The goal of this Master's degree program is to maintain or improve the independence and quality of life of people with the aid of technical products, applications and services. Technology, health, therapy, clinical work and research interact in the transfer of basic know-how available in occupational therapy to robotics, or when deploying technical systems to analyze and support sequences of movement. You will develop products, aids, games or systems to assist in enabling ill and disadvantaged people to actively participate in everyday life.
Robert Priewasser, BA BA MAFavoritenstraße 226, D.1.21 1100 Wien T: +43 1 606 68 77-4380 F: +43 1 606 68 email@example.com
Lageplan Hauptstandort Favoriten (Google Maps)
Application period for academic year 2019/20
until 10th June 2019
tuition fee / semester:
+ ÖH premium + contribution**
* Tuition fees for students from third countries € 727 per semester
**for additional study expenses (currently up to €83 depending on degree program and year)
You are already qualified as a technician or health professional. You are fascinated by the opportunity of deploying technology not only to be useful to people but also to provide valuable support and relief. You can see many fields of application in the healthcare sector. Here, you are looking for a Master's degree program which ideally combines both - Technology and Health Assisting Engineering - and advances you professionally. All you still need as a technician is background knowledge in medicine and health and all you need as a health professional is background knowledge of the technology involved. You enjoy communicating with and analyzing the needs of patients. The prospect of innovating from both points of view - as a developer and as a user - is one driving force behind your choice of degree program.
At FH Campus Wien we draw on the knowledge incorporated in more than 60 of our programs to compile innovative degree programs spanning the intersections between disciplines. The concept of Health Assisting Engineering is that of an interdisciplinary Master's degree program. The program merges the two growth areas of Technology and of Health and will continue to develop this interface. Our know-how is in demand already: Our Master's degree program boasts contracts from and collaborations with organizations such as the Austrian Institute of Technology, the Ovos Media GmbH and the Danish Invencon, all of whom are specifically looking for people knowledgeable in this interdisciplinary field. We also cooperate with the Technical and the Medical Universities of Vienna. Interdisciplinary projects are part of our university's research strategy. This offers you the opportunity of participating in interdisciplinary projects. You thereby contribute to the active dialog in the Scientific Community. You are in a position in practice to build on your acquired and scientifically verified know-how. Practical relevance is also guaranteed through our Campus Lecture evenings which are open to all and offer contributions by prominent experts.
Combining know-how in the fields of technology and health is increasingly important in the professional field. Training and further education programs, however, still do not satisfy the actual demand for experts by far. This has occasioned us at FH Campus Wien to combine the disciplines in our institution in a unique way. Researchers, teaching staff and practitioners from several fields of technology and health have jointly structured a new type of Master's degree program. External research facilities, companies, professional associations and patient representatives contributed valuable input to develop a curriculum that is based on needs and state-of-the-art.
The Master's degree program includes current topics such as international trends and visions such as "Smart homes" and "Ambient assisted living". You will create benchmarks for future developments and applications. We are, for instance, working with Ovos Media on a Serious Game for the elderly, which will be used for the prevention and therapy of dementia: "Lebensnetz" is an Android computer game played on a tablet, the theme being the story of the life of the elderly. The game serves to rehash the story of your life. What is special here is that you as a technician or health expert, maybe as an occupational therapist, physiotherapist or health worker and nurse will, jointly with others, develop optimal solutions during your training.
Lector: Hon.-Prof. Mag. Dr. Günter Dietrich, Mag. Martin Salvenmoser
Reflexion on basic communication theories(Schulz von Thun, Hall, Watzlawick, Rogers, Berne)Cooperative communication (nonviolent communication)Discussion techniques and settings:InformationAiding conversationConflict managementConstructive critismFeed backPresentation and lecture
Full time attandence, cooperation, working orders as well as feed back for the presentations
Lectures, group work, role play with video analysis, presentations
Lector: Dipl.Ing. Georg Edelmayer
Introduction: Diversity, Disability, Barrier free design, Universal Design, Assistive technology;Relevant Laws and Guidelines: Human rights, BGstG, UN Convention on Human Rights;ÖNORM B1600 with examples; Barrier free internet: Guidelines, Assistive technology, checktools
Lector: Agnes Sturma, BSc MSc, Dipl.-Ing. Mag. Franz Werner, Ao.Univ.Prof. i.R. Dr. Wolfgang Zagler
> Introduction into Health Assisting Engineering> current developments and projects of Health Assisting Engineering> Models of technology acceptance> Assistive technologies für people with disabilities
Lector: Ass-Prof. DDr. Mag Kyriaki Papantoniou
What is EpidemiologyMilestonesCausalityPrevention and health promotionDemographyEpidemiological measures of disease frequencyDescriptive epidemiologyAnalytical epidemiologyProof of causal relationships, bias, confoundingExperimental EpidemiologyEarly detection and screening
Written exam (test).
