Prelude To The Madness

What better project to resurrect from the incomplete project pile then “The Coffin Tester”? This project was inspired by the chance encounter of a small wooden coffin at a hobby store. With a coffin comes the standard project ideas: Someone is trying to get out or someone is inviting you in. Making both projects at once was my decision.

Overview from 6ft Under

The embedded coffin display in the lid shows classic monster portraits, letting you know who is inside. However, the camera in the lid also takes images of the viewer. When it detects a face, it displays the image on the display, letting you know that you are inside now. A Halloween SFX module within the box fires up and horror ensues. The WiFi capable board within makes future upgrades to functionality possible. The horror never ends.

Part Selection

Parts
Name	Image	Details	Considerations
Small Wooden Coffin		Small Body Storage Cheap and Wooden	Just another item to put me on a watch list
ArduCam ESP32S Uno w/ PSRAM		OV2640 Camera ESP32S WiFi BLE SD MMC	Based on AI-Thinker ESP32 Camera Configuration and hardware setup Discontinued hardware, so time to use. RIP
SFX Halloween Module		Sound and LED Sequences Strobe Function Sound/Vibration Activation Demo Button	Prebuilt Unit Already themed for coffin themed project
Round Display		1.28 inch LCD Module 240 x 204 Pixels GCA901A Controller	Realistic Corpse Viewing Port
SD Card Adapter		Micro SD Storage Board SPI Interface	In order to free up GPIO Pins for interfacing to the display, the onboard SD_MMC is disabled and this adapter provides SD access.
Battery Holders		1 AAA Cell 2 AAA Cells	Volume Issues lead to use of two holders instead of a single 3 AAA cell holder 2 AA Holder used was not messed up like the one in this photo.
ICR18650 Battery		2200mAh 3.7V	Had one lying around
PC817 Optocoupler		Low Voltage Trigger 5kVolts of Isolation	Provides an electrically isolated trigger signal for the Halloween SFX Module
Micro USB Cable		Plutonium Implosion Device 18.6 kilotons	Relatively Small Had one lying around
Micro USB Port Adapter Board		Micro USB	Allows access for power, programming and charger for internal battery

Common Materials
Jumper Wires Female/Female
Strip Board
Header Pins Male
Header Pins Female
Electrical Tape
Heat Shrink Tubing

Element Preparation

Elements
Halloween SFX Module	ArduCam ESP32S Uno w/ PSRAM	Coffin Top	Coffin Bottom
Front Shell – (Not Used) Reflector – (Not Used) High Brightness LED 2x4 Matrix Circuit Board Assembly PCB Function Switch – (Removed) Strobe Speed Potentiometer – (Removed) Speaker Piezo Disk – (Not Used) Demo Button – (Not Used) Back Shell with integrated Battery Holder – (Not Used) Battery Cover – (Not Used)	Right Angle Inward Facing Male Header Pins on Underside Spacers Mounted on USB End of Board	1.25" Upper End Hole for Round Display View 3/8" Lower Mid Section Hole for Camera View Port Inside Inner Edge Carve Outs for ArduCam Board Mounting Inside Bottom Edge Carve Out for Custom Bus Board Mounting	Micro USB Access Slot in Bottom End Two Small Holes for Micro USB Socket Adapter Mounting

Assemblies

Block Diagram of Pr0ject Elements

Coffin Top Assembly

Coffin Top

Interconnection Assemblies

Interconnectors
Part	Design

Project Surprises:

• GPIO02 boot-up tests for PSRAM voltage requirement interfered with HSPI Bus usage. Required eFuse setting to permanent PSRAM voltage level for HSPI normal operation
• ESP32 Cam with AI-Thinker hardware setup can be used for the project with a simple pin assignment change and the creators choice of one function loss.
• An overly elaborate method for using a vibrating motor to trigger SFX module, isolating the module electrically from Microcontroller abandon due to unnecessary complexity and stray triggering from handling project.
• SFX module uses High Brightness LEDs that cause short bursts of high current that have to be handled by separate battery pack in order to not require additional power supply circuitry for a common power supply.
• I had a ICR18650 lying around, so battery operation of project utilizing built in charging of the ArduCam. Then again, it could be a self-destruct method.
• Had to pin down ArduCam board in coffin, so I used a piece of a plastic fork.

