a novel laser tracking system based on optical frequency comb · zili zhang . academy of...
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![Page 1: A Novel Laser Tracking System Based on Optical Frequency Comb · Zili Zhang . Academy of Opto-eletronics, Chinese Academy of Sciences . October 4th, 2016 . A Novel Laser Tracking](https://reader031.vdocuments.us/reader031/viewer/2022013022/5f906fcff9786268a7140fca/html5/thumbnails/1.jpg)
Zili Zhang Academy of Opto-eletronics, Chinese Academy of Sciences
October 4th, 2016
A Novel Laser Tracking System Based on Optical Frequency Comb
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Introduction of AOE and Laser measurement Technology division 1
Content
Research on Traditional Laser Tracker 2
Laser tracker based on optical frequency comb Introduction of the laboratory 3
My research work 4
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Founded in Dec. 2003
Dedicated in the
research and
development of optical
remote sensing, laser
and its application,
space science &
technology.
Academy of Opto-electronics, Chinese Academy of
Sciences (AOE)
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The headquarter of AOE (Beijing)
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Division of Laser Measurement Technology
Employee: 20
Professor: 1
Research associate: 5
Postdoctor: 2
Students: 20
Doctor: 4
Postgraduate: 2
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Laser measurement technology
Traditional ranging technology
Femtosecond laser ranging technology
Angle measurement technology
Precision tracking control technology
Calibration and error copensation
software
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Traditional Laser Tracker
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当当当当当当当当当当
Application
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API USA
FARO USA
PI Germany
Leica Switzerland
Manufactures
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• Measurement Range 0 ~ 42m • Horizontal Angle Range ±270° • Vertical Angle Range - 45°~ + 60° • Coordinate Uncertainty 17ppm • Tracking Speed 2rad/s • Tracking Acceleration 2rad/s2
• Sampling Rate 1000pts@1s
Prototype
2013
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Specification Leica (AT402 ) Our prototype Measuring scale 320m 42m Horizontal angle Measuring scale ±360° ±270°
Horizontal angle Measuring scale -145°~+145°
45°~+60°
Angle measuring accuracy 0.5" 1″
Distance measuring accuracy ±10μm 15μm/m
Coordinate measuring accuracy ±15μm+6μm/m 17μm/m
Data acquiring rate 3000pts/s 1000pts/s
Tracking speed 180°/s 2rad/s
Accelaration 360°/s2 2rad/s2
Performance comparison
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Development history and Orientation
industrialization Prototype 现场试用和市场推广
2013 2014~2017
……
Trial Performance improvement Stability improvement
Small batch production
Continuous Financial support
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Laser Tracker Based on Optical Frequency Comb
Supported by Ministry of Science and Technology of the People’s Republic of China
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Goal of Project
(1)To develop Laser Trakers using Femto-second Laser Distance
Measurement Technology . The function and performance of new tracker will
reach the international level (Dist. resolution: 50nm,Accuracy: 0.5ppm);
(2)Break through the key technology of Femto-second Laser Source, Femto-
second Laser Frequency Comb Distance Measurement, Air Refractive Index
measurement and Compensation;
(3)Develop engineering prototype and study application technology of new
generation laser tracker;
(4)Promote the advancement of metrology technology.
