Testbed for Wireless Adaptive Signal Processing Systems - PowerPoint PPT Presentation

About This Presentation
Title:

Testbed for Wireless Adaptive Signal Processing Systems

Description:

Department of Measurement and Information Systems ... trec. TSend. tsamp_r. tsamp_i. t. t. Tloc2. tsend. Synchronization 4. t. t. t. Ts. T1_a. T1_b. T1_c ... – PowerPoint PPT presentation

Number of Views:34
Avg rating:3.0/5.0
Slides: 18
Provided by: dsp9
Category:

less

Transcript and Presenter's Notes

Title: Testbed for Wireless Adaptive Signal Processing Systems


1
Testbed for Wireless Adaptive Signal Processing
Systems
  • György Orosz, László Sujbert, Gábor Péceli
  • Department of Measurement and Information Systems
  • Budapest University of Technology and Economics,
    Hungary
  • Instrumentation and Measurement Technology
    Conference IMTC 2007
  • Warsaw, Poland, May 1-3, 2007

2
Wireless signal processing
  • Advantages of Wireless Sensor Networks (WSNs)
  • Easy to install
  • Flexible arrangement
  • Wireless signal processing
  • Difficulties of utilization of WSN
  • Data loss
  • Undeterministic data transfer
  • Limit of the network bandwidth
  • Purpose of the testbed
  • Considerations in the design
  • Hardware structure
  • Adequate application
  • Realistic demands
  • Exploits the resources

3
ANC as test application
  • Principles of Active Noise Control (ANC)
  • Why ANC?
  • Inherently MIMO systems plenty of sensors
  • Plant acoustic system
  • Scalable
  • Linear
  • Exist everywhere
  • Various algorithms
  • No HW modification
  • Comparability of structures
  • Easy to build and cheap
  • Identification characterization of signal path

4
System configuration
  • Plant to be controlled acoustic system
  • Noise sensing
  • Berkeley
  • micaz motes
  • Actuators
  • active loudspeakers
  • Gateway network ? DSP
  • Signal processing
  • DSP board
  • ADSP-21364 32 bit floating point
  • 8 analog output channels
  • 330 MHz
  • motes

microphone
5
Research fields related to the testbed
  • Signal processing adaptation to WSN
  • Synchronization
  • Data transmission
  • Effective algorithms
  • Data compression
  • Distributed signal processing

6
Results 1.
  • Implemented ANC algorithms
  • Synchronization algorithm in WSN
  • Principles of operation

active loudspeaker
DSP board
gateway mote
sensor mote
7
Results 2.
  • Deterministic network operation
  • Implicit synchronization messages
  • Synchronization with continuous data flow
  • No extra load for network

Network topology
8
Results 3.
Data transmission methods
  • Transmission of
  • row data
  • 1.8 kHz sampling frequency on the motes
  • Synchronization of WSN?DSP
  • LMS and observer based ANC algorithms
  • Bandwidth restriction about 2-3 sensors
  • Transformed domain
  • data transmission
  • 1.8 kHz sampling frequency on the motes
  • Transmission of Fourier-coefficients
  • Increased number of sensors8 sensors (expansion
    possible)

9
Conclusions
  • Platform for testing wireless systems
  • Application ANC
  • Components
  • Berkeley micaz motes
  • ADSP-21364 floating point DSP
  • Main difficulties
  • Data transmission
  • Synchronization
  • Some codes and technical details available at
  • http//home.mit.bme.hu/orosz/wireless

10
Future work
  • Improvement of the website
  • http//home.mit.bme.hu/orosz/wireless
  • Discover the limits of the system
  • Sensor network bandwidth limit
  • DSP computational and memory limits

11
(No Transcript)
12
Synchronization 1
  • Mechanism of the synchronization

13
Synchronization 2
  • Graph of the reception time of synchronization
    messages

14
Synchronization 3
  • Tdiff  ?tsend  TSend  Tloc2

15
Synchronization 4
16
Synchronization 5
  • Indirect proof for synchronization

17
Network timing
Write a Comment
User Comments (0)
About PowerShow.com