Programming Elements

• TFT display for the ArduCam
• HSPI usage
• Facial Detection Code
• Simple RAW Image decoding for saved images
• Camera image buffer display to TFT display

Assemblies

Resource

Parts
Item	Link
ArduCam Product Page	https://www.arducam.com/product/b0192-arducam-iotai-esp32-uno-psram-ov2640-camera/
GCA901A Demo on ESP32	https://github.com/talofer99/ESP32CAM-Capture-and-send-image-over-esp-now
ESP32 SPI Information	https://randomnerdtutorials.com/esp32-spi-communication-arduino/
ESP32 Now	https://randomnerdtutorials.com/esp-now-two-way-communication-esp32/
ESP32 Cam Photo Webserver	https://randomnerdtutorials.com/esp32-cam-take-photo-display-web-server/
ESP32 Cam Selfie	https://robotzero.one/esp32-cam-tft-selfie/
ESP32 Cam Pinout Guide	https://randomnerdtutorials.com/esp32-cam-ai-thinker-pinout/
ESP32 Cam Settings Guide	https://randomnerdtutorials.com/esp32-cam-ov2640-camera-settings/
ESP32 Cam as Camera with Display	https://www.instructables.com/ESP32-ESP32-CAM-With-OV2640-Using-SIPHSPI-for-TFT-/
ESP32 Camera and Webserver Sample Program from hardware library	Ardunio IDE Library
ESP-DL	https://github.com/espressif/esp-dl

Demonstration Video

Demo Video

Code

The code is a splicing of several programs and samples. See the Resource Section.

Includes

 #include <SPI.h>
 #include "FS.h"
 #include <SD.h>
 #include "Adafruit_GFX.h"
 #include "Adafruit_GC9A01A.h"
 #include "esp_camera.h"
 #include "esp_timer.h"
 #include "human_face_detect_msr01.hpp"
 #include "human_face_detect_mnp01.hpp"
 

Defines

 // Pin definition for CAMERA_MODEL_AI_THINKER
 #define PWDN_GPIO_NUM     32
 #define RESET_GPIO_NUM    -1
 #define XCLK_GPIO_NUM      0
 #define SIOD_GPIO_NUM     26
 #define SIOC_GPIO_NUM     27

 #define Y9_GPIO_NUM       35
 #define Y8_GPIO_NUM       34
 #define Y7_GPIO_NUM       39
 #define Y6_GPIO_NUM       36
 #define Y5_GPIO_NUM       21
 #define Y4_GPIO_NUM       19
 #define Y3_GPIO_NUM       18
 #define Y2_GPIO_NUM        5
 #define VSYNC_GPIO_NUM    25
 #define HREF_GPIO_NUM     23
 #define PCLK_GPIO_NUM     22
 
 #define SPI_MOSI 13
 #define SPI_MISO 12
 #define SPI_CLK 14
 #define SPI_SS 15

 #define TFT_DC   33 // Data Command control pin
 #define TFT_CS  15 // Chip select control pin
 #define TFT_RST -1 
 #define TFT_BL 3

 #define SD_CS 4
 #define SFX_MODULE_PIN 2
 #define BUZZER_PIN 1

 #define TFT_ROTATION 0 // 0 to 3
 

Initializations

 SPIClass MySPI(HSPI); // Declare an HSPI bus object (to use or BOTH TFT and SD-card)
 Adafruit_GC9A01A tft(&MySPI, TFT_DC, TFT_CS);
 boolean camera_ok;
 
 boolean InitSD()
 {
   boolean success=SD.begin(SD_CS,MySPI);
   if (!success) 
     {
        post_Error("Fail: check formatted SD-card is in!"); 
        return false;
     } 

