Open Theses
You may also contact one of our doctoral candidates directly, if you are interested in a Bachelor or Master thesis, a student job, an "Ingenieurspraxis" or a "Forschungspraxis". It often happens, that topics are being prepared which are not adverdised yet. It may also be possible to find a topic matching your specific interests.
Please include a curriculum vitae together with a list of attended courses when applying for a thesis.
If your "Ingenieurspraxis" is selected to be supervised by one of our professors, please hand in the documents to Doris Dorn (Room N2401).
Master/Diploma Theses
A Deterministic Approach to the Gaussian MultipleInput MultipleOutput (MIMO) Broadcast Channel  
Multiuser communication systems (such as wireless systems) are different than point to point channels in two key aspects; namely, the broadcast nature of transmissions (e.g., wireless transmissions can be picked up by any receiver in the vicinity of the transmitter) and the superposition (e.g., a wireless receiver picks up a linear combination of transmissions from all transmitters in its vicinity). Recently a deterministic approach to multiuser information theory has proved promising by achieving progress in some of the longstanding open problems by finding approximate solutions. The idea behind a deterministic approach, on a high level, is to focus on the interaction of signals rather than the background noise, through a simpler appropriate model; find exact solutions for the simpler model; and then translate the intuitions and techniques to new techniques and/or approximate solutions on noisy models. The goal of thesis is to undertake a deterministic approach to Gaussian MIMO broadcast channels. Prerequisite: Linear Algebra, Information Theory 

Supervisor: Shirin Saeedi 
Role of Feedback in Broadcasting  
This project intends to investigate the role of feedback in broadcast channels. More information available upon request.
Prerequisite (at least one of the following): Basic knowledge of Network Coding (see [2]) Basic knowledge of Algorithms Basic knowledge of Information Theory 

Supervisor: Shirin Saeedi 
Powerline Communication for industrial application  
Powerline Communication (PLC) is a well established technology for inbuilding data transmission. The HomePlug standard provides an easy to use interface. PLC is charackterized by modulation and coding schemes which ensure robustness against impuslsive noise and disruptions by the power transmission and transformation. Hence, the PLc becomes an interesting approach for industrial applications such as power charging stations for electrical cars or in the field of smart grid. This Master thesis shoudl analyze the PLC technology on the basis of the HomePlug Greenphy standard and its realization in todays chipsets. In particular, the optimization of the given PLC realizations for industrial use will be the focus of this work. This MAster thesis will be done in cooperation with Siemens AG Corporate Technology.  
Supervisor: Elisabeth Oberleithner 
Ingenieurspraxis
Weiterentwicklung des Netzwerkanalyse Tools mit Schwerpunkt auf Testcases  
Supervisor: Gerhard Kramer, Fa. Infineon Technologies AG, Neubiberg, Hr. B. Lippmann 
Open Student Jobs
Open tutor position for Communications Laboratory and Grundpraktikum der Nachrichtentechnik
For the laboratory "Grundpraktikum der Nachrichtentechnik" there are still vacant tutor positions. Requirements: Basic communications coursegood knowledge in communication systems ideally, former completion of the...[more]
Theses in Progress
Bachelor Theses
Ekin Alican Igdir: Cooperative Communication using Software Defined Radio  
Topic:
By using softwaredefined radio (SDR) equipments, the development of communication systems can be done totally in software. This allows quick prototyping of communication systems and testing them on real scenarios under real channel conditions. In our institute, we have SDR equipments that can be used for this purpose. The aim of this work is to build a communication systems to test and evaluate the performance of different relaying techniques. The tasks of the student can be listed as follows:


Supervisor: Onurcan İşcan 
Firat Beytemür: Implementation of a ADSB Receiver  
Automatic dependent surveillancebroadcast (ADSB) is a technology in which an aircraft determines its position via satellite navigation and periodically broadcasts it, enabling it to be tracked. In this work, the student should understand the basics of this technology and implements a receiver to decode ADSB signals. ADSB signals are transmitted over a carrier at 1090MHz with a bandwith of about 50kHz. These signals can be easily received with the softwaredefined radio (SDR) equipment we have at our institute and can be processed with standard computer equipment. The tasks for this work can be summarized as follows:


