 2013

    Drexler, Hans: Nachhaltiger Holzbau mit System. Berlin: Jovis Verlag 2021

    Green, Michael/Taggert, Jim: Hoch bauen mit Holz. Technologie, Material, Anwendungen. Basel: Birkhäuser verlag 2017

    Kaufmann, Hermann/Krötsch, Stefan/Winter, Stefan: Atlas Mehrgeschossiger Holzbau. Grundlagen - Konstruktionen - Beispiele. München: Detail Verlag 2018

    Koppelhuber, Jörg u.a.: Bauweisen. Graz: Technische Universität, Institut für Baubetrieb und Bauwirtschaft 2020

    Koppelhuber, Jörg: Bauprozessmanagement im industriellen Holzbau. Graz: Technische Universität, Fakultät für Bauingenieurwesen. Diss. 2019

    OIB-Richtlinien. In: www.oib.or.at

    Rinke, Mario/Krammer, Martin: Architektur fertigen. Konstruktiver Holzelementbau. 1. Auflage. Zürich: Triest Verlag 2020

    Teibinger, Martin: Brandschutz im Holzbau. Vortragsunterlagen Webinar ECoplus: Aus dem Netzwerk - für das Netzwerk. 2020

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Sustainable Planning Concepts (BIM) | ILV

    Sustainable Planning Concepts (BIM) | ILV

    2 SWS   4 ECTS

    Content

    Background: What does BIM have to do with sustainability? With the Green Deal, the European Commission adopted in 2019 the target of achieving greenhouse gas neutrality by 2050. It is up to the EU member states to achieve the Green Deal targets with national initiatives. An important adjusting screw for achieving the target is the building sector. According to Statistics Austria, the heating and air conditioning of buildings alone was responsible for 26% of Austria's final energy demand in 2019.

    In this context, the megatrend "digitalization" is seen by the European Commission as an essential pillar for realizing its goals: "Digital technologies are a crucial prerequisite for achieving the sustainability goals of the Green Deal in many different sectors."

    The digitalization of the building sector through methods such as Building Information Modeling (BIM) influences the work of all actors along the value chain of the construction and real estate industry in the medium to long term.

    In the context of the course, a holistic perspective on the topic is initially chosen and the context is explained and the "big picture" is made generally understandable, before the perspective changes and the view of things is described using concrete practical examples.


    Summary: Students get to know the principle and potential of "Building Information Modeling" under sustainability aspects during the lecture.

    The context, the normative framework, essential use cases, and design possibilities are taught - supported by digital processes and tools - with a focus on sustainability and the necessity of circular building based on lectures from practice and deepened and discussed using an exemplary exercise example.

    Teaching method

    ILV

    Examination

    Continuous assessment: Written examination, project work, presentations

    Literature

    Achatz, Astrid/Mangelik, Eva/Romm, Thomas/ Kasper, Thomas/Jäger, Dirk.: KreislaufBAUwirtschaft – Projekt Endbericht. Hrsg. Bundesministerium für Klimaschutz, Umwelt, Energie, Mobilität, Innovation und Technologie (BMK)

    Eichler, Christoph Carl/Schranz, Christian/Krischmann, Tina/ Urban, Harald/ Gratzl, Markus: BIMcert Handbuch Grundlagenwissen openBIM. Wien: Mironde-Verlag 2021

    ÖNORM A 6241-2. Digitale Bauwerksdokumentation - Teil 2: Building Information Modeling (BIM) - Level 3-iBIM. 01.07.2015. Hrsg.: Austrian Standards International (ASI).

    Rosen, Anja: Urban Mining Index - Entwicklung einer Systematik zur quantitativen Bewertung der Kreislaufkonsistenz von Baukonstruktionen in der Neubauplanung. Stuttgart: Fraunhofer IRB Verlag 2021

     

    Teaching language

    Deutsch

    2 SWS
    4 ECTS
    Exercise Excursion | UE

    Exercise Excursion | UE

    1 SWS   1 ECTS

    Content

    Excursion Deepening sustainable building construction:

    The excursion will be conducted in 3 parts, which are composed as follows:

    • 1 part: Visit Austria Campus: Focus on facade construction
    • 2 Part: Tour of Rubner GmbH production facilities: focus on timber construction
    • 3 Part: Viewing of Kranhaus North: Focus on TGA

    The students will be provided with information material on the three parts of the excursion, which must be read by the students before the respective excursion. At the end of each excursion there is a "flash quiz" on the preparatory material and on the contents of the excursion lectures, which are used as a basis for assessment of the course.

    Teaching method

    Excursion

    Examination

    Final exam: HB: Results of the three "flash quizes" at the end of the excursions.

    Literature

    Wird je nach Exkursionsziel angegeben.

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Module Innovative Modular Construction
    5 SWS
    8 ECTS
    Facade Systems | ILV

    Facade Systems | ILV

    1 SWS   2 ECTS

    Content

    - Summary of cladding products /  CE – Marking

    - Regulations / OIB – Guidelines important points relevant to cladding

    - Simplified preliminary dimensioning (static, thermal and fire protection)

    - Curtain-wall facing

    - Industrial cladding

    - Special cladding systems 

    - Glass façade systems

    - Glazing (Sizes, glass printing, glass coating, curved glass)

    - Design, erection, Quality control, maintenance

    Teaching method

    • Lecture
    • Exemplary facade systems discussed in the lecture

    Examination

    Final exam: Written final thesis

    Literature

    Fenster-, Türen- und Fassadentechnik, 6. Auflage 2018, ISBN 978-3-8085-1836-9

    Fassaden, Prinzipien der Konstruktion, Ulrich Knaack, 3. Auflage 2014, ISBN 978-3-03821-094-8

    Bauen mit Membranen, Klaus-Michael Koch, 29.September 2004, ISBN 978-3-7913-3048-8

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Innovative Building Technology Schemes | ILV

    Innovative Building Technology Schemes | ILV

    1 SWS   2 ECTS

    Content

    In the first step, the course explains the interrelationships and effects of planning and construction decisions in the field of technical building equipment (TBE) on the demand-oriented use of real estate ("ecosystem building & technical building equipment").

