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Wireless Motion Capture Mid-Year Design Review Seth Berkowitz Dean Howarth Eric Marklein Ashesh Rastogi Advisor: Professor Daniel Schaubert
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Project Overview Optical motion capture confines to small area Self referencing system gives user freedom of motion Find distances and calculate 2D position Base Units Remote Unit
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MDR Specifications “Wireless Ruler” – 1 dimensional static distance measurement Transmit wave between remote and base units (breadboarded) Digital acquisition of raw data SRAM storage of raw data Offline algorithm for distance calculation
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PDR Flashback Phase based distance measurement Two frequency transmission from base Up-convert at remote unit Retransmit to base Ultrasound vs. RF
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Microcontroller Phase Comparator Temperature Sensor Clock MUX Memory 8 8 13 Free Space Address Data R/W Trigger Phase Diff Transmit Transducer Receive Transducer Amplifier Zero-Crossing Detector BPF System Block Diagram Computer Interface
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Analog Zero Crossing Comparator To Phase Comparator BPF BW = 377kHz Transmit transducer Clock MUX Receive transducer Non- Inverting Amplifier Free Space Schmitt Trigger Buffer
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Received Signal
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-Transducers 14 cm apart -3V square pulse wave
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Phase Comparator
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f transmit f receive D CLK RESET Q D CLK RESET Q f transmit f receive Ф Ф
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Tx and RX Tx and Φ
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Pulse Width Counter ∆Ф∆Ф Trigger (from microcontroller) CLK (8 MHz) CLK Gate 8 bit counter Microcontroller
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Phase Acquisition Distance Computation And Temperature Error Correction A / D 8 8 8 8 2 13 10 Temperature Sensor Read / Write Memory Address Distance Analog Voltage Phase Trigger Pulse SRAM 8 k word x 8 bit Volatile Memory Digitized Voltage PIC16F877 Microcontroller Memory Routine Wait Over Timer A/D Acquisition Time Over Start Microcontroller Clock MUX 2
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Microcontroller’s Task Change clock frequency Waits for transducer to settle (30 ms) Sends Trigger pulse to phase comparator Acquires 8-bit phase shifts ( 1 and 2 )
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Microcontroller’s Task (cont.) Digitizes analog voltage from Temperature Sensor (10 bit A/D) Sends 8-bit phase and Read/Write control signals to external memory
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Test Setup
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Calculated Vs Actual Distance μ error = 0 σ = 3.4 mm
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Calculated Vs Actual Distance μ error = 0 σ error = 3.4 mm
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Sources of Error Phase difference jitter Oscillator drift Zero-crossing Multipath Effects Component phase shifts Humidity Temperature
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Temperature Offset
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Current Budget Transmit/Receive: $6.95 Phase Comparator: $2.81 Microcontroller: $5.11 Memory: $3.94 Temperature Sensor: $3.15 Additional Components: $1.35 Budget so far: $23.31
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MDR Specifications - Recap “Wireless Ruler” – 1 dimensional static distance measurement Transmit wave between remote and base units (breadboarded) Digital acquisition of raw data SRAM storage of raw data Offline algorithm for distance calculation
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CDR Goals Distance calculation on microcontroller Computer link with USB Simultaneous frequency transmission 1-D motion capture (30s) 2-D position and motion Display motion on animation software
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