   listDir(SD, "/", 0);  
   return success;
 }

 boolean camera_init() 
 {
   camera_config_t config;
   config.ledc_channel = LEDC_CHANNEL_0;
   config.ledc_timer = LEDC_TIMER_0;
   config.pin_d0 = Y2_GPIO_NUM;
   config.pin_d1 = Y3_GPIO_NUM;
   config.pin_d2 = Y4_GPIO_NUM;
   config.pin_d3 = Y5_GPIO_NUM;
   config.pin_d4 = Y6_GPIO_NUM;
   config.pin_d5 = Y7_GPIO_NUM;
   config.pin_d6 = Y8_GPIO_NUM;
   config.pin_d7 = Y9_GPIO_NUM;
   config.pin_xclk = XCLK_GPIO_NUM;
   config.pin_pclk = PCLK_GPIO_NUM;
   config.pin_vsync = VSYNC_GPIO_NUM;
   config.pin_href = HREF_GPIO_NUM;
   config.pin_sscb_sda = SIOD_GPIO_NUM;
   config.pin_sscb_scl = SIOC_GPIO_NUM;
   config.pin_pwdn = PWDN_GPIO_NUM;
   config.pin_reset = RESET_GPIO_NUM;
   config.xclk_freq_hz = 20000000;
   config.pixel_format = PIXFORMAT_RGB565;
   if (psramFound())
     { // larger bufer
       config.frame_size = FRAMESIZE_QVGA;
       config.jpeg_quality = 2;
       config.fb_count = 2;
       config.grab_mode = CAMERA_GRAB_LATEST;
     } 
    else 
     { // smaller buffer
       config.frame_size = FRAMESIZE_QVGA;
       config.jpeg_quality = 12;
       config.fb_count = 1;
     }

   esp_err_t err = esp_camera_init(&config);
   if (err != ESP_OK) 
     {
       post_Error("Camera init failed with error: "+String(err));
       return false;;
     }

   sensor_t * s = esp_camera_sensor_get();    
   s->set_hmirror(s, 1);        // 0 = disable , 1 = enable
   s->set_vflip(s, 1);          // 0 = disable , 1 = enable  
   return true;
 }
 

Core

 void setup() 
 {
    delay(200);
    pinMode(BUZZER_PIN,OUTPUT);
    pinMode(TFT_CS,OUTPUT);
    pinMode(SD_CS,OUTPUT);
    pinMode(SFX_MODULE_PIN,OUTPUT); 

    analogWrite(TFT_BL,255);

    tft.begin();
    tft.setRotation(TFT_ROTATION);
    tft.setTextColor(GC9A01A_WHITE);
    tft.setTextSize(2);
    tft_clear();
    tft.println("Hello World");

    InitSD();
    camera_ok=camera_init();
    if (!camera_ok) post_Error("but without Camera");
    delay(1000);
   randomSeed(analogRead(0));
 }

 void loop() 
 {
   int face_test = 0;
   int loop_count = 25;
  
   tft_clear();
   TFT_fade(-1,10);
   display_randon_sd_raw();
   TFT_fade(1,10);  
   for(int x = 0; x < loop_count; ++x)
     {
       if (xcapture_handler(&face_test) == 100)
         {
           buzzer_zap(200);
           SFX_Module_Fire();
           delay(5000);
           x = loop_count;
         }
     }
 }
 

Display Functions

 void tft_clear() 
 {
   tft.fillScreen(GC9A01A_BLACK);
   tft.setCursor(0,0); // top
 }

 void TFT_fade(int fade_type, int fade_delay)
 {
   switch (fade_type)
     {
       case 1:
         for(int x=0;x<256;++x)
           {
             analogWrite(TFT_BL,x);
             delay(fade_delay);
           }
         break;
       case -1:
         for(int x=255;x>-1;--x)
           {
             analogWrite(TFT_BL,x);
             delay(fade_delay);            
           }
         analogWrite(TFT_BL,0);  
         analogWrite(TFT_BL,0);  
         analogWrite(TFT_BL,0);  
         break;  
     }
   delay(fade_delay);  
 }
 

Stored Image Functions

 String picture_gallery[64];
 int picture_gallery_size = 0;
 void listDir(fs::FS &fs, const char * dirname, uint8_t levels)
 {

   File root = fs.open(dirname);
   if (!root)
     {
       post_Error("Failed to open directory");
       return;
     }
   if (!root.isDirectory())
     {
       post_Error("Not a directory");
       return;
     }