Lecture by means of online documents, which are available to students even outside the lecture.
Lector: Dr. Christopher Hanzl, BEd MA
Lector: Dr. Harald Jagos, Dipl.-Ing. Daniela Krainer, Dipl.-Ing. Mag. Franz Werner, Dipl.-Ing. Mag. Katharina Werner
Quality of life: definition and introductionAssistive devices: overview and examplesActive and Assisted Living:- Overview of assistive robotics, categories, fields of use, possible benefits, challenges in R&D- Overview of Wearable Electronics (especially in-shoe measurement systems) for gait and motion analysis as well as monitoring of the physical activity level; fields of use, challenges and real-life testing; examples of up-to-date projects and productsUser Centered Design: Introduction to Usability and User Interface Design, selected Participatory Design methods
Exercises (individual and group work)
Interaktive lecture, Group work, Participation, Exercises
Lector: Lena Rettinger, MSc
Lector: Dipl.-Ing. Dr.techn. Jürgen Falb
This course gives an overview on the major topics of computer science and explains the most important basics. The course especially approaches the topics: information and representation of information, principles of computers, structured and object oriented programming, algorithms, operating systems, and database systems.
The methods used in this course are lectures with interactive training examples and group assignments in the different topics. A laptop can be useful, but is not a must.
Lector: Dipl.-Ing. Ing. Christian Lugmayr, BSc., Eveline Prochaska, BSc MSc, Dipl.-Ing. Mag. Franz Werner
Electronic Components :Basics (electricity, basic concepts , Ohm's law , circuits)Components (resistors , inductors and kapazative)Semiconductors (fundamentals and key elements)
collaboration , ongoing exercises and final exam
lecture with exercises
Lector: DI Mathias Tausig, Dipl.-Ing. Michael Urbanek, BA BSc MSc, Dipl.-Ing. Mag. Franz Werner
Multiple Choice Test + Übungsbewertung
Lector: FH-Prof. DI Johann Walzer
- Physical fundamentals of force, energy and power- Different principles of electro-mechanical sensors for the mesurement of non-electric values (pressure, temperature, etc. ) are presented- Measures for the compensation of interfering factors such as non-linearities or temperature-dependencies are shownActuators: Stepping motors, relays, DC-motors, pneumatics, hydraulic systems, valves
Lecture with Laptop, Beamer and additional explanations on whiteboard.Parts of the lectures' contents have to be acquired by the students on their own by means of e-learning.
Lector: Priv. Doz. Dr. Monika Schoels, MSc.
introduction course on infectious diseases, epidemiology, and immunology
Lector: Roman Weigl, MHlthSc
Theory of Activity/Occupation/Participation, history of occupational-centered models and theories, paradigm shift, models and instruments for the analyzis of occupationsOccupational Science and Occupational therapy research - international trendsDevelopment of human occupation over the lifespan
Written assignmentParticipation in practice skill training and individual & group work
Lecture, group work, individual work, presentation, practice skill training (individual, small group, plenum)
Lector: Omer Matthijs, ScD
Palpation of surface anatomy of structures, which are relevant for surface EMG and point of references.