    In the second step, innovative (energy efficient, sustainable, resource saving, life cycle oriented, result oriented, adaptive & resilient) concepts
    of the Technical Building Equipment are presented and interpreted.

    Teaching method

    In the ILV, the course content is taught through lectures (frontal) as well as through group exercises/group work and practical exercises.

    Examination

    Final exam: On the one hand, there is a "theoretical part", in which the in-depth knowledge of the students is tested, and on the other hand, the theoretical knowledge is linked and tested with practical application examples through case studies.

    Literature

    „Energieeffizienz – ein Lehr- und Handbuch“, Martin Pehnt (2010), Springer Verlag, 1. Auflage 2010

    „Das Energiesystem der Zukunft – in Smart Cities und Smart Rural Areas“, Alexander Schlüter, Juan Bernabe Moreno (2021), Hanser Verlag 2021
    „Digitale Dekarbonisierung – Technologieoffen die Klimaziele erreichen“, Doleski, Kaiser, Metzger, Niessen, Thiem (2021), Springer Verlag 2021

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Innovative Modular Construction | ILV

    Innovative Modular Construction | ILV

    1 SWS   2 ECTS

    Content

    A distinction is made between serial and modular construction, and the innovative developments in modular construction are presented.

    Teaching method

    Lecture and exercises

    Examination

    Final exam: Written exams

    Literature

    Modulbau. Ein Handbuch aus der Praxis für die Praxis. Hrsg.: Jakob, Thomas. München: Detail Verlag 2020

    Modulbau. Planen und Bauen mit Raummodulen - Erfahrungen aus der Praxis für die Praxis. Hrsg.: Schoof, Jakob. München: Detail Verlag 2022

    Modulbau. Planen und Bauen mit Raummodulen - Erfahrungen aus der Praxis für die Praxis. Hrsg.: Schoof, Jakob. München: Detail Verlag 2022

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Structural Design (Lightweight Construction) | VO

    Structural Design (Lightweight Construction) | VO

    2 SWS   2 ECTS

    Content

    This course provides an overview of various lightweight structural typologies, with an emphasis on timber and steel structures in the form of long span roofs and multi-storey buildings.

    The course looks at the processes involved in successfully arriving at viable structural design options based on a given client brief and structural inputs.

    The course focuses on the conceptualisation and initial sizing techniques for different lightweight structures.

    The course tackles on some of the detailed design aspects associated with lightweight structures and typical detailing strategies, including vibration and thermal/moisture movements.

    The course touches on the formulation process and key design aspects to consider for connection strategies.

    Case studies of various lightweight structures are discussed.

    Teaching method

    Lectures

    Lessons with active methods (Class and Group exercise, discussions)

    Practical examples and case studies

    Lecturer input sessions for individual projects

    Examination

    Final exam: Written Examination – 60% (in English)

     

    Coursework/Individual Project – 40% (in English)

    (Conceptual practical structural design project)

     

    At least 60% of the maximum number of points must be achieved in both the written examination and in the individual project for a positive grade.

    Literature

    IStructE Conceptual design of buildings, April 2020 - ISBN 978 1 906335 42 4

    ICE Conceptual Structural Design: Bridging the gap between architects and engineers, November 2022 - ISBN 978 0 727732 35 4

    SCI P354 Design of Floor for Vibration: A New Approach, February 2009 - ISBN 978 1 85942 176 5

    Timber Engineering, STEP 1: Basis of design, material properties, structural components and joints, 1995 - ISBN 978 9 05645 001 4

    Timber Engineering, STEP 2: Design - Details and structural systems, 1995  - ISBN 978 905645 002 1

    Teaching language

    Englisch

    2 SWS
    2 ECTS
    Sustainable infrastructure construction and remediation technology
    Module Infrastructure construction
    6 SWS
    9 ECTS
    Bridge Building | ILV

    Bridge Building | ILV

    2 SWS   2 ECTS

    Content

    • Design and pre-dimensioning of beam bridges made of reinforced and prestressed concrete (slab, slab beam, box girder, trough cross-section) including frame bridges
    • Bridge equipment (bearings, edge beams, expansion joints, drainage)
    • Design and preliminary dimensioning of substructures (abutment, support bench, wings, foundation)
    • Checks for ultimate and serviceability limit states

    Teaching method

    Lecture, Exercices, Discussions

    Examination

    Final exam: Written examination

    Literature

    Geißler, Karsten: Handbuch Brückenbau, Entwurf, Konstruktion, Berechnung, Bewertung und Ertüchtigung. Berlin: Ernst & Sohn GmbH / Ernst W. + Sohn Verlag, 2014.

    Handbuch Brücken, Entwerfen, Konstruieren, Berechnen, Bauen und Erhalten. Hrsg.: Mehlhorn, Gerhard/Curbach, Manfred. 3. Auflage.: Berlin: Springer Verlag 2014.

