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Garrett Vanhoy, MaryPat Beaufait, Duyun Chen Advisor: Dr. Carl Dietrich.

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Presentation on theme: "Garrett Vanhoy, MaryPat Beaufait, Duyun Chen Advisor: Dr. Carl Dietrich."— Presentation transcript:

1 Garrett Vanhoy, MaryPat Beaufait, Duyun Chen Advisor: Dr. Carl Dietrich

2 What is Software-Defined Radio (SDR)? Any radio whose physical layer functionality is implemented in software Software Communications Architecture (SCA) is an open SDR standard OSSIE and GNU Radio Waveform development suites Waveform: a collection of components deployed on a given device to perform signal processing

3 Problem Statement OSSIE components are very high-level for easy waveform construction GNU Radio (GR) provides low-level components which are suited for specific DSP tasks OSSIE and GR: Intuitively complementary, but no direct interface Can we combine the advantages of both?

4 Development Tools Feature Comparison FeatureOSSIEGNU Radio (GR)Generic Component Project (GC) SCA-BasedXX GranularityCoarse (High-Level) Fine (Low-Level) Variable LatencyModerate/HighLowLow within component Distributed Waveform Support XX

5 Create an OSSIE generic component (GC) that can encapsulate GNU Radio blocks Support reconfiguration Be able to add or replace GNU Radio blocks during runtime as well as change their properties Provide an intuitive graphical interface for reconfiguration Enable automated control (e.g. cognitive engine) Reconfigure in near real time (<100 ms) 2 Goals

6 Project Methodology GNU Radio blocks Primarily in Python Only performance critical cores in C++ OSSIE components Standard components in C++ Option to generate Python components Plan Create a Python GC that could encapsulate one or more GNU Radio blocks Effectively combine the functionality of OSSIE and GNU Radio

7 Implementation of the GC The core of the GC is written in Python Data conversions to interface OSSIE and GR I/O GR Hierarchical blocks Higher level container for GR blocks Uniform I/O ports Readily interchangeable design GUI to enable intuitive user manipulation of the component’s infrastructure

8 Levels of the Generic Component

9 Generic Waveform … Components and processing can be distributed over multiple nodes

10 GC Structure

11 GCEngine Structure

12 Hierarchical Blocks

13 Wireless Body Area Network (WBAN) or BAN Quickly reconfigurable component ideal for health monitoring Possible adaptations if an anomaly is detected: Distributed waveform support allows for dynamically managing tradeoffs between processing and communication reliability Depiction of BAN, LAN, and WAN interaction 1

14 Common WBAN Devices and Their Specifications 2 WBAN Device Specifications

15 Demonstrations GUI Distributed Waveform

16 Overhead From Analysis and Reconfiguration

17 Further Work – GC Limitations We can only process one stream of data with current GC implementation GR top block must be restarted every time a packet of data flows through the component Individual components are not aware of what is going on in other components Input data types other than complexShort (integers) cannot be processed

18 Conclusions ✔ Created an OSSIE generic component (GC) that can encapsulate GNU Radio blocks ✔ Supported reconfiguration ✓ Able to add or replace GNU Radio blocks during runtime as well as change their properties ✔ Provided an intuitive graphical interface for reconfiguration ✔ Enabled automated control (e.g. cognitive engine) ✔ Reconfigured in near real time (<<100 ms) 2

19 Acknowledgements Dr. Carl Dietrich Dan DePoy Jeong-O Jeong OSSIE Team Dr. Tamal Bose Dr. Kay Thamvichai Dr. Tonya Smith-Jackson NSF

20 References for GC Implementation Python v2.7 Documentation: http://docs.python.org/http://docs.python.org/ wxPython Website: http://www.wxpython.org/http://www.wxpython.org/ wxPython Widgets Documentation: http://docs.wxwidgets.org/2.8.4/wx_contents.html http://docs.wxwidgets.org/2.8.4/wx_contents.html OSSIE Development Website and User Guide: http://ossie.wireless.vt.edu/ http://ossie.wireless.vt.edu/ GNU Radio Wiki: http://gnuradio.org/redmine/wiki/gnuradio http://gnuradio.org/redmine/wiki/gnuradio OSSIE and GNU Radio Live DVD from Dan Depoy

21 References for WBAN and Biological Signal Data MIT – BIH Database Distribution: http://ecg.mit.edu/http://ecg.mit.edu/ Physiologic Signals: http://www.physionet.org/http://www.physionet.org/ Matlab Files of Signals: http://www.physionet.org/cgi- bin/ATMhttp://www.physionet.org/cgi- bin/ATM

22 References for Presentation Diagrams 1. Monton, E.; Hernandez, J.F.; Blasco, J.M.; Herve, T.; Micallef, J.; Grech, I.; Brincat, A.; Traver, V.;, "Body area network for wireless patient monitoring," Communications, IET, vol.2, no.2, pp.215-222, February 2008 doi: 10.1049/iet-com:20070046 2. Patel, M.; Jianfeng Wang;, "Applications, challenges, and prospective in emerging body area networking technologies, " Wireless Communications, IEEE, vol.17, no.1, pp.80-88, February 2010 doi:10.1109/MWC.2010.5416354

23 Any Questions?

24 What is OSSIE? Open-Source SCA Implementation - Embedded OSSIE provides tools and components for waveform development, including distributed waveforms. What is GNU Radio? GNU Radio is a library of signal processing blocks GNU Radio is not chiefly a simulation tool, but rather a collection of low-level modules that can be manipulated to perform SDR tasks

25 Further Work Limitation: We can only process one stream of data with our implementation of the GC. Potential Solution: The GC can be modified to handle as many inputs as necessary if the same processing can be done on all streams. There is a GNU Radio module called “Vector to Stream” that could be used in conjunction with a function that senses the desired number of inputs to process. Limitation: The flowgraph must be restarted every time a packet of data flows through the component. Potential Solution: Make sure the component only reconfigures when its properties are changed by making the top block wait for data after it finishes processing.

26 Further Work Limitation: Individual components are not aware of what is going on in other components. Potential Solution: Add metadata input and output ports to the GC so that properties can be passed along components in a GW. Limitation: The input data type for the GC is currently complexShort (integers). Other data types cannot be processed. Potential Solution: GCEngine includes conversions from two short streams to two float streams, which is then converted to one complex stream. There are also reverse conversions for the output. Modify this slightly, replacing the first and last conversions involving short streams with the appropriate stream data type.

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