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Difference between revisions of "Improved Reacquisition for the 5G Cellular IoT"

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[[File:1-LTE-M-1-e-DRX-Mode-Power-Graph-1024x659.jpg|600px|thumb|LTE Cat-M1 Power Consumption over time in discontinuous reception [2].]]
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[[File:1-LTE-M-1-e-DRX-Mode-Power-Graph-1024x659.jpg|600px|thumb|LTE Cat-M1 Power Consumption over time in discontinuous reception [1].]]
  
 
== Introduction ==
 
== Introduction ==
  
Cellular standards and networks have traditionally been optimized for the high throughput requirements of modern smartphones. Recently the Internet of Things (IoT) has emerged as a new application with vastly different requirements. Ericsson predicts, that there will be 15 billion smart devices with Internet connectivity. Potential applications include smart metering, tracking in logistics, environmental sensing, and smart buildings. Two new variants of LTE have been standardized to fulfill the 5G requirements for these devices: LTE Cat-M1 (eMTC) and NB-IoT. They both offer reduced cost and power consumption, as well as improved coverage, but Cat-M1 supports more features and has a higher maximum throughput. As part of our communication platform, we are currently developing a modem, which supports both standards, at IIS.
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LTE Cat-M1 (eMTC) is a 5G cellular standard optimized for low power consumption and low cost. It is aimed at the Internet of Things (IoT) where battery lifetimes of up to 10 years are required for some applications.
 
 
== Project Description==
 
  
 
To conserve energy, cellular devices try to minimize the time they actively receive data from the network. Even when they are 'connected' they only receive at certain pre-defined moments (paging occasions) and are in stand-by most of the time. The range between these moments can range from milliseconds to multiple minutes for low-power operation.
 
To conserve energy, cellular devices try to minimize the time they actively receive data from the network. Even when they are 'connected' they only receive at certain pre-defined moments (paging occasions) and are in stand-by most of the time. The range between these moments can range from milliseconds to multiple minutes for low-power operation.
  
To further improve the energy-efficiency, new signals have been proposed for the upcoming Release 15. They try to reduce the amount of time spent receiving at each of these paging occasions.  
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To further improve the energy-efficiency, new signals have been proposed in Release 15. They try to reduce the amount of time spent receiving at each of these paging occasions.  
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== Project Description==
  
 
During this thesis, you will study the benefit of using these signals using our existing LTE Matlab framework. In a second step, you will investigate efficient algorithms and architectures to process them and implement them for our IoT Modem.  
 
During this thesis, you will study the benefit of using these signals using our existing LTE Matlab framework. In a second step, you will investigate efficient algorithms and architectures to process them and implement them for our IoT Modem.  
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== References ==  
 
== References ==  
  
[1] 3GPP. Release 13. http://www.3gpp.org/release-13, 2016.
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[1] Image: industryeurope.com, 2018
 
 
[2] Image: industryeurope.com, 2018
 
  
  

Latest revision as of 11:14, 15 January 2019

LTE Cat-M1 Power Consumption over time in discontinuous reception [1].

Introduction

LTE Cat-M1 (eMTC) is a 5G cellular standard optimized for low power consumption and low cost. It is aimed at the Internet of Things (IoT) where battery lifetimes of up to 10 years are required for some applications.

To conserve energy, cellular devices try to minimize the time they actively receive data from the network. Even when they are 'connected' they only receive at certain pre-defined moments (paging occasions) and are in stand-by most of the time. The range between these moments can range from milliseconds to multiple minutes for low-power operation.

To further improve the energy-efficiency, new signals have been proposed in Release 15. They try to reduce the amount of time spent receiving at each of these paging occasions.

Project Description

During this thesis, you will study the benefit of using these signals using our existing LTE Matlab framework. In a second step, you will investigate efficient algorithms and architectures to process them and implement them for our IoT Modem.

Status: Available

Looking for 1-2 Semester/Master students
Contact: Stefan Lippuner

Prerequisites

An interest in wireless communication and signal processing
Matlab programming experience
VHDL experience for a hardware implementation (VLSI I lecture)

Professor

Qiuting Huang

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Related Projects

RF SoCs for the Internet of Things

References

[1] Image: industryeurope.com, 2018


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