1. Drum Tutor Lite Yuanheng Yan Xun Yu Zhen Qin ECE 445 Senior Project Group 43 December 3,2015

2. Abstract Overview Parts breakdown Requirement and verification (R&V) Future development

3. Introduction and objective Adaptive to multiple surfaces Modular sensor design Plug and play Battery powered Portable design Interactive graphical interface Game-like user experience

4. Demo video The video exceeds the upload limit Link: https://www.youtube.com/embed/n1Pf7Q9wtoA

5. System Overview

6. Changes SD card mount File storage moved to computer Local storage no longer needed Power Cheaper Easier implementation Enough battery life

7. The Tutor Sensor Envelope Sensor Input Ports Serial Port Voltage Regulator Powered by 9V battery Sensor

8. Microcontroller Programmable processor Serial Communication with PC ADC onboard convert analog signal to digital signal Support 6 sensors Integrated power circuit

9. Microcontroller Schematic

10. Sensor Envelope Unit Modular design Multiple units for multiple surfaces Powered by 9V battery Unity gain buffer

11. Sensor Schematic RC envelope circuit Resistors in parallel with sensor input to discharge sensor capacitor Unity gain buffer with 9V to 0V rail voltage only positive voltage for simple processing

12. Software

13. Converter Programmable processor Serial Communication with PC ADC onboard convert analog signal to digital signal Support 6 sensors Integrated power circuit

14. R&V – Power Supply (Voltage) Vmax: 4.962V Vmin: 4.855V

15. R&V – Power Supply (Current) Current: 59.0645 mA Battery life rating: 600mAh/59.0645mA = 10.16h (Estimate)

16. R&V – Sensor circuit Yellow line is output signal and green line is raw input signal Sensor circuit envelope the input signal

17. R&V – Microcontroller Purple part is the input from ADC Highlighted peaks are output of microcontroller Top diagram shows the peak detection on a drum Bottom diagram shows the peak detection on a box Drum Box

18. R&V – Interface Blue box: cue (Read from file) White box: hitbox Green circle: correct hit Red circle: incorrect hit

19. Room for improvement MIDI conversion Standalone function and can be achieved by external programs LED feedback Microcontroller only has 1 serial port for data transmission Microcontroller with multiple serial ports needed

20. Future Developments Adjust sensor envelope amplitude for different surface with potentiometer. Use standalone ADC for faster and more accurate sampling Add Bluetooth module for better portability Use voltage regulator with higher efficiency Use delicate enclosures for better durability