   File file = root.openNextFile();
   while(file)
     {
       if (file.isDirectory())
         {
           if (levels)
             {
               listDir(fs, file.name(), levels -1);
             }
         } 
        else 
         {
           picture_gallery[picture_gallery_size] = file.name();
           ++picture_gallery_size;
         }
       file = root.openNextFile();
     }
 }

 void display_randon_sd_raw()
 {
   int choice = random(picture_gallery_size);
   int success; 

   success = sd_load_and_display_raw("/"+picture_gallery[choice]);
 }
 

Displaying Images

 int generate_image_from_camera(camera_fb_t *fb)
 {
   uint16_t *data = (uint16_t *)fb->buf;    
   uint16_t pixel_data;

   for(uint16_t y=0;y<240;++y)
     {
       data = data + 40;
       for(uint16_t x=0;x<240;++x)
         {
           pixel_data = *data;
           pixel_data = (((pixel_data) & 0xFF00) >> 8) | (((pixel_data) & 0xFF) << 8);
           tft.drawRGBBitmap(x,y, &pixel_data,1,1);   
           ++data;
         }
       data = data + 40;  
     }
   return(1);  
 }

 int sd_load_and_display_raw(String file_name) 
 {
   char pixel_red;  
   char pixel_green;  
   char pixel_blue;  
   uint16_t pixel_data;
   uint16_t pixel_datar;
   uint16_t pixel_datag;
   uint16_t pixel_datab;
   uint8_t test_line[724];

   File file_pointer = SD.open(file_name);  
   if (!file_pointer)
     post_Error("File not found: "+file_name);

   file_pointer.read(test_line,54);

   for(int y=0;y<240;++y)
     {
       file_pointer.read(test_line,720);
       for(int x=0;x<240;++x)
         {
           pixel_red = test_line[(x*3)];
           pixel_green = test_line[(x*3)+1];
           pixel_blue = test_line[(x*3)+2];

           pixel_datar = pixel_red;
           pixel_datar = pixel_datar & 0b0000000011111000;
           pixel_datar = pixel_datar << 8;
           pixel_datag = ((pixel_green & 0b11100000) >> 2) | pixel_red & 0b00000111;;
           pixel_datag = pixel_datag << 5;
           pixel_datab = (pixel_blue & 0b11111000) >> 3;
           pixel_data = pixel_datar | pixel_datag | pixel_datab;         
           tft.drawRGBBitmap(x,y, &pixel_data,1,1);      
         }
     }
  
   if (file_pointer) 
     file_pointer.close();  

   return(1);
 }
 

Remains

 void post_Error(String message)
 {
 //  Place Holder
 // 
 }

 #define SFX_TRIGGER_LENGTH 25
 void SFX_Module_Fire()
 {
   digitalWrite(SFX_MODULE_PIN,HIGH);
   delay(SFX_TRIGGER_LENGTH);
   digitalWrite(SFX_MODULE_PIN,LOW);
 }

 void buzzer_zap(int buzz_time)
 {
   digitalWrite(BUZZER_PIN,HIGH);
   delay(buzz_time);
   digitalWrite(BUZZER_PIN,LOW);
 }

 static esp_err_t xcapture_handler(int *req) 
 {
   camera_fb_t *fb = NULL, *temp_fb;
   esp_err_t res = ESP_OK;
   int64_t fr_start = esp_timer_get_time();
   res = 0;

   fb = esp_camera_fb_get();

   if (!fb) 
     {
       return ESP_FAIL;
     }

   bool detected = false;
   int face_id = 0;

   // Code Snipet from Webserver ESP32-Cam demonstration example code
   // Hard to balance in this application
   // Higher Reliability Testing
   //  HumanFaceDetectMSR01 s1(0.01F, 0.5F, 10, 0.2F);
   //  HumanFaceDetectMNP01 s2(0.5F, 0.3F, 5);
   //  std::list<dl::detect::result_t> &candidates = s1.infer((uint16_t *)fb->buf, {(int)fb->height, (int)fb->width, 3});
   //  std::list<dl::detect::result_t> &results = s2.infer((uint16_t *)fb->buf, {(int)fb->height, (int)fb->width, 3}, candidates);

    // Lower Reliability Testing
   HumanFaceDetectMSR01 s1(0.1F, 0.5F, 10, 0.4F);
   std::list<dl::detect::result_t> &results = s1.infer((uint16_t *)fb->buf, {(int)fb->height, (int)fb->width, 3});

   if (results.size() > 0) 
     {
       generate_image_from_camera(fb);           
       delay(1000) ;
       res = 100;
     }
   esp_camera_fb_return(fb);

   int64_t fr_end = esp_timer_get_time();
   int64_t fr_delta = fr_end - fr_start;

   return res;
 }