Supervisor: Onurcan İşcan, Andrei Nedelcu 
Arda Can Özensoy: How many cars can YOU park?  
Alfred Renyi wrote a curious paper in the late 1950s: He assumed an infinitely parking lane and placed cars, all equally long, randomly on this lane. He found out that you cannot even use 75% of the available parking space [1]! But I bet you can do better by a more realistic model: Assume cars are between 3 and 6 meters long, and assume that if a car arrives at the parking lane, it will take the first free parking slot (into which it fits). Cars arrive and leave randomly and independently. The first part of the Bachelor's project is to write a Matlab simulation and determine the efficiency of this parking scheme. Besides some knowledge in Matlab, for this task you should know a little bit about stochastic processes and random variables. The second part involves a literature survey, where you shall find out how this parking/packing problem connects with communications engineering (e.g., code design, communication networks, etc.). [1]: Renyi's Parking Constant on Wolfram Mathworld (with illustration) 

Supervisor: Bernhard Geiger 
Hiba Arnout: Implementation of an Efficient Lumping Algorithm  
In 2003, Derisavi, Hermanns, and Sanders proposed an efficient algorithm to detect the coarsest partition of the state space, w.r.t. which a given Markov chain is lumpable. The algorithm is based on splitting a set of states which violates the conditions for lumpability into sets which satisfy them; it is shown to have a computational complexity of O(m log n), where n is the number of states of the Markov chain and m the number of transitions (i.e., the number of nonzero entries of its transition probabilities matrix). The task of the project is to implement this algorithm in a modular way, such that the condition for lumpability can be exchanged by either informationtheoretic criteria or by criteria for quasilumpability. Finally, a series of experiments should verify the functionality of the algorithm and assess whether a this splitting method can effectively detect a quasilumpable partition. 

Supervisor: Bernhard Geiger 
Stephanie Dangl: A SoftInformation Model for Random Linear Network Coding  
Random Linear Network Coding (RLNC) is a powerful approach to achieve the capacity in multicast networks. Subspace codes are an efficient family of error correction codes in RLNC. The idea behind these codes is to map information on a subspace and to transmit a basis for this subspace. In this thesis, a model incorporating softinformation (reliability information) of the received packets (basis vectors) using a linear inner code is considered. First the student should become familiar with linear block codes (e.g BCH, ReedSolomon codes), concatenated coding schemes and the basics of Generalized Minimum Distance (GMD) decoding. In the next step, suitable inner codes to acquire the reliability information of the received packets should be chosen and implemented in MATLAB. The performance of the coding schemes should be evaluated and compared by performing simulations in MATLAB.  
Supervisor: Hannes Bartz, Dr. Vladimir Sidorenko 
Franziska Pöller: Hybrid Beamforming  
Supervisor: Stefan Dierks, Markus Jäger 
Master/Diploma Theses
Martinez Laura Pastor: SDR based experimental setup for evaluating system performance with QAM and differential PSK  
The purpose of this thesis is the application of Software Defined Radio (SDR) as an experimental environment for investigating the performance of various modulation schmemes. Besides, this work should provide an insight into the possibilities SDR offers and its application, not only in an educational but also in the research context.  
Supervisor: Elisabeth Oberleithner 
Tobias Fülle: Preamble Detection on NCOFDM for Dynamic Synchronization  
Within a public subsidized research project called COUWBAT, the student will develop a combined ultrawide band and cognitive radio HWTransceiver to increase the spectrum efficiency and data rates through the utilization of the socalled white spaces for secondary users. Therefore, the NCOFDM method will be applied to switch certain subcarriers on and off. Later on, evaluation of FilterBank Multicarrier (FBMC) is aimed to take place.  
Supervisor: Onur Günlü, M. Sc. Manuel Sáez Rodríguez (AED Engineering) 
Zhaoqi Zhu: Preamblebased Channel Estimation in Coherent Spatial Division Multiplexing OFDM Transmission System  
The robustness of the channel estimation is a key for coherent spatial division multiplexing OFDM transmission system. Timemultiplex(TM) preamble structure has been widely adopted in the polarisation division multiplexing OFDM transmission and in the scenario of spatial division multiplexing OFDM transmission supporting 3 spatial modes. When scaling to higher number of spatial modes, the TM based channel estimation introduces huge overhead and is sensitive to laser phase noise. Therefore, subcarrierorthogonal(SO) preamble structure is a potential candidate for channel estimation. In this work, the TM and SO preamblebased channel estimation will be investigated under the influence of laser phase noise, modedependent loss and strong/weak coupling regime of the few mode fiber.  
Supervisor: Yingkan Chen 
Stefan Thiel: Analysis of AM Demodulation in Speechbased Airborne Communications Under Multipath Propagation  
This master thesis is in cooperation with the radio communications department at Rohde&Schwarz. Airborne radio communication is based on Amplitude Modulation (AM). To use them with existing lowdirectivity antennas in airplanes, the effects of multipath propagation have to be considered. The student will investigate the channel effects on airborne communications (GroundAir, AirAir) and compare possible receiver designs. For this aim, realistic multipathpropagation scenarios will be defined for airborne communications. The models and the suggested designs will be tested with Matlab/Simulink. The student will evaluate the results and compare multiple techniques to improve communication quality.  
Supervisor: Onur Günlü, Dipl.Ing. Ludger Korsmeier and Dipl.Ing. Michael Gerth (Rohde&Schwarz) 
Li Chen: Aggregation Methods for Markov Chains  
The purpose of this thesis is to investigate state space aggregation methods using informationtheoretic cost function. The main cost functions investigated shall be the I(Y_1;Y_2) and H(Y_2Y_1)  H(Y_2X_1). The former, which should be maximized, is related to informationtheoretic clustering and to near complete decomposability of Markov chains. The latter, which should be minimized, is related to lumpability, the phenomenon of a function of a Markov chain being Markov. Both cost functions should be optimized over all possible partitions of the state space, which is a combinatorial problem. In order to reduce the computational complexity of the search, suboptimal aggregation methods shall be adopted from the literature: Agglomerative, sequential, or splitting methods shall be investigated. Furthermore, it is interesting to see if a relaxation of the cost functions admits the application of established algorithms, like the information bottleneck method. The aggregation methods shall be evaluated at the hand of a few examples, e.g., quasilumpable and nearly completely decomposable Markov chains, examples from natural language processing or synthetic biology, and the Ehrenfest diffusion model. 

