Difference between revisions of "F20: Space Invaders"
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Space Invaders is a fixed one person shooter style video game. The player controls a laser cannon by moving it horizontally across the bottom of the screen and firing at the aliens descending toward the cannon from the top of the screen. There are aliens descending towards the cannon and the player's main goal is to defeat an alien and earn points by shooting it with the laser cannon and destroying it. As more aliens are defeated, the aliens' movement speeds up. The alien invasion is declared successful and the game ends when the aliens have successfully reached the bottom. The final score of total kills is projected after the game ends. The mp3 decoder connected to the speaker will play sound effects required. | Space Invaders is a fixed one person shooter style video game. The player controls a laser cannon by moving it horizontally across the bottom of the screen and firing at the aliens descending toward the cannon from the top of the screen. There are aliens descending towards the cannon and the player's main goal is to defeat an alien and earn points by shooting it with the laser cannon and destroying it. As more aliens are defeated, the aliens' movement speeds up. The alien invasion is declared successful and the game ends when the aliens have successfully reached the bottom. The final score of total kills is projected after the game ends. The mp3 decoder connected to the speaker will play sound effects required. | ||
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== '''INTRODUCTION & OBJECTIVES''' == | == '''INTRODUCTION & OBJECTIVES''' == |
Revision as of 21:03, 16 December 2020
Contents
ABSTRACT
Space Invaders is a fixed one person shooter style video game. The player controls a laser cannon by moving it horizontally across the bottom of the screen and firing at the aliens descending toward the cannon from the top of the screen. There are aliens descending towards the cannon and the player's main goal is to defeat an alien and earn points by shooting it with the laser cannon and destroying it. As more aliens are defeated, the aliens' movement speeds up. The alien invasion is declared successful and the game ends when the aliens have successfully reached the bottom. The final score of total kills is projected after the game ends. The mp3 decoder connected to the speaker will play sound effects required.
INTRODUCTION & OBJECTIVES
About the Game
The object of the game is, basically, to shoot the invaders with your laser cannon while avoiding their shots and preventing an invasion. Amassing a high score is a further objective and one that must be prioritized against your continued survival. Each game screen starts with 3 rows of 4 invaders.
Objective
- Interface the 64x64 RGB LED Matrix with SJ-Two Microcontroller.
- Interface the VS1053 MP3 Decoder with another SJ-Two Microcontroller.
- Interface MAX98357A Mono Amplifier via I2S.
- Establish UART communications between the two SJ-Two Microcontrollers.
- Create simple coding logic for displaying required characters and game objects.
- Have required sound effects at different functions of the game.
- Have multiple display screens at different stages of the game.
Team Members
Technical Responsibilities
Administrative Roles | ||||
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Salvatore Nicosia & Akash Vachhani | |||
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Akhil Cherukuri | |||
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Salvatore Nicosia | |||
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Salvatore Nicosia & Akhil Cherukuri | |||
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Akhil Cherukuri | |||
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Akash Vachhani | |||
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Salvatore Nicosia | |||
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Salvatore Nicosia & Akhil Cherukuri |
Administrative Responsibilities
Administrative Roles | ||||
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Salvatore Nicosia | |||
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Salvatore Nicosia & Akash Vachhani | |||
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Salvatore Nicosia & Akash Vachhani | |||
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Akhil Cherukuri | |||
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Akhil Cherukuri |
SCHEDULE
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BILL OF MATERIALS
PRINTED CIRCUIT BOARD
Design And Architecture
The complete printed circuit board was designed using EasyEDA online software. Implemented both SJ-Two board connectors along with required connections to buttons, led matrix, touch sensors, joystick, VS1053 MP3 Decoder, and MAX98357A I2S Amplifier.
Fabrication
- PCB was sent to fabrication to JLCPCB China which provided PCB with an order of 5 and 2 layers of PCB and common grounded the rest of the copper area.