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Title Performance expected
Coordinate uncertainty 10ppm(10μm/m)
Measuring scale 0-60m
Distance measuring accuracy 1μm+0.5μm/m
Angle measurement accuracy 1.0"
Tracking speed 2rad/s
Tracking acceleration 1rad/s2
Performance expected
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Distance Measurement
Precision Angle Measurement
Precision Tracking Control
Model, Calibration and Error Compensation
System Software
Optical and Mechanical Integration
Key Technology
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45°DM(R635nm,T775nm、T1550nm)
Target
FOFC1
FOFC2
Corner reflector
PPLN1
PPLN2
f, 2f
BS1
DM1
Band-pass filter2
Band-pass filter1
PD2
f
2f
Semiconductor laser
PBS
PD
Tracking mirror
Coarse Ranging Modle
Tracking and Detecting Module
Distance Measurement Based on FOFC Module
PD1
Femtosecond Optical
Frequency Comb
PSD
Interference filter
Isolator
BS2
45°MirroeISO
ISO f, 2f
Double wedgeDouble wedge
Double wedge
Glass
45°Mirror
BS1
Interference filter
Interference filter
HWP
Focusing lens Compensator
48 U
Double wedge
45°Mirror
6X Reflective beam expander
76°
Adjustable mirror1
Adjustable mirror2
7°
7°
QWP
Compensator
Compensator
PD
System Design
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Dual-C
omb
Oscillator×2 amplification and compression system×2
Temperature control module
Coarse stabilization module of repetition rate
Servo×2
Phase locked loop
Pump current source
Frequency counter
Frequency synthesizer×2
Atomic clock
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Comb 1 Comb 2
Carrier envelope offset frequency stability: 1.0*10-10/1S
Stability of fceo
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Comb1Comb2
Distance measurement Setup By Dual-comb
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Standard deviation is ±2.3 μm when target is moved from 8.7m to 9.9m. Relative error: 0.1ppm@9m
Distance Measurement Result
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1
2 1
1 2 1
1
( )For 1.56μm and 0.78μm :
141
nA constn n
D D A D D
A
−≡ ≈
−= − −
=
D1=n1D ……λ1
D2=n2D ……λ2
n1 and n2: air refractive index
PD2
PD1
BS
Reference
Probe 2 2
DM
ν,2ν
D=Dp-p 5.55 m
Intensity I1
Intensity I2
~φ1
~φ2
time
time
Interference
Dp-p
Air Refractive Index Compensation
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M1-3: Mirror; BS: Beam splitter; DM1-2: Dichroic mirror; PD1-2: Photodetector; AOM: Acousto-optic modulator
kth mode (k+6)th (k+3)th
kth mode (k+6)th (k+3)th
(k-3)th mode (k-6)th mode
320MHz
Ref.
Probe
Frequency domain
54MHz fh1 Frequency comb
PD2
PD1
BS
DM2
PPLN
ν, 2ν
ν
2ν
ν
Lock-In amplifier 1
Lock-In amplifier 2
M1
DM1
M2
M3
AOM1
AOM2
Electronic system Reference signal
ν 2ν
fAOM1= 160MHz fAOM2= 80MHz
fh1 =4, 58, 112...MHz
D=2.78m
D1= φ1/2π×λ1/2 D2= φ2/2π×λ2/2
fh2 = 2, 56, 110...MHz
Doubler
Reference signal
ν, 1.56µm
2ν, 0.78µm
4 MHz 2 MHz
Air Refractive Index Compensation
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Setup of Air Refractive Index Compensation
Comb Interferometer Probe arm
0 2 4 6 8 10-1.5
-1
-0.5
0
0.5
1
1.5
Time (hour)
Varia
tion
inre
lativ
edi
stan
ce(1
0-6)
One-color optical distance, ΔD1/D
Corrected distance, {ΔD1 − A·Δ(D2-D1)}/DTwo-color difference, A·Δ(D2 − D1)/D
б=8.9 ×10-8
(a)
(b)(c)Experiment Result
Setup of Air Refractive Index Compensation
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Optical Design
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Electronics Design
Power unit
Data acquisition unit Clock synchronization unit
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Electronic Control Box
前面板
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Multiple Reading Head
Glass circular grating. Without comp.: 4 ″ With comp.: 1.5″
Metal circular grating with four reading head. Without comp.:3.5″ With comp.:0.7″
Four Reading Head
Error Mapping
Self-Calibration
Precision Angle Measurement
Five Reading Head