Supervisor: Bernhard Geiger 
QIPING SHAO: OFDM and FBMC  
Supervisor: Patrick Schulte 
Peihong Yuan: Rateadaptive Coded Modulation for low SNRs  
Supervisor: Markus Stinner 
Anastasios Dimas: Peeling Decoding Analysis of Nonbinary LDPC Codes  
The performance of nonbinary LDPC (NBLDPC) codes on the binary erasure channel (BEC) is analyzed. Existing analysis tools of their binary counterparts are extended for NBLDPC codes. Therefore, the binary extension of the NBLDPC codes is constructed and its behaviour is investigated analytically.  
Supervisor: Markus Stinner 
Frank Löw: Identifikation, Development, and Simulation of Protocol Concepts for a BatteryDriven BackboneRouter  
The aim of this thesis is to develop lowpower protocols for a multihop backbone network in a wireless sensor network.  
Supervisor: Youlong Wu, Shirin Saeedi, Hekatron Vetriebs GmbH, Philipp Alber 
Ingenieurspraxis
Dominik Fienko: Integration BS2000 SE Serie in Enterprise System Management  
Supervisor: Gerhard Kramer, Fa. Fujitsu Technology Solutions, PDG ES S SWE 057, München 
Ömer Tan: Zusammenstellen einer Messtechnikapplikation aus Standard HW/SWKomponenten  
Supervisor: Gerhard Kramer, BMW Group München, Hr. E. Zerlach 
Martina Kiechle: Entwicklung eines Kapazitätsplanungstools und Erstellung einer SharePoint 2013 ShowCase Plattform  
Supervisor: Gerhard Kramer, Siemens AG, München, Hr. C. Riedelbauch 
Tamara Fiedler: Planung und Umsetzung von innovativen ARApps für alle BSHMarken  
Supervisor: Gerhard Kramer, Fa. BSH Bosch u. Siemens Hausgeräte GmbH, München, Hr. Clemens 
Mahmoud Marcam Helmy: Erstellung einer App für Smartphones der BITS mobile ERP Linie auf Basis von IOS Plattformen  
Supervisor: Gerhard Kramer, BITS better it solutions GmbH, Wallenmahd 47, A6850 Dornbirn 
Alexander Jesipow: Durchführung von manuellen und automatisierten Testprozeduren mit ALEXA und AMIRA Filmkameras  
Supervisor: Fa. ARRI,München, Hr. O. Gonschorekt 
Mohamed Salah Ben Slimen : SDR  Digital Modulation Real Time Receiver in Simulink  
Software Defined Radio is a relatively new concept in thinking and designing communications systems. What defines it is that almost all parts of a transciever (transmitter/receiver) are implemented as software modules on a general purpose computer, rather than on dedicated hardware. The radio frequency part of the receiver is thus also reconfigurable through software and will represent just an interface. Simulink is a graphical programming tool from Mathworks and is especially good for fast prototyping and simulating of complex systems. It provides many custom made software modules and light and easy way to set up graphical user interfaces. The purpose of this project is that following the principles of SDR radio and the facilities offered by Matlab/Simulink you could build a realtime receiver for DAB. DAB (Digital Audio Broadcasting) is a digital radio communication standard for broadcasting radio stations intended to replace the old fashioned AM and FM radio systems. Links:http://en.wikipedia.org/wiki/Softwaredefined_radio http://en.wikipedia.org/wiki/Digital_Audio_Broadcasting http://de.mathworks.com/products/simulink/ 

