Master - Studies Phases
- Specialized Studies Phase
- Application-Oriented Studies
- General Studies
- Master's Thesis
|The specialized studies phase equips
students with specialized knowledge in computer science. It builds on
the foundations laid during the Bachelor’s programme, extending and
further developing the knowledge and skills acquired there. During
this phase, students select a specialty area, from which the subject
of the Master’s thesis should also be taken. The specialty areas in
the Master’s programme are geared to the challenges facing computer
science as a discipline in the coming decades. Four specialty areas
are offered: |
|Even before the emergence of the Internet, mastering
the complexity of IT systems was a major challenge. The interplay of
concurrent hardware and software processes and the resulting enormous
state space has preoccupied computer scientists for decades.
Hierarchization, layering, decentralization, modularization, object,
aspect and service orientation and component-basedness are concepts
characterizing the approaches to mastering complexity. A number of
calculi, methods, languages and tools have been developed to automate
or at least support the design process. And yet we have to admit that
the complexity of the systems we use is growing faster than our
ability to master it – and this applies all the more as previously
isolated systems are networked ever more closely.|
This specialty area comprises modules dealing with the design of systems of masterable complexity from different perspectives of computer science.
Individual topics are: distributed/parallel systems, software engineering, programming languages and systems, component technology, model-driven development, grid computing, peer-to-peer systems, performance analysis/modelling, computer architecture and computer technology.
|The more information
technology penetrates our everyday lives, the more dependent we become
on the smooth functioning of its systems. Incorrect or incomplete
specifications, programming and user errors, exploitable weaknesses,
delays and failures can cause malfunctions, sometimes with disastrous
consequences. The specialty area addresses the question: How can we
build systems that are safer and more reliable than those currently
Individual topics are: safety and security, reliability, fault tolerance, real-time behaviour, specification, correctness, verification, testing, model building.
|A classical computer science subject is the
automatic processing of information with the long-term goal of
developing “intelligent” machines capable of perception,
association, assessment and decision-making. Technical systems with
these capabilities are used to support, relieve and sometimes even
replace humans being in their work.|
The relationship between humans and computers is thus not just a question of user interface design but also a matter of responsibility. To what extent do human beings remain a crucial and integral part of the resulting causal chains and to what extent are they bypassed? How do we shape a world in which humans are excluded from many processes because they are too slow or because we wish to avoid bothering them or because machines are better at keeping track of things?
The specialty area deals with technologies that raise these questions and also attempts to illuminate their social, economic, legal, ethical and political dimensions.
Individual topics are: information systems, data mining, statistical methods, artificial intelligence, neural computing, visualization, image processing, voice processing, robotics, autonomous systems, human-computer interaction, expert systems, agent technology, ambient intelligence, computer science and society, information law and the ethical responsibility of the engineer.
|The growing integration of
information and communication technology is producing a multitude of
new services and applications. Providing such services and
applications via a large number heterogeneous media – any time, any
place, wired or wireless and tailored to the user’s current needs
– requires an integrated approach bringing together a large number
of research areas that were previously considered separately. The
specialty area Communication-Based Systems therefore encompasses all
layers that help provide new types of I+C applications, from
communications to different protocols for specific media and network
types to integrating middleware layers and corresponding applications.
This also includes tools for designing and modelling such systems.|
Individual topics are: signal processing, coding, protocols, mobile communications, ad hoc networks, sensor networks, Internet technology, middleware, multimedia, network security.
Students are expected to continue studying their application-oriented subject from the Bachelor’s programme. The same standard subjects are offered.
|This section of the programme
is intended to give students a broader scientific education and enable
them to acquire other knowledge that will be useful in their future
careers or for their academic qualification. The modules can be chosen
freely from the courses offered by universities in Berlin and
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|To complete the programme, students are required to write
a Master’s thesis demonstrating their ability to successfully apply
the scientific methods of their field of study to a concrete problem.
They have a period of six months to complete the thesis (full-time).
In addition to submitting the written thesis, students are required to
given an oral defence of their work, which all Faculty members may
attend. Master’s theses are generally integrated into the groups’
research projects. Affiliated research institutes also offer
attractive topics of relevance to current research. |
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