technological considerations for future wireless …power consumption: 100 mw operating life: 8...
TRANSCRIPT
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Technological Considerations for Future Wireless Video Capsule Endoscopy
Dr. Ilangko Balasingham
Head of Wireless Biomedical Sensor Network Research Group
Professor of Medical Signal Processing
Intervention Center, Oslo University Hospital, Oslo and
Department of Electronics and Telecommunications Norwegian University of Science & Technology, Trondheim
and Institute of Clinical Medicine, University of Oslo
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MELODY 2008 - 2017
http://www.melody-project.info
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Acknowledgement • Dr. Raul Chavez-Santiago, Dr. Pål Anders Floor, Dr. Anna
Kim, Dr. Babak Moussakhani, Dr. Hieu Nguyen, Dr. Ali Khaleghi, and Prof. Tor Ramstad from the MELODY project 2009-2017.
• Dr. S-E Hamran, Norwegian Defense Research Establishment
• Professor Dirk Plettemeier, Technical University of Dresden, Germany
• Professor J. Wang and Dr. D. Anzai, Nagoya Institute of Technology, Japan
• Dr. H-b Li and Dr. K. Takizawa, NICT, Japan
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Outline
• Technological challenges
• Wireless communications
• Localization and tracking (will talk if time permits)
• Source compression
• Anomaly detection – image processing
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Capsule video endoscopy
• Use for examination of gastrointestinal track for bleeding, inflammation, tumor, cancer, etc.
– ca. 15% of male and female above 50 years old are likely to get colorectal cancer
– early detection can cure or extend the life with a
few years – screening the entire population above 50 years!
• Fiber optic cable – problems to reach small intestine – huge discomfort for the patient!
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Capsule endoscopy
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Application Specific Technical Challenges
• Pathological relevant images - virtual biopsy
• High quality visual content – full HD video
• Location information of pathological changes in mm accuracy
• Remote control with navigation and tracking
• Therapy – drug delivery
• Better cleansing methods
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Current Specification
Size: 11 × 26 mm Transmission frequency: 402405 MHz Bandwidth: 300 kHz Data Rate: 800 kbps Image Rate: 2 to 10 fps Image Resolution: 256 × 256 pixels Power consumption: 100 mW Operating life: 8 hours
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The Interventional Centre
Part 1: A channel propagation model for capsule endoscopy with transceiver designs
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Required characteristics for improvement
• High data rate
73.8 Mbps for raw HD data
• Extremely low power consumption
On the order of 1 mW
• Circuitry simplicity/integrability
0.18 m CMOS technology
• Reduced physical dimension
11 mm × 26 mm2
• Electromagnetic radiation safety
SAR limits, overheating below 1 °C
Impulse Radio Ultra Wideband (IR-UWB)
Technology
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Frequency Bands
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Basic idea for channel modeling
H
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Electromagnetic simulation scenario (1)
0
H
–H
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Results (1): Power delay profile and RMS delay
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Model (1): Path loss as a function of
p, scaling constant
a, b, vectors with path loss fitting coefficients
N, a normal distributed random variable with mean and standard deviation
,sincos1
0 N
p
ib
p
iaaL i
I
i
idB
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In vivo Experiment
• Performed on three porcine subjects. Tx antenna placed within green borders
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Experiment cont’d • S-parameters measured with VNA
• Transmitter and receiver antennas:
in body on body
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Path-loss modelling
The Intervention Center
-A large spread in data. However, all experiments follow similar trend
-Curve shows best curvefitting (average response)
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Path-loss model
The Intervention Center
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Combining multiple antennas
The Intervention Center
• Multiple receiver antennas should be applied
• Have correlated channels with shadowing.
