Ofertes per marxar el quadrimestre de primavera de 2018

A continuació trobareu un llistat d'empreses i institucions que ofereixen projectes a l'ETSETB i que gestiona l'escola, orientades per marxar el quadrimestre de primavera de 2018. Quan demaneu una plaça a través del correu electrònic students.mobility@etsetb.upc.edu, ho haureu de fer en referència al codi que surt a la taula.

Austria

AIT–AUSTRIAN INSTITUTE OF TECHNOLOGY, Viena

Empresa AIT–AUSTRIAN INSTITUTE OF TECHNOLOGY
Projecte

Distance Bounding Protocols for Wireless Vehicular Communications

Codi A AITWien_1-S_18
Estudis Màster
Tipus d'estada TFM
Descripció

Context

AIT is Austria's largest Research and Technology Organisation and an international player in the research areas that we cover.This makes us a leading development partner for industry and a top employer in the scientific community. Applications are invited for a:


Master Thesis Distance Bounding Protocols for Wireless Vehicular Communications


Hosting Laboratory:
- Design of a secure wireless communication link that allows communication only in a predefined range (distance bounding).
- Literature research on existing distance bounding protocols and their suitability for wireless vehicular communications.
- Implementation and simulation of a suitable distance bounding protocol in an existing 802.11p link-‐level simulator.
- Proposal and implementation of a real­‐time distance­‐bounding concepts for a software defined radio architecture.

Inici ASAP
Durada 6 months
Nombre de places 1
Localització AIT, Austrian Institute of Technology
Donau-­City-­Straße 1, 1220 Vienna-­Austria
Requisits - Student of master’s degree in electrical engineering, telecommunication engineering, computer science or related field.
- Solid knowledge in digital signal processing and the description of linear time-­variant systems, Matlab and LabView is a plus.
- Very good knowledge of either German or English (fluent in spoken and written).
- Ability to integrate in a multinational research team.
Compensació EUR 680,55 gross per month for 20 hours/week based on the collective agreement (Forschungs-­‐KVJ)
Data de publicació 4/10/2017

Empresa AIT–AUSTRIAN INSTITUTE OF TECHNOLOGY
Projecte

Frequency­‐Hopping Parameter Estimation for Unmanned Aerial Vehicle(UAV) Radio Links

Codi A AITWien_4-S_18
Estudis Màster
Tipus d'estada TFM
Descripció

Context

AIT is Austria's largest Research and Technology Organisation and an international player in the research areas that we cover.This makes us a leading development partner for industry and a top employer in the scientific community. Applications are invited for a:


Master Thesis Frequency­‐Hopping Parameter Estimation for Unmanned Aerial Vehicle(UAV) Radio Links


Hosting Laboratory:
- Design a software­‐defined­‐radio system that is able to identify the unknown parameter of an UAV radio communication link.
- Literature Research on principal methods for frequency­‐hopping parameter estimation.
- Measure unknown UAV frequency hopping spread spectrum [FHSS] modulated downlink signal with a state­‐of‐the­‐art­‐software defined radio testbed.
- Implementation of a suitable parameter estimation method in Matlab/Phyton/LabView.
- Validation of the implementation in a real‐world scenario.

Inici ASAP
Durada 6 months
Nombre de places 1
Localització AIT, Austrian Institute of Technology
Donau­‐City-­‐Straße 1, 1220 Vienna-­Austria
Requisits - Student of master's degree in electrical engineering, telecommunication engineering, computer science or related field.
- Solid knowledge in digital signal processing, the description of linear time-­variant systems and modular formats.
- Good knowledge of either Matlab, Phyton or LabView.
- Very good knowledge of either German or English [fluent in spoken and written].
- Matlab and LabView knowledge is an advantage.
- Ability to integrate in a multinational research team.
Compensació EUR 680,55 gross per month for 20 hours/week based on the collective agreement (Forschungs-­‐KVJ)
Data de publicació 4/10/2017

Empresa AIT–AUSTRIAN INSTITUTE OF TECHNOLOGY
Projecte

V2X Geometry-based Stochastic Channel Model (GSCM) Creation and Validation

Codi A AITWien_5-S_18
Estudis Màster
Tipus d'estada TFM
Descripció

Context

AIT is Austria's largest Research and Technology Organisation and an international player in the research areas that we cover.This makes us a leading development partner for industry and a top employer in the scientific community.Their Center for Digital Safety & Security is seeking to hire a new Ingenous Partner for their location in Vienna. Applications are invited for a:


Master Thesis "V2X Geometry-based Stochastic Channel Model (GSCM) Creation and Validation"


Description:
- You will create a geometry-based stochastic channel model in MATLAB that will reproduce by simulation the channel impulse responses observed in real-world vehicular radio channels.

