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Difference between revisions of "Synchronisation and Cyclic Prefix Handling For LTE Testbed"

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FFT computation shall be implemented and tested.
FFT computation shall be implemented and tested.
===Status: In Progress ===
===Status: Completed ===
: Student: Maheshwara Sharma (sem15f10)
: Student: Maheshwara Sharma (sem15f10)
: Supervision: [[:User:Weberbe|Benjamin Weber]], [[:User:Kroell|Harald Kröll]]
: Supervision: [[:User:Weberbe|Benjamin Weber]], [[:User:Kroell|Harald Kröll]]

Revision as of 17:26, 17 December 2015

Small footprint and low power nodes are indispensable for the billion devices Internet-of-Things.


By the end of the decade billions so called Internet-of-Things (IoT) devices will be connected to the Internet. IoT nodes can range from electrical energy meters to tiny positioning nodes connected to a cellular network. In particular the latter require low power consumption and low footprint. To this end, the 3GPP standardization committee specified a new user equipment category (Cat-0) for low complexity IoT devices in release 12 [1]. The low complexity is achieved by single receive antenna and 1.4 MHz bandwidth requirements. A further bandwidth reduction down to 200 kHz may be considered for release 13 [2].

Project Description

In this project, the base for the development for an LTE release 12 and release 13 based IoT module shall be established. A commercially available LTE RF transceiver can be used to extract baseband I/Q samples onto an FPGA testbed. Preliminary synchronization as well as FFT computation shall be implemented and tested.

Status: Completed

Student: Maheshwara Sharma (sem15f10)
Supervision: Benjamin Weber, Harald Kröll


Qiuting Huang


[1] 3GPP. Release 12., 2015.

[2] 3GPP. Release 13., 2016.