    Holst, Ralph/Holst, Karl Heinz: Brücken aus Stahlbeton und Spannbeton, Entwurf, Konstruktion und Berechnung. 6. Auflage. Berlin: Ernst & Sohn GmbH / Ernst W. + Sohn Verlag 2014.

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Tunneling | ILV

    Tunneling | ILV

    2 SWS   4 ECTS

    Content

    • Planning of traffic tunnel constructions (roads, railway and underground tunnels)
    • Risk analysis in geotechnics
    • Basics of tunnel statics
    • ÖNORMEN in tunnel construction (ÖNORM B 2203-1 and B 2203-2)
    • Structural fire protection
    • Tunnel rehabilitation

    Teaching method

    ILV

    Examination

    Final exam: Written Exam

    Literature

    ÖNORM B2203-2, ÖGG-Richtlinien (Kostenermittlung für  Projekte der Verkehrsinfrastruktur unter Berücksichtigung relevanter Projektrisiken; etc.)

    Teaching language

    Deutsch

    2 SWS
    4 ECTS
    Exercise Excursion | UE

    Exercise Excursion | UE

    1 SWS   1 ECTS

    Content

    Größere Exkursion mit Hauptübungsanteil der jeweils Themen führenden LV aus dem jeweiligen Wahlmodul./Vertiefungsfach

    Teaching method

    • Self-study of provided project information as preparation for the excursion
    • Excursions with guided tours of the construction site, lectures and question forums
    • Quick quiz

    Examination

    Final exam: Flash quiz after each of the three excursion blocks

    Literature

    tba

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Hydraulic Engineering | ILV

    Hydraulic Engineering | ILV

    1 SWS   2 ECTS

    Content

    Introduction to the topics of hydrostatics and hydrodynamics with simple calculation examples; river engineering issues and typical construction elements in river engineering; objectives, framework conditions and integrative solution approaches in protective hydraulic engineering, introduction to power hydraulic engineering.

    Teaching method

    Lectures and exercises

    Examination

    Final exam: Final written exam

     

    Literature

    Bollrich, Gerhard: Technische Hydromechanik. Berlin: 8. aktualisierte Auflage. Beuth Verlag 2019

    Preser, Frank: Klausurtrainer Hydromechanik für Bauingenieure. Wiesbaden: Vieweg+Teubner Verlag 2013

     

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Module Road Construction
    5 SWS
    8 ECTS
    Railway Construction | ILV

    Railway Construction | ILV

    1 SWS   2 ECTS

    Content

    • System railway - Railway systems
    • System railway - Interfaces and interconnections
    • line layout and design - basics

    Teaching method

    presentations, additional explanations and informations referring to current projects and backgrounds

    Examination

    Final exam: written exam

    Literature

    En

    ÖBB Regelwerk 01: Bahnanlagen i.d.g.F.

    ÖBB Regelwerk 02: Übergreifende Planungsgrundlagen, Streckenklassen i.d.g.F.

    ÖBB Regelwerk 07: Oberbau i.d.g.F.

    ÖBB Regelwerk 09: Unterbau/Geotechnik i.d.g.F.

    Freudenstein, S. et al: Feste Fahrbahnen in Betonbauweise. Betonkalender. Ernst & Sohn 2015

    Marx, L. et. al: Work procedures for maintenance of the permanent way of the DB Netz AG. DB-Instruction Book 2006

    Krüger, F. et al: Schall- und Erschütterungsschutz im Schienenverkehr. Expert Verlag 2006.

    Weigend, M.: Linienführung und Gleisplangestaltung. Schriftenreihe für Verkehr und Bahntechnik Band 3, Verband Deutscher Eisenbahningenieure e.V. (VDEI), Eurailpress 2004

    Lichtberger, B.: Handbuch Gleis. Tetzlaff Verlag 2004

    Eisenmann, J., Leykauf, G.: Betonfahrbahnen. Ernst & Sohn 2003

    Esveld, C.: Modern Railway Track. Delft University of Technology 2001

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Road Construction | VO

    Road Construction | VO

    2 SWS   2 ECTS

    Content

     This course focuses on the basics of road construction and techniques. It shall provide an overview for the students in the context of road design and planning based on the Austrian standards and guidelines. In addition, a comprehensive overview about road construction and road construction materials will be given. The final part of this course has a main focus on road maintenance.

    Teaching method

    The subject matter of this course will be put over the students through the use of PPT-presentation and a script.

    Examination

    Final exam: Examination in written form

    Literature

    Asphalt-Handbuch. Hrsg.: Gestrata. 5. Auflage. Wien 2021

    Dorfwirth Johann R.: Grundbegriffe und Grundlagen des Verkehrswesens, Vorlesungen aus Verkehrsplanung und Verkehrstechnik, Verlag für die Technische Universität, Graz, 1982

    Eisenmann Josef et al.: Betonfahrbahnen, Handbuch für Beton-, Stahlbeton-, und Spannbetonbau. Berlin: Verlag von Wilhelm Ernst & Sohn 2002

    Wehner B. et al.: Handbuch des Straßenbaus. Berlin, Heidelberg, New: York Springer Verlag 1977/79

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Transport Planning | ILV

    Transport Planning | ILV

    2 SWS   4 ECTS

    Content

    • Terminology of transport planning
    • Transport supply and demand
    • Survey methods, traffic engineering
    • Planning tools for transport modes: pedestrian traffic, public transport, bicycle traffic, car traffic, stationary traffic
    • Road safety
    • Transport and environment

    Teaching method

    Lecture, pracitcal examples/exercise and excursions in Vienna.