- You will perform a literature research on radio channel modelling techniques currently used for vehicular communication.

- You will identifythe relevant parameters to be included in a GSCM based on available measurement data.

- You will implemented and extend the current GSCM based on the parametrized data.

- You will validate the channel model using meaningful metrics (e.g. Delay Spread and Doppler Spread)

Inici ASAP
Durada 6 months
Nombre de places 1
Localització AIT, Austrian Institute of Technology
Donau­‐City­‐Straße 1, 1220 Vienna-­Austria
Requisits

- Academic studies of electrical engineering, telecommunication engineering, computer science or similar

- Solid know-how in digital signal processing, the description of linear systems and modulation forms

- Good knowledge in of MATLAB, desirable C/C++

- Ability to integrate in a multinational research team

- Very good knowledge of either German or English (fluent in spoken and written)

Compensació EUR 697,69 gross per month for 20 hours/week based on the collective agreement (Forschungs-­‐KV)
Data de publicació 1/02/2018

Empresa AIT–AUSTRIAN INSTITUTE OF TECHNOLOGY
Projecte

High Speed Ray-Tracing on Graphic Cards

Codi A AITWien_6-S_18
Estudis Màster
Tipus d'estada TFM
Descripció

Context

AIT is Austria's largest Research and Technology Organisation and an international player in the research areas that we cover.This makes us a leading development partner for industry and a top employer in the scientific community.Their Center for Digital Safety & Security is seeking to hire a new Ingenous Partner for their location in Vienna. Applications are invited for a:


Master Thesis "High Speed Ray-Tracing on Graphic Cards"


Ray tracing is an important tool for 5G channel modelling for both mm-Wave high bitrate links as well as ultra-reliable low-latency communications (URLLC). The accuracy of ray tracing comes at high computational complexity


Description:
- You use modern GPU techniques to achieve a fast implementation.

- You translate the MATLAB code of an existing ray-tracing tool into a GPU, C or C++ environment in order to significantly reduce the simulation time.

- You validate the implementation by comparison with measurements of real-world radio propagation channels

Inici ASAP
Durada 6 months
Nombre de places 1
Localització AIT, Austrian Institute of Technology
Donau­‐City­‐Straße 1, 1220 Vienna-­Austria
Requisits

- Academic studies of electrical engineering, telecommunication engineering, computer science or similar

- Excellent know-how in digital signal processing, wireless radio channels and propagation mechanisms

- Good knowledge and experience with GPU programming, C or C++

- Very good knowledge of either German or English (fluent in spoken and written)
Compensació EUR 697,69 gross per month for 20 hours/week based on the collective agreement (Forschungs-­‐KV)
Data de publicació

1/02/2018

 

Empresa

AIT–AUSTRIAN INSTITUTE OF TECHNOLOGY

Projecte

Efficient Implementation of a Ray-Tracing Tool

Codi A AITWien_7-S_18
Estudis Màster
Tipus d'estada TFM
Descripció

Context

AIT is Austria's largest Research and Technology Organisation and an international player in the research areas that we cover.This makes us a leading development partner for industry and a top employer in the scientific community.Their Center for Digital Safety & Security is seeking to hire a new Ingenous Partner for their location in Vienna. Applications are invited for a:


Master Thesis "Efficient Implementation of a Ray-Tracing Tool"


Ray tracing is an important tool for 5G channel modelling for both mm-Wave high bitrate links as well as ultra-reliable low-latency communications (URLLC). In this master thesis the student will work on the AIT ray tracing tool adding new important features.