Supervisor: Andrei Nedelcu 
Nawel Attia: Nonlinear Error Correction Codes for Erasure Channels: Sudoku  
Supervisor: Patrick Schulte 
Lei Zhang: Optimierung und Qualitätssicherung des Vodafone GSM, UMTS und LTEMobilfunknetzes  
Supervisor: Norbert Hanik, Fa. Vodafon e GmbH, München, Hr. Quicel 
Hasan Yagiz Özkan: Image Tracking Algorithm Development  
Supervisor: Gerhard Kramer, Fa. Bases Teknoloji Arge Sanay, Hr. T. Cirak, Istanbul 
Forschungspraxis (12 ECTS)
Andreas Lang: Implementing the SplitStep Fourier Method  
The Nonlinear Schrödinger Equation (NLSE) is a nonlinear partial differential equation that describes the propagation of light in a nonlinear optical fiber. Since there is no closedform solution to the NLSE, numerical methods are used to approximately solve it. The most popular among these methods is the splitstep Fourier method (SSFM). The student’s task in this Forschungspraxis/Ingenieurspraxis is to implement the SSFM in MatlabEnabled C (mex) with CUDA support.  
Supervisor: Tobias Fehenberger 
Yuchen Wu: Using Information Theory to Quantify Sudoku Difficulty  
Sudoku games come in many difficulties; those with many clues are in general easier to solve than those with few clues. But is this a rule without exception? Or are there Sudokus with, say, 40 clues which are more complicated to solve than some Sudokus with 35 clues? If this is true, the number of clues is not a good measure of difficulty. Many other difficulty metrics depend on the runtime of a given solver, and hence depend on the implementation or the solving algorithm. In this Forschungspraxis, the following assumption is made: Sudokus are easy to solve if the clues are highly redundant. And redundancy can be measured (or estimated) using information theory (see [1] and the references therein). There are already first attempts at informationtheoretic difficulty ratings [2], and recently Sudoku puzzles have been considered as a method of coding for erasure channels [3]. The goal of this Forschungspraxis is to survey the existing literature, implement an informationtheoretic difficulty rating and compare it to other, existing algorithmbased difficulty ratings. In the ideal case you will even find a new method to rate Sudokus, or you might discover a strong connection between difficulty ratings and parameters of Sudoku codes. In any case, this is a Forschungspraxis you can talk about at a student's party! [1]: Griffith and Ho, "Quantifying Redundant Information in Predicting a Target Random Variable" [2]: When Sudoku come across Information Theory [3]: Atkins and Sayir, "Density Evolution for SUDOKU codes on the Erasure Channel" 

Supervisor: Bernhard Geiger, Ali Amjad 
Mustafa Cemil Coşkun: Staircase Codes for Optical Communications  
Staircase codes are a relatively new class of algebraic channel codes for highspeed optical communications. Their large coding gains and reasonable decoding complexity have made them a promising option for data rates of 100 Gbit/s and more. The student's task of this Forschungspraxis is to understand the concept of staircase codes and implement them in Matlab or C.  
Supervisor: Tobias Fehenberger, Georg Böcherer 