practise and exercise
Lector: Uwe Yacine Schwarze, MSc
basics of anatomy, physiology and biology of humans, teaching structure of human body (skeleton, muscles, morphology of organs) further on with functional systems (nervous system, vascular system, breathing, digestion, hormonal system), understanding basic physiological mechanisms
Causes, pathophysiology and development of selected disease and disabilities (e.g, neurology, psychiatry, pediatrics, internal medicine, and trauma), which typically lead to a limitation of occupational performance or movement functions.Terms of epidemiology and clinical pathologyEffects of selected disease and disabilities on the capacity of people to participate in different stages of life, diseases in the context of occupation/person/environment
Lecture, group work, individual work, presentation, practice skill training (individual, small group, plenum) with the use of clinical case material
Lector: Andreas Jocham, MSc, Agnes Sturma, BSc MSc
This course provides an introduction to motor learning and human kinematics in context with therapeutic interventions, as well as basics of biomedical research and scientific writing.
seminar paper and written exam
traditional teaching approaches and workshops
Lector: Dr. Christian Steineder
Complex numbers, Functions of one and several variables, Integral calculus, Probability and Statistics and Applications.
Lector: Dipl.-Päd. Mag.a Erna Schönthaler
Lector: Mag. pharm. Dr. rer. nat. Michael Alexander Demel, MSc
Lector: Valentin Ritschl, MSc MSc
Definition of terms, development of clinical (research) questions, scientific literature search in databases, critical evaluation and appraisal of scientific articles, basics of quantitative and qualitative research and clinical studies
Lecture, group work, individual work, practical skills training
Lector: Dr. Marjo Rauhala, Valentin Ritschl, MSc MSc
In this course we will address questions such as how technology becomes a topic for ethics and the social relevance thereof, what values are embedded in your own work, and how to address research ethics in your research.
Active collaboration in sessions; an essay
Lectures, group work, discussion, essay
Lector: Univ.-Prof.in Mag.a Dr.in Tanja Stamm, PhD MSc MBA
Research paradigms, research process, philosophical foundations of qualitative and quantitative research, epistemology, ontology, development of a research question
E-leanring, theoretical input and plenary critical discussions
Lector: Andreas Jocham, MSc
Lector: FH-Prof. DI Christian Halter, FH-Prof. Dipl.-Ing. Herbert Paulis
Lector: Florian Güldenpfennig, Dipl.-Ing. Mag. Franz Werner
Kenntnisse über Betriebssysteme im embedded Bereich, Erstellung von Software-Funktionen zum Einlesen von Sensoren und Ansteuern von Aktoren, Nutzung des Mikro-controllers um analoge Sensorwerte digital weiter zu verarbeiten sowie digitale Werte analog auszugeben (DA, PWM), Kommunikation über Bussysteme (parallel, UART, SPI, I2C)
Vorlesung, Beispiele und Projektaufgabe
Lector: Univ.-Prof.in Mag.a Dr.in Tanja Stamm, PhD MSc MBA, Dipl.-Ing. Mag. Franz Werner
Lector: Mag. Gerald Röhrling
- planning of empirical research - methods of data collection - from questionnaire to the datamatrix: coding and data input- introduction in SPSS - descriptive statistics (e.g. frequencies, location and dispersion parameter, graphical methods for discrete and continuous variables, characteristics of special distributions (e.g. normal distribution), (rank)correlation - inferential statistics (e.g. parametric and non-parametric methods for independent and dependent samples, complex variance-analytical methods (two-way anova, mixed-anova etc.)