    Examination

    Final exam: Written examination

    Literature

    Cerwenka Peter et al.: Einführung in die Verkehrssystemplanung. Wien 2010

    Schnabl Werner/Lohse Dieter: Grundlagen der Straßenverkehrstechnik und der Verkehrsplanung (Band 1 – Verkehrstechnik). Bonn: Kirschbaum Verlag2011

    Schnabl Werner/Lohse Dieter: Grundlagen der Straßenverkehrstechnik und der Verkehrsplanung (Band 2 – Verkehrsplanung). Bonn: Kirschbaum Verlag 2011

     

    Teaching language

    Deutsch

    2 SWS
    4 ECTS

    Module Modul D: Hydraulic engineering and waste management
    4 SWS
    4 ECTS
    Energy-optimised construction  | VO

    Energy-optimised construction  | VO

    2 SWS   2 ECTS

    Content

    Focus on passive house, plus-energy, energy efficiency and overview of certification systems

    - Passive house standard

    - thermal bridges

    - Air tightness

    - Single-family passive houses and construction details

    - Practical examples of multi-storey passive houses

    - Practical examples of plus-energy buildings

    - Refurbishment with Passive House components

    - trends

    - Building certification systems

    Teaching method

    Lecture, detail work. Interactive teaching. Practical examples. Different samples of components for illustration.

    Examination

    Final exam: The written exam includes the following material: uploaded documents, information from the lecture, apply acquired knowledge to new tasks. No aids are allowed during the exam.

    Literature

    Literatur des Passivhaus Instituts.

    Schöberl, Helmut: Kostengünstige mehrgeschossige Passivwohnhäuser. Stuttgart: Fraunhofer IRB Verlag 2013

    Weitere Literatur wird mit den Vortragsunterlagen elektronisch zugänglich gemacht (Links zu kostenlos verfügbaren Berichten).

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Manufacturing Technology | VO

    Manufacturing Technology | VO

    2 SWS   2 ECTS

    Content

    A general overview of construction methods is given in the basic lectures of the bachelor course of studies. This lecture recesses the contents of the basic lectures. The students have also to apply their basic knowledge of construction methods on concrete examples.

    • Site equipment for Earthworks incl. size calculation for execution
    • Special Ground engineering methods incl. Conditions
    • Line construction methods
    • Guest lecture - DI Andreas Körbler / Keller Grundbau
    • Home work self-study - Teamwork ground & pipeline engineering

    Teaching method

    Lecture with concrete examples, teamwork and homework.

    Examination

    Final exam: Written examination (Rating 80%)

    Homework self-study (Rating 20%)

    Both grading parts must be completed positively.

    Literature

    Vorlesungsskriptum, PowerPoint sheets

    Österreichische Baugeräteliste ÖBGL 2015

    Fellner, Thomas: Baubetrieb und Baumanagement Band I - III. Wien: Manz Verlag 2021

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Module Poject
    1 SWS
    2 ECTS
    Prestressed concrete | ILV

    Prestressed concrete | ILV

    1 SWS   2 ECTS

    Content

    General principles of the calculation of prestressed concrete structures according to Eurocode 2

    Materials, construction materials and sustainability of prestressed structures in concrete -

    Preliminary design of prestressed concrete structures

    Verification of ultimate limit states of prestressed concrete structures

    Verification of serviceability limit states of prestressed concrete structures

    Internal forces from prestressing in statically indeterminate systems

    Teaching method

    Lecture, exercises, practical examples and discussions.

    Examination

    Final exam: Written exam

    Literature

    Avak, Ralf/Meiss, Kathy: Spannbetonbau: Theorie, Praxis, Berechnungsbeispiele nach Eurocode 2. Berlin: Bauwerk-Basis-Bibliothek Taschenbuch Beuth Verlag 2015

    Holst, Ralph/Holst, Karl Heinz: Brücken aus Stahlbeton und Spannbeton, Entwurf, Konstruktion und Berechnung. 6. Auflage. Berlin: Ernst & Sohn GmbH Verlag 2014

    Rombach, Günter: Spannbetonbau. 2. Aktualisierte Auflage. Berlin: Ernst & Sohn GmbH Verlag 2010

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Module Modul K: Digital Planning
    4 SWS
    8 ECTS
    Digital Structural Design | VO

    Digital Structural Design | VO

    1 SWS   1 ECTS

    Content

    Digital structural design based on 3D building models

    • Digitization potentials in structural design (current status, outlook)
    • Role of TW planning in the BIM workflow in the course of the performance phases
    • Basics of modeling, members, shell models, solid models and their application
    • 3D modeling of building structures based on BIM planning models
    • Creation of significant actions, action combination technologies
    • Insight into result evaluation and testing technologies for result verification
    • Overview of design tools in concrete and steel construction, timber construction
    • Insight into result transfer for the creation of execution documents (reinforcement plan)

    Special topics from geotechnics, prestressed concrete construction

    Teaching method

    Lecture and discussions

    Examination

    Final exam: Written exam

    Literature

    Barth, Christian/Walter Rustler: Finite Elemente in der Baustatik-Praxis: Mit vielen Anwendungsbeispielen. Berlin: Beuth Verlag 2010.