Circular Grating
Reading Head
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Horizontal Angle Calibration
Vertical Angle Calibration
Error Calibration and Compensation
Before compensation:±1.2 〞 After compensation:±0.6 〞
Angle Precision
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Tracking mirror tilt error Tracking mirror offset error
Laser beam offset error Transit axis tilt error
Error Calibration and Compensation
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Software
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2016/10/4
Control box
Light source
Main frame
System integration
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My research work
Theodolite measurement system based on vision guidance
Error Calibration and Compensation for laser tracker
Software for measurement system
Vision guided total station
Photogrammetry
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2016/10/4
Theodolite measurement system based on vision guidance
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2016/10/4
Theodolite measurement system based on vision guidance
1 2 3 4 5 6 7 8 9 1000.10.20.30.40.50.60.70.80.91
Point num
Ang
le D
evia
tion(
" )
The horizontal angles of the left theodolite The vertical angles of the left theodoliteThe horizontal angles of the right theodoliteThe vertical angles of the right theodolite
Point index The measured results of the manual operation
(mm) The measured results of automatic theodolite
(mm) Deviation
(mm)
x y z x y z Δx Δy Δz Δd 1 760.083 370.834 5774.370 760.064 370.940 5774.319 -0.019 0.106 -0.051 0.119 2 951.053 374.758 5788.259 951.257 374.589 5788.401 0.204 -0.169 0.142 0.301 3 1148.296 359.947 5808.436 1148.210 360.245 5808.633 -0.086 0.298 0.197 0.367 4 652.664 389.054 5776.032 652.907 389.268 5775.839 0.243 0.214 -0.193 0.377 5 750.394 390.547 5792.920 750.662 390.420 5792.933 0.268 -0.127 0.013 0.297 6 1047.573 397.123 5813.998 1047.749 397.348 5814.071 0.176 0.225 0.073 0.295 7 698.130 394.013 5779.836 697.941 394.029 5779.921 -0.189 0.016 0.085 0.208 8 849.731 396.690 5797.828 849.919 396.796 5797.975 0.188 0.106 0.147 0.261 9 1046.761 404.634 5819.759 1046.879 404.918 5819.642 0.118 0.284 -0.117 0.329
10 751.594 409.217 5783.970 751.461 409.276 5784.127 -0.133 0.059 0.157 0.214
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2016/10/4
Error Calibration and Compensation for laser tracker
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2016/10/4
Software of measurement system
Theodolite Laser tracker
Data analysis Antenna measurement system
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2016/10/4
Vision guided total station
Two-dimension rotation
Telescope
Distance measuring device
The lighting module
Camera
No. X(mm) Y(mm) Z(mm) Measured distance (mm)
Distance reference(mm)
Deviation (mm)
1 -58378.940 -13778.550 -327.386 \ \ \
2 -58387.970 -13742.860 -327.077 36.816 36.475 0.341 3 -58398.894 -13702.509 -326.446 41.808 41.627 0.181 4 -58405.762 -13675.406 -326.309 27.960 28.417 -0.457 5 -58413.977 -13644.681 -325.704 31.810 31.043 0.767 6 -58421.800 -13614.658 -326.434 31.034 31.053 -0.019 7 -58428.226 -13589.263 -326.330 26.195 26.546 -0.351 8 -58436.989 -13557.295 -325.914 33.150 33.184 -0.034 9 -58442.566 -13535.895 -325.710 22.116 22.671 -0.555
10 -58448.192 -13514.690 -325.620 21.939 20.986 0.953
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2016/10/4
Photogrammetry
Camera
Precision rotating platform
Spacecraft
3-DOF guide rail
Target
Experiment frame
Vertical
Depth Horizontal
Camera
Target Computer
Adjustment mechanism
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Name : Zili Zhang
Tel:00-86-10-82178675,82178679
mobile phone : 00-86-15101529774
Email:[email protected]
Add:No 9, Deng Zhuang South Road, HaiDian District,
Beijing, 100094, China
Contact information
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Thank you for your attention!