homework jobs (analysis with SPSS including interpretation of results)
Lecture, training on the computer (SPSS version 18), interpretation of results, interactive education (questions and discussions concerning the masterthesis are explicit welcome)
Lector: Dipl.-Ing. Ing. Christian Lugmayr, BSc., DI Dr. Kerstin Schneider-Hornstein
* Overvoltage-protection circuits (ESD)* Interface circuits* Signalsources / oscillators* Thermal aspects in circuit design* Simulation of electronic circuits
* written examination
* Lecture with presentation and explanatory blackboard drafts* Practical laboratory exercises with an independent realization of circuit configurations (group work)* Practical simulation exercise with LTspice
Different approaches to evaluate the environment and human activity
within the assessment of the overall module
Lector: Dipl.-Ing. Sten Hanke, Phd, Andreas Huber, MSc, Ing. Kevin Pajestka, Dipl.-Ing. Dr. Franz Pühretmair, Mag. Markus Raffer, Markus Schachinger, MSc, Ing. Andreas Stainer-Hochgatterer, Dipl.-Ing. Mag. Franz Werner
Lector: Dipl.-Ing. Mag. Franz Werner
Lector: Mag. Dr. Claudia Oppenauer, Dipl.-Ing. Josef Prommegger, MBA
The lesson will be split up in two parts:1st part Funding Programs and Tender Proposals> National and EU funding programmes (calls for proposals and public contracts) > Assessment procedures for calls for proposals and public contracts > Basics of tendering procedures > Legal framework > Awarding of funding and monitoring of funding > Elements of proposals and key success factors for composing proposals > Practical exercises for writing proposals2nd part: Project Management as basis for planning and executing the applied project >Projectmanagement Basics: Project Definition / Kind of Projects / PM Tasks / Phases>Project Start Phase: Environmental Analysis / Project Definition / Project Organisation>Project Planning: Planning Variables / Work Break Down Structure / Scheduling / Resources >Project Execution: Project Planning / Change Management and Controlling>Project Closing>Advanced Topics: Planning Tools and Planning Methodes / Dos & Donts
Teams (4 people each) will be formed to work out a funding proposal and a project manual50% team assessmentAssessment criteria: brief content description; relevance regarding call for proposals50 % project management partgenerating of project manual of the proposed project for funding.The assessment of both areas has to be positive in order to successfully complete the course. Deadline for both parts will be 6th of January 2019
Team work, talks, practical exercises, reflection and feedback sessionsPM part: lecture / power point presentation / flipchart / PM tools
Lector: Mag.(FH) Johannes Naimer-Stach, MES
Lector: Dr. Loredana Viola
Innovation ManagementCreativity, idea generation and problem solving
70 % Group work30 % Collaboration/individual work
Lecture with several group works
Lector: FH-Prof. Dipl.-Ing. Herbert Paulis, Dipl.-Ing. Mag. Franz Werner, Hubert Wimmer, MSc
Impartement of theoretical principles to realize a medical product. Based on this knowledge the students have to define and realize an adequate product as a prototype in teamwork (e.g. as feasibility study or requirements analysis aso). Therefore the the fundamental principles of project- and product management are deployed. The realization should be done mainly by themselves and in form of distance learning.
The realized product as well as a documentation sheet form the basis for the evaluation.
ILV with distance learning
Lector: Mag. René-Johan Bogendorfer, Dr. Dietmar Schuster, MBA
Lector: Ing. Dr. Andreas Kranzl, Hubert Wimmer, MSc
The aim of the course is to know biomechanical motion analysis methods. Specifically methods that are used in physiotherapeutic everyday. Simply measuring instruments, but also technically more complex procedures are content of the course.
Written exam, exam date will be announced in the lecture.
Theoretical presentation of the analysis, Practical evaluation of small projects.
Critical examination of current topics and journal publications, knowledge of the research process (quantitative, qualitative, mixed-method), research methods terms, critical discussion of reasoning and interpretation within publications findings, presentation and discussion of results of paper readings
Written assignmentParticipation in practice skill training and individual/group work
Lecture, group work, practice skill training (individual, small group, plenum)
The students will gain insights into the foundations of health Systems and ist implication in the Provision of health and rehabilitation services. Furthermore, it will be explored how health Systems are embedded within broader political systems and how these systems are connected.
will be announced at the beginning of the course
lecture, small group exercises, group presentations
Lector: Andreas Jocham, MSc, Dr. Stefan Tino Kulnik, Cosima Prahm, MSc, BA
Lector: FH-Prof. Dipl.-Ing. Herbert Paulis
Introduction into the concepts of It Controling using strategic IT Controling tools like Balanced Score Card Analysis, Earned Value Analysis and life cylcle based cost calcuation.Different methods are presented how to calculate costs of IT services and similare objectives.