Description:
- Reduction of the computational complexity and simulation time needed for the construction of the reflection image-tree (e.g. inspired by techniques used in video game industry) without degradation of the prediction accuracy

- Improvement of the prediction accuracy of an existing ray-tracing simulation tool by including radio propagation mechanisms not yet included, e.g. multiple diffraction mechanisms

- Literature research on efficient image-tree construction and iterative multiple diffraction implementation in order to identify already existing solutions

- Validation of the implementation by comparison with measurements of real-world radio propagation channels

Inici ASAP
Durada 6 months
Nombre de places 1
Localització AIT, Austrian Institute of Technology
Donau­‐City­‐Straße 1, 1220 Vienna-­Austria
Requisits

- Academic studies of electrical engineering, telecommunication engineering, computer science or similar

- Excellent know-how in digital signal processing, wireless radio channels and propagation mechanisms

- Good knowledge and experience with MATLAB

- Very good knowledge of either German or English (fluent in spoken and written)
Compensació EUR 697,69 gross per month for 20 hours/week based on the collective agreement (Forschungs-­‐KV)
Data de publicació 1/02/2018

USA

Bell Laboratories (Alcatel-Lucent), New Jersey

Institut de recerca Bell Laboratories (Alcatel-Lucent), New Jersey, USA
Projecte

High Capacity Fiber-Optic Transmission Systems

Codi USA NokiaNJ_1-S_18
Estudis Bachelor or Master Students
Tipus d'estada TFG/TFM
Descripció

Context:

Bell Labs has helped weave the technological fabric of modern society. Since its founding in 1925, technology from Bell Labs has shaped the ways people live, work and play. Over the past 80 years, the Bell Labs R&D community has made seminal scientific discoveries, created powerful new technologies, and built the world's most advanced and reliable networks.


Project:
In 2010 the theoretical capacity limit of a single-mode fiber was found. The forecasted demand of data traffic will exhaust the capacity of the installed fiber plant by 2020. New fiber-optic designs are required in order to guarantee an efficient and sustainable increase in terms of cost and energy consumption for the following 30 years. Spatial division multiplexing in its two flavors, multi-mode and multi-core fibers, has become the new research paradigm. The scope of the project is to investigate on advanced transmission and detection techniques to exploit the capacity of the new optical fiber.

Inici February 2018 - February 2019
Durada 6-12 months (12 months preferable)
Nombre de places 1
Requisits Excellent academic records, good English knowledge, fiber-optic communications, digital communications, signal processing, VHDL programming, Matlab programming.
Compensació Indicative economic compensation of 1350 $/month (subject to student’s performance).
Localització 791 Holmdel-Keyport Rd., Holmdel, NJ 07733, USA
Data de publicació 25/10/2017

Alemanya

DLR - German Aerospace Center, Oberpfaffenhofen

Institut de recerca DLR - Institute of Communications and Navigation, Optical Communications Group
Projecte

Development of an optical ranging system

Codi D DLROber_1-S_18
Estudis Master Student
Tipus d'estada Internship / Master Thesis
Descripció

Introduction:


The optical communication group of DLR’s Institute of Communications and Navigation develop experimental laser communication systems for optical data links between airborne carriers such as airplanes or satellites and optical ground stations. The system development covers several disciplines such as optics, mechanics, electronics and programming. The successful applicant will support our team in the development of optical and optomechanical systems. Furthermore he/she will perform system tests and possibly will support the team during scientific measurement campaigns. It is an excellent opportunity to work in a cutting edge topic, gain experience on real optical hardware, and improve your engineering skills.


The subject offers several internship and Master Thesis topics like:


- Simulation and analysis of receiver schemes for optical ranging
- Receiver hardware and software design
- Distortion and channel analysis of the system and further development of post processing units with respect to the scenario requirements
- Design, implementation, verification and performance analysis of algorithms for the optical ranging
- Evaluation of measurements and analysis of the results in relation with the expected performance

Inici ASAP
Durada 6 months
Nombre de places 1
Requisits - Study direction of optical, electrical engineering or communications
- Experience with signal processing
- Programming in Matlab / Simulink
- Experience with electrical / optical measurement technology
Compensació
Localització Oberpfaffenhofen - DEUTSCHLAND
Data de publicació Data de publicació