DRC elements (in mm)
- Track Width = 0.254
- Clearance = 0.152
- Via Diameter = 0.61
- Via Drill Diameter = 0.305
LED MATRIX
Hardware Interface
This project utilizes as a display a 64x64 RGB LED Matrix Panel with a scan rate of 1/32. The LED matrix panel has 4096 RGB LEDs which can be controlled and addressed individually. Because 4069 LEDs would be impossible to connect to the sjtwo board since it does not have sufficient GPIOs, this LED Matrix utilizes only 13 digital GPIOs to provide full control of each individual LED. To achieve this, the LED matrix uses a decoder to select the rows and a 64-bit shift register which enables the desired color on the selected column. When the row selection is low the columns are selected by clocking in data into the shift register. This 64x64 LED matrix has 6 64-bit shift registers for R1, G1, B1 R2, G2, B2 where each color of the LED is controlled by one bit of the shift register. Since this display uses shift registers which are daisy chained, there no capability to control each LED using PWM and therefore the display only supports 8 colors. The basic mechanism of how this LED matrix works is as follows:
For each row of leds we repeate these steps:
- Set the latch and output enable pins to low to clock in the next row of data and enabling the output so that the leds are turned on
- For each column, clock in the data for the current row one bit at a time into the shift registers (R1, G1, B1, R2, G2, B2)
- Set the latch and output enable pins high to allow the row of data to reach the output driver while disabling the output so that no LEDs are on while switching rows
- Select the row by driving the appropriate row select lines (A,B,C,D,E)
LED Matrix Driver
<Discuss here about led matrix driver>
<Discuss here about led matrix hardware>
Software Design
Show your software design. For example, if you are designing an MP3 Player, show the tasks that you are using, and what they are doing at a high level. Do not show the details of the code. For example, do not show exact code, but you may show psuedocode and fragments of code. Keep in mind that you are showing DESIGN of your software, not the inner workings of it.
MP3 DECODER
Hardware Interface
In this section, you can describe how your hardware communicates, such as which BUSes used. You can discuss your driver implementation here, such that the Software Design section is isolated to talk about high level workings rather than inner working of your project.
<Discuss here about MP3 decoder hardware>
MP3 Decoder Driver
<Discuss here about MP3 player driver>
Software Design
Show your software design. For example, if you are designing an MP3 Player, show the tasks that you are using, and what they are doing at a high level. Do not show the details of the code. For example, do not show exact code, but you may show psuedocode and fragments of code. Keep in mind that you are showing DESIGN of your software, not the inner workings of it.
3D PRINTED ENCLOSURE
Design & Implementation
<Discuss here about 3D Printed Enclosure. Attach images of both design and final result>
TESTING & TECHNICAL CHALLENGES
LED Matrix Displaying Incorrect Colors
While testing the driver it was identified an issue with the LED matrix not displaying the correct colors or at times not displaying them at all in certain parts of the display. To analyze this problem different objects were drawn in different sections of the display to understand the cause of this behavior. While testing it was noticed that the LED matrix would display the correct color only when both the top 32 rows and bottom 32 rows were active or when at least one row was active in both sections. After debugging the code and ensuring that the logic to display the pixels was correct the problem turned to be that the cable that connects to HB75E connector of the LED matrix had a few defective pins which were causing issues on some of the registers that control the RGB colors. After extensively testing by drawing more objects it was deduced that the root cause of this issue was a bad cable.
PCB Design
While testing the ribbon cables, we have identified out that the purchased double row ribbon did not invert pin rows as a normal ribbon cable does.
CONCLUSION
Conclude your project here. You can recap your testing and problems. You should address the "so what" part here to indicate what you ultimately learned from this project. How has this project increased your knowledge?
ACKNOWLEDGEMENT
We would like to express our gratitude to Professor Preetpal Kang for providing valuable insight and knowledge with us and for guiding us through the completion of this project. We would also like to thank Vidhusi Jain(ISA) for her valuable advice code reviews, and constructive feedback. Also a big shout-out to all of our classmates, for the great Slack discussions which provided solutions and necessary feedback.
APPENDIX
Project Source Code
Project Video
References
LED MATRIX
MP3 DECODER
- VS1053 Datasheet
- MAX98357 I2S Amplifier
- CMPE 146 - MP3 Project
GENERAL