    Eisfeld, Michael: BIM in der Tragwerksplanung. In: Building Information Modeling. Technologische Grundlagen und industrielle Praxis. Hrsg.: Borrmann, André et al. 2., aktualisierte Auflage. Wiesbaden: Springer Vieweg 2021. S.407-426.

    Eisfeld, Michael: BIM: Einstieg kompakt für Tragwerksplanung. Berlin: Beuth Verlag 2020

    Stracke, Julia/Kepplin, Ragna: Der BIM-Prozess in der Tragwerksplanung. Beton- und Stahlbetonbau. Berlin: Ernst & Sohn Verlag 2022. S. 324-331.

     

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Digital structural design | UE

    Digital structural design | UE

    1 SWS   2 ECTS

    Content

    Digital structural design based on 3D building models

    • Identification of different BIM use cases for structural design in relation to the service phases.
    • Familiarization with a BIM-capable structural analysis program commonly used in practice for the design of concrete, steel and timber structures.
    • Modeling using the example of tasks in the various service phases
    • Avoidance of sources of error

    Implementation of software-supported design, evaluation of results for the preparation of execution documents as well as testing technologies for result verification.

    Teaching method

    Lecture, discussions, corrections of interim submissions, presentations.

    Examination

    Final exam: Intermediate deliveries, presentation

    Literature

    Barth, Christian/Walter Rustler: Finite Elemente in der Baustatik-Praxis: Mit vielen Anwendungsbeispielen. Berlin: Beuth Verlag 2010.

    Eisfeld, Michael: BIM in der Tragwerksplanung. In: Building Information Modeling. Technologische Grundlagen und industrielle Praxis. Hrsg.: Borrmann, André et al. 2., aktualisierte Auflage. Wiesbaden: Springer Vieweg 2021. S.407-426.

    Eisfeld, Michael: BIM: Einstieg kompakt für Tragwerksplanung. Berlin: Beuth Verlag 2020

    Stracke, Julia/Kepplin, Ragna: Der BIM-Prozess in der Tragwerksplanung. Beton- und Stahlbetonbau. Berlin: Ernst & Sohn Verlag 2022. S. 324-331.

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Integrale Planung mittels digitaler Anwendungen 2 | UE

    Integrale Planung mittels digitaler Anwendungen 2 | UE

    2 SWS   5 ECTS

    Content

    Students solve a design task in its following aspects and in interdisciplinary team (students of architecture and students of civil engineering ): architectural design, planning for permit approval, construction-related tasks (eg preparation of tender documents, spreadsheets, etc. ), structural design, execution drawings ,calculation , construction sequencing and project management, building physics.

    The studio aims to develop the design, including the principles of integral design in interdisciplinary teams. It is prepared using scale plans, models, perspective sketches, renderings and descriptions.

    Teaching method

    Exercise

    Examination

    Final exam: Final presentation of the project work, professional discussion with the lecturers

     

    Due to the Covid 19 situation and the holding of LVs in accordance with the BMBWF's traffic light regulations, thev examination modalities can also be adapted at short notice during the current semester.

    Literature

    Je nach Aufgabenstellung.

    Teaching language

    Deutsch

    2 SWS
    5 ECTS
    x
    Module Major construction projects
    7 SWS
    10 ECTS
    Controlling | ILV

    Controlling | ILV

    2 SWS   2 ECTS

    Content

    • Insight into the complex processes involved in handling construction projects
    • Understanding of the relationships and interactions between the project participants is conveyed
    • By means of different management methods, instruments for coping with complexity are presented
    • In addition, the main risks and disruptive factors are discussed and ways of solving problems are discussed, taking practical examples into account

    Teaching method

    Lecture / discussion / cases / site visit

    Examination

    Final exam: Written examination after completion of the course / attendance and active participation / distance learning

     

    Literature

    Literatur der Institutsbibliothek / RIS / Folien der Lehrveranstaltung / Materialien zu den Folien

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Digitale Anwendungen für bauwirtschaftliche Problemstellungen | ILV

    Digitale Anwendungen für bauwirtschaftliche Problemstellungen | ILV

    2 SWS   3 ECTS

    Content

    The most important digital innovations in the construction industry are explained and practiced in concrete terms; e.g.: Software products such as electronic construction diary and electronic time recording; digital cost and schedule planning; software solutions from tendering to awarding to invoicing.

    Teaching method

    Lecture, exercises

    Examination

    Final exam: Written exams

    Literature

    Agile Digitalisierung im Baubetrieb. Grundlagen, Innovationen, Disruptionen und Best Practices. Hrsg.: Hofstadler, Christian/Motzko, Christoph. Wiesbaden: Springer Vieweg 2022

    Eichmann, Hubert: Digitale Transformation der österreichischen Bauwirtschaft und Auswirkungen auf die Erwerbstätigen Trendanalysen auf Basis von Literaturrecherchen und ExpertInnen-Prognosen. Ein Projektbericht im Rahmen des Programms „Stadt der Zukunft“ des Bundesministeriums für Klimaschutz, Umwelt, Energie, Mobilität, Innovation und Technologie (BMK). Berichte aus Energie- und Umweltforschung 15/2021

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Economic Optimization of Building Projects  | ILV

    Economic Optimization of Building Projects  | ILV

    2 SWS   3 ECTS

    Content

    The course deals with in-depth and supplementary questions regarding the economic viability of construction projects:

    • Potential for economic optimization in construction projects
    • Lean Construction Management
    • Contract models - Integrated project management
    • Prefabrication

    Teaching method

    Lecture
    Practical exercises - Last Planner System

    Examination

    Final exam: 85% Final test (written examen)

    15% Distance learning

    Further information in the first course on 7th of September 2021.

