Graphical and Numeric Measurement Station Uncertainty Characterization
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Transcript of Graphical and Numeric Measurement Station Uncertainty Characterization
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International Workshop on Accelerator AlignmentDESY, Hamburg Germany
Graphical and Numeric Measurement Station
Uncertainty Characterization
Scott SandwithNew River [email protected]
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International Workshop on Accelerator AlignmentDESY Hamburg Germany
Introduction• Network Adjustment (Inputs v. Outputs)• Compute and report instrument (station) position
variation during Monte Carlo– Save each station position during Monte Carlo computation– Compute std dev of each position/orientation parameter based
on the samples – Report station variations
• Instrument Position/Orientation Uncertainty Report• Conclusions
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Communicating Uncertainty Estimates• Understanding and communicating
reliable measurement uncertainty• In many cases measurement
process uncertainty is difficult to control – Geometry constraints within facility
• Methods to characterize and communicate specific influences and dependences are key tools for alignment teams
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Accelerator Surveys• Inputs
– Instruments (Types Stations, Performance, and Environment)– Control/Constraints (Instrument, Levels, Scale Bar(s) Distance)– Point/Observation Network– Reflector and Targeting Offsets, Errors (e.g., hidden pts, vector
bars)• Outputs
– Network Adjustment– Uncertainty Analysis – Study – Confidence
• Points• Stations• Geometry
International Workshop on Accelerator AlignmentDESY Hamburg Germany
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Why Instrument Uncertainties?• Point uncertainties are primary output of
interest• To influence pt uncertainty understanding
instrument/station uncertainty – Ux, Uy, Uz, URx, URy, URz, U_TA
is a key element to influence and control alignment network uncertainty
International Workshop on Accelerator AlignmentDESY Hamburg Germany
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Objective Uncertainty Feedback• Objectively characterizing and visualizing
each stations position and orientation uncertainty in context of network is helpful
• Understanding influences and dependence that station position and precision plays enables alignment teams to make objective choices on effective optimize station performance and position(s).
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Case Studies• Individual station uncertainty within network
results are presented both graphically and numerically
• Evaluation and graphical results show net differences in how measurement network from a station influences component alignment characterization
• Outcome Choices in which sensors are used and how their position(s) within network influence alignment fidelity
International Workshop on Accelerator AlignmentDESY Hamburg Germany
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Simple Example
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Open Network Effects
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Uncertainty Comparison
International Workshop on Accelerator AlignmentDESY Hamburg Germany
Open Network Fixed Total Station
Closed Network Fixed Total Station
Closed Network Free Network Adjustment
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Compare: Open/Closed Survey
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Closed Survey FreeNet
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Accelerator Network
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Free Network Instrument Uncertainty
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Comparison between Fixed and Freenet
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Instrument/Station Uncertainty Conclusions• Measure of how encompassing pt network is
about each station • Larger instrument uncertainty results if the pt
network is within a narrow field of view• When common pt network is uniformly
distributed instrument uncertainty looks worse but will provide more conservative estimates of performance
• Using variation of station position during Monte Carlo provides a reasonable measure of the rigor of the network
International Workshop on Accelerator AlignmentDESY Hamburg Germany