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During your project you will look at the proposal in detail and evaluate its performance in comparison to state-of-the-art solutions. For this you can use our existing NB-IoT Matlab simulation framework as a starting point. One key aspect will be the complexity comparison with our existing implementation. Depending on the length of your thesis and your interests you can also run tests on our RF SoC development platform.
 
During your project you will look at the proposal in detail and evaluate its performance in comparison to state-of-the-art solutions. For this you can use our existing NB-IoT Matlab simulation framework as a starting point. One key aspect will be the complexity comparison with our existing implementation. Depending on the length of your thesis and your interests you can also run tests on our RF SoC development platform.
  
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===Status: Available ===
 
===Status: Available ===
: Looking for 1-2 Semester/Master students
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: Looking for 1-2 Bachelor/Semester/Master students (flexible scope of project)
 
: Contact: [[:User:Lstefan | Stefan Lippuner]]
 
: Contact: [[:User:Lstefan | Stefan Lippuner]]
 
===Prerequisites===
 
===Prerequisites===
 
: An interest in wireless communication and signal processing
 
: An interest in wireless communication and signal processing
 
: Matlab programming experience is helpful
 
: Matlab programming experience is helpful
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===Status: Completed ===
 
===Status: Completed ===
: Fall Semester 2014 (sem13h2)
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: Student: Luca Iten
: Matthias Baer, Renzo Andri
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: Supervision: [[:User:Lstefan | Stefan Lippuner]]
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===Status: In Progress ===
 
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== Related Projects==
 
== Related Projects==
[[RF SoCs for the Internet of Things]]
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[[Wireless Communication Systems for the IoT]]
  
 
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Latest revision as of 09:51, 5 April 2022

Correlation properties of the new (left) and old (right) waveforms. Source: [1].


Introduction

In 5G cellular standards known synchronization waveforms are used by the modem to detect the presence of a basestation. The modem needs to perform a 2D sweep of cross-correlations, which is one of the most computationally expensive tasks in an IoT modem. Recently, a new kind of synchronization waveforms has been proposed to reduce the complexity to a 1D sweep using a clever trick [1].

Project Description

During your project you will look at the proposal in detail and evaluate its performance in comparison to state-of-the-art solutions. For this you can use our existing NB-IoT Matlab simulation framework as a starting point. One key aspect will be the complexity comparison with our existing implementation. Depending on the length of your thesis and your interests you can also run tests on our RF SoC development platform.

Status: Completed

Student: Luca Iten
Supervision: Stefan Lippuner

Character

50% Theory, Algorithms and Simulation
50% Embedded C / VHDL for an implementation on our platform


Professor

Qiuting Huang

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Related Projects

Wireless Communication Systems for the IoT

References

[1] | J. Zhang, M. M. Wang and T. Xia, "Practical Synchronization Waveform for Massive Machine-Type Communications," in IEEE Transactions on Communications, vol. 67, no. 2, pp. 1467-1479, Feb. 2019.

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https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=8486954