    Both grading parts must be completed positively.

    Literature

    • Fellner, Thomas: Baubetrieb und Baumanagement Teil 1. Wien: Manz Verlag 2020

      Plettenbacher, Wolf/Stopfer, Martin/Nowotny, Katharina: Anti-Claim-Management Handbuch. Wien: Linde Verlag

      Duschel, Michael/Plettenbacher, Wolf/Stopfer Martin: Arbeitsvorbereitung und Lean Construction Management Handbuch. 2. Auflage. Wien: Linde Verlag 2020

      Fiedler, Martin: Lean Construction – Das Managementhandbuch. Berlin: Springer Verlag 2018

      VDI-Richtlinie 2553: Lean Construction.

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Project Finance | ILV

    Project Finance | ILV

    1 SWS   2 ECTS

    Content

    In the course of the event, the main principles of the lending business with a focus on the area of real estate financing are to be conveyed. In addition to basic business management knowledge (structure of the balance sheet as well as the profit and loss account, differences between investment/financing, equity and debt capital, etc.) the typical classic forms of financing (bank financing, leasing, factoring, etc.) as well as new developments (e.g. crowdfunding, etc.) will be presented. In addition, interest rate structuring variants including interest rate hedging options (cap, SWAP, etc.), repayment variants and different collateralisation variants are presented. Practical examples will be used to put into practice the basic theoretical knowledge acquired. In addition, there will be various digressions on the topics of rating
    (internal rating systems of credit institutions, rating agencies, credit agencies), the new regulatory requirements for banks (Basel III, etc.) as well as new legal challenges (e.g. Mortgage and Real Estate Credit Contract Act, Consumer Protection Act, etc.). Preparation of financing plans (e.g. calculation of a loan repayment plan) Company valuation - how does this come about? Overview of different real estate investments and assessments (e.g. builder-owner models and retirement home)

    Teaching method

    In addition to the lecture, examples are worked on in homework and discussed in the group.

    Examination

    Final exam: Examination at the end of the lecture, either in writing or via multiple choice on the PC, ongoing cooperation

     

    Due to the Covid 19 situation and the holding of LV according to the traffic light regulation of the BMBWF, the examination modalities can also be adapted at short notice during the current semester.

    Literature

    Hellerforth, Michaela: Immobilieninvestition und -finanzieung kompakt. 2. Auflage. München: Oldenbourg Verlag 2014

    Nadvornik, Wolfgang/Brauneis, Alexander/Grechenig, Sibylle/Herbst, Alexander/Schuschnig, Tanja: Praxishandbuch des modernen Finanzmanagements. 2. Auflage. Wien: Linde-Verlag 2015

    Pernsteiner, Helmut/Andeßner, René: Finanzmanagement kompakt. 5. aktualisierte Auflage. Wien: Linde-Verlag 2014

    Praxiswissen Unternehmensfinanzierung. (Loseblattsammlung. Wien: WEKA-Verlag 2015

    Walch, Patrick/Weichselbaum, Klaus: Handbuch der Immobilienfinanzierung. 2. Auflage. Wien: Linde-Verlag 2018

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Module Legal bases - expanded
    5 SWS
    6 ECTS
    Personelle und organisationale Resilienz  | ILV

    Personelle und organisationale Resilienz  | ILV

    1 SWS   1 ECTS

    Content

    5 resilience factors to individual resilience:

     

    Solution Orientation:

    Students learn to better handle challenging situations and consistently turn problems into solutions.

    They learn to recognize typical thinking traps and avoid them in the future.

    With a detailed 5-step plan, they are given precise guidance on solution orientation.

    Acceptance:

     

    Self-efficacy expectation:

    In this resilience factor, students will learn about the connection between neuroplasticity and self-efficacy and how to use it to their advantage in their everyday work.

    They will learn about 5 different pathways to greater self-efficacy and how to develop them. After theory input, what you have heard will be deepened by means of practical exercises on a personal topic.

     

    Mindfulness:

    Students will train their ability to stay in the present in order to perceive their needs, moods and thoughts with pinpoint accuracy. Only when they master this do they have choice over their actions and are free from automatic reaction patterns.

    You will hear insights from neuroscience and learn what difference it makes to work in normal or mindfulness mode.

    The usefulness of multitasking will be illuminated, subjected to a practical test and studies on it will be presented.

    3 effective exercises are provided to help you walk through stressful work situations with more composure.

     

    Realistic Optimism:

    Students will learn details about the negativity tendency and learn to counteract it by taking appropriate action.

    They take a closer look at the PERMA model from Positive Psychology and gain insights into the research area of epigenetics and how it relates to Realistic Optimism.

     

    Acceptance:

    Students grapple with their inner resistance.

    A common misconception around acceptance and consent is clarified that keeps many people from moving into an accepting mindset.

    Tried and true ways to achieve acceptance will be highlighted and an instant help tool will be provided.

    Click or tap here to enter text.