Continuous assessments throughout the content presentation.
lecture with components which have to be researched and presented bythe participants
Lector: Dipl.-Ing. Herwig Dötsch
> Matlab / Simulink Basics> Fundamentals of modeling> Fundamentals of simulation of technical systems> Simple differential equations> Practical problems on following topics will be developed:- Methodology and classification of model identification and model treatment- Behavior of technical systems (linear and nonlinear)- Evaluation of technical systems prior to the availability of a real prototype- Functional tests using simulations> Areas:- Mechanics- Biomedicine (spread of disease)- Economics (tax cuts -> effect)- Ecology (climate models, ...)
seminar;Lecture / blackboard sketches and drawings / PPT presentations
This lecture course gives an introduction, how requirements engineering works.All important parts of the requirement engineering will be shown and discussed by using best practice examples.The lecture course is separated into following main parts:a) Short description of the IEEE P1220 standard for requirement engineeringb) Roles and responsibilities in the requirement engineering processc) Skills which are necessary for good requirement engineeringd) Integration of the requirement engineering process in other (overall) quality management systemse) Planning, organizing and managing of the requirement engineering processf) Best practices in requirement engineering
Written exam at the end of the course.At least 60% are required for passing the exam.Practical exercise.
Lector: Mag. Dr. Markus Latzke
Lector: Ing. Philipp Neurohr, BSc, MSc
The course gives an overview on current knowledge and academic research on e-counselingMany topics are disussed inter active-Part 1: Definition & theoretical, academic basicsPart 2: e-counseling mediaPart 3: Methods and Use casesPart 4: Empirical experience
Presentation, Discussions, Team work, Case studies
Lector: Valentin Ritschl, MSc MSc, Agnes Sturma, BSc MSc, Dipl.-Ing. Mag. Franz Werner
- Presentation of the current status and of parts of the master thesis- Special questions regarding data gathering and analyses- Publication counselling and information regarding technical developments including patents and open source licenses- Critical appraisal, reflection and defense of the own methods and of the those of colleagues- Discussion of scientific methods- Journal Club
Active participation in tasks
Individual feedback, presentations, case studies, discussions in small groups and in plenum, self-reflection
Semester dates Winter semester: 1st September 2016 to 31st January 2017Summer semester: 13th February to 10th July 2017
Number of teaching weeks5 per semester; six to seven blocks per term, each whole-time from Wednesday to Saturday
Language of instruction German
This degree program will, as one of few trained experts, position you at the intersection of technology and health. You will support people in their daily life with the aid of technology-assisted diagnosis and therapy systems. You will also learn to apply systems to structure environments to enable disadvantaged people such as the elderly or people with dementia to remain active in their personal environment and also in public. Knowledge of Information Technology and Electronics combined with knowledge on Health Assisting Engineering leads to results oriented exclusively towards the needs of the user. Based on this special focus, the Master's degree program opens up numerous career opportunities such as product developer or manager, consultant, trainer, degree program compiler or coordinator, project manager or scientist, advanced clinical practitioner or hardware/software developer.
To apply you will require the following documents:
Please noteIt is not possible to save incomplete online applications. Your application must be completed in one session. Your application will be valid as soon as you upload all of the required documents and certificates. In the event that some documents (e.g. references) are not available at the time you apply, you may submit these later via e-mail, mail or in person by no later than the start of the degree program.
Equivalence is determined by international agreements, validation or in individual cases a decision by the head of the academic section.
The selection process includes a Single Choice Test (approx. 15 minutes). The selection process takes place annually in May and June. The secretary's office will notify you of the exact date. Alternative dates for the selection procedure are possible only by individual agreement via e-mail.
First semester students in technical or structural engineering degree programs have the opportunity of attending special refresher and preparatory courses pertinent to their degree program in subjects such as mathematics, physics, English, electronics, C programming etc. This will facilitate entry into the FH degree program and ensure your success in important degree program subjects.
Dates and registration
Experience shows that many questions arise during the application phase and the start of the degree program. We therefore propose that interested persons and applicants should network with higher semester students in the same degree program as theirs. Personal and individual contact with your buddy should facilitate your entry into the degree program.
To the Buddy network
Head of Degree Program Health Assisting Engineering T: +43 1 606 68 77-4381 firstname.lastname@example.org
Occupational Therapist, Academic Staff
Head of Degree Program Health Assisting Engineering
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