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Department of Computer Science and Electrical Engineering.

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Presentation on theme: "Department of Computer Science and Electrical Engineering."— Presentation transcript:

1 Department of Computer Science and Electrical Engineering

2  Employees: 100  Students: 800 Master degree  Turnover: EUR 9 million  8 research topics Turnover Education 20% Research 80%

3 CSEE – education  Undergraduate education in - Computer Science and Electronics - Engineering Physics and Electri cal Engineering  Master programmes with a Major in Computer science an engineering  Master programmes with a Major in Electrical engineering  ~ 70 courses  Post-graduate Education ~55 PhD students  Interdisciplinary Program, Arena media music and technology

4  Automatic Control  Computer Communication  Computer Engineering  Computer Science  Industrial Electronics  Media Technology  Medical Technology  Signal Processing CSEE Research subjects

5  Process IT Innovation  EISLAB, Embedded Internet Systems LAB  CDT, Centre for Distance-spanning Technology  CDH, Centre for Distance-Spanning Healthcare  HLRC, Hjalmar Lundbohm Research Centre  CASTT, Centre for automotive system technologies and testing CSEE industrial co-operation through six centres :

6 CSEE research profile Computers in physical systems - mirrors the Departments multidisciplinary research activities in the areas of  Electronic systems sensing.  Signal processing.  Interaction with physical systems.

7 CSEE research profile cover a chain from  Modelling and simulation of a physical system to sensing.  Sensing physical system.  Electronic system development.  Signal processing.  Computer communications and algorithmic development.  Control engineering.  Man-machine interaction.

8 CSEE Biomedical engineering The scientific research will be in the area of biomedical engineering with focus on application of sensors, signal processing, image processing and biomechanics.

9 CSEE Computer Science research focus  Communication architectures.  Resource reservation.  Queuing strategies.  Routing and wireless networking protocols.  Algorithms for knowledge management and alternate architectures.  Computational geometry.  Information visualization.  User interfaces for mixed reality.  Usability of mobile device.

10 CSEE Computer Network research focus  Packet-switched networks including Internet technology.  Next generation cellular mobile systems.  Mobile ad-hoc networks.  Wireless sensor- and delay-/disruption-tolerant- networks.

11 CSEE EISLAB Embedded Internet System Laboratory research focus  EIS architechture. Methodologies, tools, and realizations of Embedded Internet Systems  Embedded EMC Simulation and experimental methods for electromagnetic problems  Mixed Mode Design. Analog and mixed signal ASIC design for sensor systems  Sensor Systems. Sensing using ultrasonic and optical methods

12 EIS Architecture  Hardware that target ambient intelligence; smart sensing and actuating environments Small size (< 1 cm3) and low cost (< 10 USD) Ad-hoc Internet connectivity using standardized protocols Extreme low-power for battery powered operation  Software for reactive systems - TIMBER Tools and methodologies for system/component characterization Tools for program analysis towards low-power optimization Effective use of low-power modes Use resources only when needed – saves power

13 Electromagnetic modeling  Partial Equivalent Electrical Circuit (PEEC) method  Description of electromagnetic behaviour with electrical circuits Allows the combined modeling of electric functionality and electromagnetic effects  Extensive international cooperation IBM T. J. Watson Research Center, NY, USA, University of L’Aquila EMC Laboratory, It.  Applications within microelectronics, antenna analysis, and power distributions systems.

14 Mixed Mode Design  On-chip analog and digital electronics design Targeting low-power sensor front ends  Application to ultrasound system Excitation, amplification, and A/D conversion On-chip high voltage generation  EISCAT – space radar development Antenna front end design for array antenna Low noise, high time stability  Sensor design ASIC mounted on ultrasonic transducer Low-power, minimal size

15 Sensor systems  Density and flow measurement Ultrasonic methods to measure flow and density of materials  Characterization with ultrasound Measurement of gas energy content with ultrasound Detecting cracks, defects, and estimate setting of ceramic materials Evaluation of paper pulp fiber suspensions with ultrasound  District heating Improving accuracy of district heating terminals  Non-contact measurement of thin lubricant films Optical interferometric method to measure thickness of lubricants

16 CSEE Media Technology research focus  Mobility (wireless networks and adaptation).  Pervasive computing.  Context-aware systems.  Distributed real-time systems (human real-time communication & networked media applications )

17 CSEE Automatic Control research focus  Model-based fault detection.  Dynamics and control of electro-mechanical systems.  Multivariable process control.  Soft sensors.  Non-linear state and parameter estimation.

18 CSEE Signal processing research focus  Parameter estimation  Digital receivers with low complexity  Multiresolution communications.  Communications systems with graceful degradation.  Adaptive algorithms for digital receivers.  Transient signals in ultrasound.


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