    Teaching method

    Teaching lecture, teaching discussion, self-reflection, group work, discussion, short videos, practical exercises

    Examination

    Final exam: Final written exam

    Literature

    Gruhl, Monika: Resilienz – die Strategie der Stehauf-Menschen: Krisen meistern mit innerer Widerstandskraft. Wien: Herder Verlag 2018

    Heller, Jutta: Resilienz für die VUCA-Welt: Individuelle und organisationale Resilienz entwickeln. Berlin: Springer Verlag 2018

    Kéré Wellensiek, Sylvia/Galuska, Joachim: Resilienz – Kompetenz der Zukunft. Weinheim Beltz Verlag 2014

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Variations and Claims | UE

    Variations and Claims | UE

    1 SWS   2 ECTS

    Content

    Systematics of performance variances, over- and under-cost claims

    Factual variance analysis

    Contractual basis for claims

    Consequences for the construction industry

    Effects on the construction industry

     

    Teaching method

    Practical group exercises, project presentation

    Examination

    Final exam: Written group work

    Literature

    Handbuch Claim-Management. Hrsg.: Müller, Katharina/Stempkowski, Rainer. 2., aktualisierte und erweiterte Auflage. Wien: Linde Verlag 2015

    Kropik, Andreas: (Keine) Mehrkostenforderungen beim Bauvertrag. Eigenverlag 2021

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Variations and Claims | VO

    Variations and Claims | VO

    1 SWS   1 ECTS

    Content

    Claims and Variations:

    • Introduction
    • Areas of Risk and Responsibility
    • Request to Notice
    • Adjustment of Contractual Milestones and Prices
    • Requirements to adjust Milestones and Prices
    • Calculation of New Prices
    • Lost of Entitlements
    • Adjustments of Measurement
    • Case Studies

    Teaching method

    Lecture, discussion of case studies, discussion of prior experiences of the students, homework, group projects

    Examination

    Final exam: Written exam

    Literature

    Handbuch Claim-Management. Hrsg.: Müller, Katharina/Stempkowski, Rainer. 2., aktualisierte und erweiterte Auflage. Wien: Linde Verlag 2015

    Kropik, Andreas: (Keine) Mehrkostenforderungen beim Bauvertrag. Eigenverlag 2021

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Corporate Law and Human Resources Management | VO

    Corporate Law and Human Resources Management | VO

    2 SWS   2 ECTS

    Content

    Entrepreneurial power of attorney, corporate register, corporate transfer, business transactions
    Company law
    Overview Company founding (Process)
    Overview and delimitation Administrative criminal law - Criminal law

    - Career planning

    - Change Management

    - HR Controlling

    - Current topic (Home Office, Hybrid Working,…)

     

    In-depth understanding of essential areas of personnel issues, such as performance appraisal, personnel management and team development.

    Active approach to personalised career planning and individual success factors.

    Teaching method

    Lecture and practice.

     

    Examination

    Final exam: written exam

     

    Due to the Covid 19 situation and the holding of LV according to the traffic light regulation of the BMBWF, the examination modalities can also be adapted at short notice during the current semester.

    Literature

    Personalmanagement 4.0: Strategien und Konzepte zur aktiven Gestaltung des digitalen Wandels. 2. Auflage. Wien: Verlag Linde 2019

    Weber, Martin: Unternehmens- und Gesellschaftsrecht, 4. Auflage, Verlag Linde, 2019

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Digitalisierung in der Bautechnik
    Module Modul H: Digitale Bauabwicklung
    6 SWS
    8 ECTS
    Digital construction process | ILV

    Digital construction process | ILV

    3 SWS   5 ECTS

    Content

    Interdisciplinary exercise in which students work through the construction process digitally in mixed teams and, in particular, develop and solve digital/cross-sectional problems using state of the art methods.

    The course content builds on the fundamentals of digitalization, Bim, Lean, Gis, etc. and delves into the individual disciplines in sections.

    Teaching method

    Lecture with strong practice character

    Examination

    Continuous assessment: Exercises

    Literature

    Wird aus Aktualitätsgründen jeweils vor Beginn der LV festgelegt.

     

    Teaching language

    Deutsch

    3 SWS
    5 ECTS
    Exercise Excursion | UE

    Exercise Excursion | UE

    1 SWS   1 ECTS

    Content

    Three excursions to projects with the main topics:

    • facade construction
    • Timber construction
    • Technical building equipment

    Teaching method

    • Self-study of provided project information as preparation for the excursion
    • Excursions with guided tours of the construction site, lectures and question forums
    • Quick quiz

    Examination

    Final exam: Quick quiz after each of the three excursion blocks

    Literature

    Wird je nach Exkursion festgelegt.

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Lead Management | VO

    Lead Management | VO

    1 SWS   1 ECTS

    Content

    Definition of innovation management: it has as its content all measures that favor innovations in organizations in order to generate benefits, for example:

    • New products and services to capture new markets.
    • Improved products and services to differentiate from the competition.
    • Improvement of internal processes to strengthen the company from within or to save costs.

    Teaching method

    Lecture

    Examination

    Final exam: Written exams

    Literature

    Gneisz, Lambert O.: Digitales Innovationsmanagement. Wie Sie aus Ihren Ideen digitale Produkte und innovative Geschäftsmodelle machen. 1. Auflage. Wien: TÜV Austria 2020

    Kreativität und Innovation in Organisationen. Hrsg.: Landes, Miriam/Steiner, Eberhard/Utz, Tatjana. Berlin – Heidelberg: Springer Gabler 2022

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Management – Kooperation in digitalen Bauprojekten | VO

    Management – Kooperation in digitalen Bauprojekten | VO

    1 SWS   1 ECTS

    Content

    • Basics of agile project management
    • Agile leadership training
    • Agile toolset, such as Scrum, Kanban, Retro, Review, etc.
    • Challenges of modern project management beyond the classical construction project
    • Case studies for project optimization using agile approaches

     

    Teaching method

    Lecture with activating methods, discussion, case solutions

    Examination

    Final exam: Final Written Exam/Moodle

    Literature

    Wird aus Aktualitätsgründen vor der Vorlesung bekannt gegeben.