Institut de recerca DLR - Institute of Communications and Navigation, Optical Communications Group
Projecte

Development of an optical ranging system

Codi D DLROber_2-S_18
Estudis Master Student
Tipus d'estada Internship / Master Thesis
Descripció

Introduction:


The optical communication group of DLR’s Institute of Communications and Navigation develop experimental laser communication systems for optical data links between airborne carriers such as airplanes or satellites and optical ground stations. The system development covers several disciplines such as optics, mechanics, electronics and programming. The successful applicant will support our team in the development of optical and optomechanical systems. Furthermore he/she will perform system tests and possibly will support the team during scientific measurement campaigns. It is an excellent opportunity to work in a cutting edge topic, gain experience on real optical hardware, and improve your engineering skills.


The subject offers several internship and Master Thesis topics like:


- Operation and analysis of adaptive optics systems for optical free space communication

- Design of adaptive optics control software

- Use of novel control schemes for adaptive optics in communication

Inici ASAP
Durada

6 month

Nombre de places 1
Requisits

- Study direction of control engineering

- Understanding of basic control theory

- Experience of programming in Python, Matlab or C

Compensació
Localització Oberpfaffenhofen - DEUTSCHLAND
Data de publicació 5/12/2017

Institut de recerca DLR - Institute of Communications and Navigation, Optical Communications Group
Projecte

Development of an optical ranging system

Codi D DLROber_3-S_18
Estudis Master Student
Tipus d'estada Internship / Master Thesis
Descripció

Introduction:


The optical communication group of DLR’s Institute of Communications and Navigation develop experimental laser communication systems for optical data links between airborne carriers such as airplanes or satellites and optical ground stations. The system development covers several disciplines such as optics, mechanics, electronics and programming. The successful applicant will support our team in the development of optical and optomechanical systems. Furthermore he/she will perform system tests and possibly will support the team during scientific measurement campaigns. It is an excellent opportunity to work in a cutting edge topic, gain experience on real optical hardware, and improve your engineering skills.


The subject offers several internship and Master Thesis topics like:


- Electronics design for mechatronics of the optical terminal

- Firmware and control design

- Measurement of external mechanical disturbances such as vibration or temperature drift in the optical terminal and development of potential compensation measures

- Integration of electronics, mechanics and optics

Inici ASAP
Durada 6 month
Nombre de places 1
Requisits

- Study direction of electrical engineering

- Practical experience with hardware development

- Usage of electronics CAD software (e.g. Altium)

- Programming of 32bit micro controllers in C

Compensació
Localització Oberpfaffenhofen - DEUTSCHLAND
Data de publicació 5/12/2017
Institut de recerca DLR - Institute of Communications and Navigation, Optical Communications Group
Projecte

Digital Coherent Transmission for free-space optical links

Codi D DLROber_5-S_18
Estudis Master Student
Tipus d'estada Internship / Master Thesis
Descripció

Introduction:


The optical communication group of DLR’s Institute of Communications and Navigation develop experimental laser communication systems for optical data links between airborne carriers such as airplanes or satellites and optical ground stations. The system development covers several disciplines such as optics, mechanics, electronics and programming. The successful applicant will support our team in the development of optical and optomechanical systems. Furthermore he/she will perform system tests and possibly will support the team during scientific measurement campaigns. It is an excellent opportunity to work in a cutting edge topic, gain experience on real optical hardware, and improve your engineering skills.


The subject offers several internship and Master Thesis topics like:


- Signal and channel analysis of the system and further development of post processing units with respect to the free-space scenario requirements
- Design, implementation, verification and performance analysis of coherent transmission schemes
- Measurements in realistic scenarios are expected.
- Evaluation of measurements and analysis of the results in relation with the expected performance
Inici ASAP
Durada 6 month
Nombre de places 1
Requisits - Study direction of optical, electrical engineering or communications
- Experience with digital signal processing
- Programming in Matlab / Simulink
- Experience with electrical / optical measurement technology
- Interest in free-space optics
- Programming in VHDL
Compensació
Localització Oberpfaffenhofen - DEUTSCHLAND
Data de publicació 5/12/2017