• Determine from experiment if gain with multiple antennas is possible on harsh medium
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Experiment: multiple antennas
The Intervention Center
• Applied two receiving antennas on the porcine subject simultaneously at distances 8, 5 and 3 cm
• Mutual coupling was acceptaly low in all cases
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Multiple antennas cont’d • Result:
• Gain is indeed possible. With more than 2 antennas gains in the order of atleast 6-7dB could be achieved.
The Intervention Center
Distance: 8 cm Distance: 5 cm Distance: 3 cm
0.18 dB (P1P6) 1.23 dB (P1P5E2) 2.09 dB
(P9P12E2)
0.16 dB (P1P4E2) 0.22 dB (P1P6E2) 1.1 dB (P1P7E2)
0.34 dB (P8P9) 1.67 dB
(P15P16E2)
1.98 dB (P1P8E2)
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Comparison:
Size: 11 × 26 mm Transmission frequency: 402405 MHz Bandwidth: 300 kHz Data Rate: 800 kbps Image Rate: 2 to 10 fps Image Resolution: 256 × 256 pixels Power consumption: 100 mW Operating life: 8 hours
Size: less than 11 × 26 mm Transmission frequency: 1063–3841 MHz Bandwidth: at least 500 MHz Data Rate: 80 Mbps Image Rate: 30 fps Image Resolution: 1920 × 1080 pixels Power consumption: estimated 1 mW Operating life: more than 8 hours
Possibility of smaller batteries Possibility of remote control
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Wireless Full HD Video Trasmission
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Part 2: Very Low Complexity and Low Rate Image Coding for the Wireless Endoscope
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Design Goals and Constraints
• Low rate low power video coding.
• Main constraints in terms of available power and physical size.
• A good compression algorithm should offer: – Satisfactory reconstructed image quality (35-
40dB PSNR).
– High compression ratio (>85%)
– Uses little power for processing.
– Does not require large memory storage.
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System Architecture
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Performance Evalution
CR: 97.3%. CPSNR 39.4dB
CR: 97.4%. CPSNR 38.5dB
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Video Examples - 1
original reconstruction from downsample rate 3
difference
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PSNR and Bit Rate Performance
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Video Examples -2
difference
reconstruction from downsample rate 3
original
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PSNR and Bit Rate Performance
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Part 3: Anomalies detection and viewing time reduction
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Problem
• To perform mass screening
– capsule video contains only clinically “relevant” information to reduce the viewing time
– important also the video contains location information for further reference
– should be able to perform analysis on partly “contaminated” video sequences
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Anomalies
• Bleeding
• Polyps
• Cancer tissues
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RGB Signals and Pathology
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Detection of microcirculation
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Example
Healthy
Unhealthy
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Future Electronic Pill Requirements for visualization and therapeutic procedures
Typical Size: 11 × 26 mm
Data Rate: >> 2 Mbps
Image Rate: At least 30 fps
Image Resolution: >> 1920 × 1080 pixels
Transmission frequency: > 1 GHz
Bandwidth: At least 20 MHz
Power consumption: At least 300 mW*
Operating life: > 8 hours
Wireless power transmission
Robotic locomotion mechanism
Magnetic control
EM/tomographical images
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Wireless In-Body Environment 2016 – 2019 MARIE SKŁODOWSKA-CURIE ACTIONS:ITN:2015
Leadless Pacemaker GI WCE Body Sensor Network Handheld Monitor
+
The project will study novel implantable sensors with wireless communication and power transfer interfaces for heart and gastrointestinal (GI) tract. The applications will be monitor and pacing the heart for resynchronization and detecting bleeding/cancer tissues in the GI tract. There will be 16 PhD fellows.
Partners: NTNU, Oslo University Hospital, SORIN Group France, ValoTec France, Technical University of Dresden Germany, Ovesco AG Germany, Universitat Politècnica de València Spain, and La Fe Hospital Spain.
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Norwegian University of Science and Technology and
Macquarie University
Joint PhD Project Opportunity
“Modeling and Utilizing the Nervous System for Stimulation and
Intra-body Communications”