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Module Modul N: Digitale Anwendungen
    6 SWS
    8 ECTS
    Data Science | VO

    Data Science | VO

    2 SWS   2 ECTS

    Content

    Data quality, BI tools, data-driven decisions, privacy basics, AI technologies, and data sovereignty basics.

     

    Teaching method

    Lecture

    Examination

    Final exam: Written exams

    Literature

    Foster, Matt: Data Science for Beginners. Hörbuch 2019

    Gutman, Alex J./ Goldmeier, Jordan: Werde ein Data Head: Data Science, Machine Learning und Statistik verstehen und datenintensive Jobs meistern. Sebastopol: O'Reilly 2022

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Digital applications and artificial intelligence | VO

    Digital applications and artificial intelligence | VO

    2 SWS   2 ECTS

    Content

    Possibilities for the use of AI in construction, such as self-learning construction sites and autonomous construction machines; the calculation of failure risks in real time; digital site inspection with VR glasses; simulations of construction and renovation concepts; AI sensors for detecting and tracking and damage up to monitoring and controlling of construction progress will be presented.

    Teaching method

    Lecture

    Examination

    Final exam: Written exams

    Literature

    Wird aus Aktualitätsgründen jeweils vor Beginn der LV festgelegt.

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Smart Building und IoT | ILV

    Smart Building und IoT | ILV

    2 SWS   4 ECTS

    Content

    The essential technologies of "smart" buildings as well as the basics of sensor technology in the context of construction are taught.

    Teaching method

    Lecture, exercises

    Examination

    Final exam: Written exams

    Literature

    Wird aus Aktualitätsgründen jeweils vor Beginn der LV festgelegt.

    Teaching language

    Deutsch

    2 SWS
    4 ECTS

    Module Master Thesis
    2 SWS
    30 ECTS
    Master’s Seminar | SE

    Master’s Seminar | SE

    2 SWS   2 ECTS

    Content

    • Support and interim presentations
    • Final presentations of the diploma thesis by students

    Teaching method

    Seminar

    Examination

    Continuous assessment: Project work

    Literature

    tba

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Master‘s Thesis | MT

    Master‘s Thesis | MT

    0 SWS   27 ECTS

    Content

    Writing the Master thesis

    Teaching method

    Master thesis

    Examination

    Final exam

    Literature

    Je nach Thema mit betreuenden Lektor zu vereinbaren.

    Teaching language

    Deutsch

    27 ECTS
    Master Examination | AP

    Master Examination | AP

    0 SWS   1 ECTS

    Content

    Curriculum

    Teaching method

    none

    Examination

    Final exam: Examination

    Literature

    Siehe LVs

    Teaching language

    Deutsch

    1 ECTS

    Number of teaching weeks
    18 per semester

    Times
    Mon-Thu 5:30-9:30 p.m.; classes also held on some Fridays

    After graduation

    As a graduate of this program, a wide range of occupational fields and career opportunities are open to you. Find out here where your path can take you.

    As a well-trained civil engineer, you will help to plan or implement construction projects. For example, you can work as a site manager. Overall, you have a wide range of professional opportunities open to you on the client or contractor side: in construction companies, which include the entire construction industry, master builders, steel, light metal and wood construction companies, construction related trades, renovation and revitalization companies and the building materials industry, as well as in construction departments of local authorities, banks or insurance companies. You can also expect good career prospects in civil engineering and planning offices.

    • Construction companies (building trade, construction industry)

    • Production of building materials, building materials trade

    • Developers

    • Architectural and planning offices, engineers and design offices

      • Administrative bodies in the public sector

      • Real estate related services

      • Construction departments of private clients (chain stores, insurance companies, banks)

        Studying made easy

        Bücher mit Geld
        Funding & Scholarships

        More information here

        >
        Hände zeigen auf Weltkarte
        Time abroad

        Expertise, language skills, broadening horizons

        >
        Fish jumps out of fishbowl into another fishbowl
        Open Lectures

        Find out more, in German

        >
        Books and laptop
        Center for academic writing
        >
        Intensive German course
        >
        EICC
        >
        Doctoral Service
        >
        Validation
        >
        Accessibility
        >
        queer @ FH Campus Wien
        >

        Networking with graduates and organizations

        We closely cooperate with renowned companies in commerce and industry, universities, institutions and schools. This ensures that you have points of contact for professional internships, job opportunities or your participation in research and development activities. Major players in the construction industry such as the PORR Group, STRABAG SE or ÖBB-Infrastruktur AG will support you in various funding programs, provide insights into professional practice, offer the chance of rare part-time jobs or accompany you with professional expertise and collegial advice. You can find many of our cooperations on the website of our Campusnetzwerk. A look at them is always worthwhile and may lead you to a new job or to an interesting event of our cooperation partners!

        Contact

        Head of Degree Program

        Secretary's office

        DI Heidelinde Fischl
        Eva-Elisabeth Pech, MSc

        Favoritenstraße 226, P.1.05
        1100 Wien
        +43 1 606 68 77-2200
        +43 1 606 68 77-2209
        bau@fh-campuswien.ac.at

        Map Main Campus Favoriten (Google Maps)

        Office hours during the semester
        By arrangement

         

        You want to know more? We will help you.

         

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