Last month i’ve been repairing Nintendo Switches.
Very small, and you need specialized tools.
Okay to do a few, but too small for my big hands.
I fixed multiple controllers, cardreaders and a gamecard.
Repairing Nintendo Switches
Youtube fixed on Android Settop boxes
I’ve installed an ad-free version using homebrew on my LG tv. (FreeTube)
Here is one for Android Settop boxes.
For phones use : NewPipe or Pipepipe
STEPS:
Install via playstore : Downloader (aftnews)
start and input this as a URL (kutt.to/stn_stable)
This will install below apk (Allow downloader to install packages!)
https://github.com/yuliskov/SmartTube
- Clean interface
- SponsorBlock integration
- Adjustable playback speed
- 8K resolution support
- 60fps playback
- HDR compatibility
- View live chat
- Customizable buttons
- Does not require Google Services
I really like the SponsorBlock and DeArrow.
DeArrow is an open source browser extension for crowdsourcing better titles and thumbnails on YouTube. The goal is to make titles accurate and reduce sensationalism. No more arrows, ridiculous faces, and no more clickbait.
3D projection experiments
I’ve posted this last time
These are my experiments using python.
You can see that I had some trouble with projecting depth in some of these animations.
The sliders helped me to understand what was going on.
I’ve used some information from these books.
Code (much like my BBC Acorn Basic program)
import tkinter as tk
import math
def rotate(p, ax, ay):
x, y, z = p
# rotate around X
cy, sy = math.cos(ax), math.sin(ax)
y, z = y * cy - z * sy, y * sy + z * cy
# rotate around Y
cx, sx = math.cos(ay), math.sin(ay)
x, z = x * cx + z * sx, -x * sx + z * cx
return x, y, z
def project(p, blend):
x, y, z = p
# isometric
iso_x = x - z
iso_y = y + (x + z) * 0.5
# perspective
d = 4
f = d / (d + z)
per_x = x * f
per_y = y * f
# blend projections
px = iso_x * (1 - blend) + per_x * blend
py = iso_y * (1 - blend) + per_y * blend
return px, py
CUBE = [
(-1, -1, -1), (1, -1, -1), (1, 1, -1), (-1, 1, -1),
(-1, -1, 1), (1, -1, 1), (1, 1, 1), (-1, 1, 1)
]
EDGES = [
(0,1),(1,2),(2,3),(3,0),
(4,5),(5,6),(6,7),(7,4),
(0,4),(1,5),(2,6),(3,7)
]
root = tk.Tk()
root.title("Rotating Cube")
canvas = tk.Canvas(root, width=400, height=400, bg="black")
canvas.pack()
slider = tk.Scale(root, from_=0, to=1, resolution=0.01,
orient="horizontal", label="Isometric / Perspective")
slider.pack(fill="x")
ax = ay = 0
def draw():
global ax, ay
canvas.delete("all")
blend = slider.get()
points = []
for p in CUBE:
r = rotate(p, ax, ay)
x, y = project(r, blend)
points.append((200 + x * 80, 200 + y * 80))
for a, b in EDGES:
canvas.create_line(*points[a], *points[b], fill="white")
ax += 0.02
ay += 0.03
root.after(16, draw)
draw()
root.mainloop()
Went to Cuba for 3 weeks
A negative travel advice didn’t stop us to visit Cuba.
A travel log will follow of this strange vacation we had.
BBC Acorn Basic – 3D projection
I found some of my old BBC Acorn basic programs a while ago.
And doing some research into 3D projections I ran some on a emulator.
Cleaned-up code for brandy basic
MODE 1 VDU 5 DIM X(7), Y(7), Z(7) DIM SX(7), SY(7) DATA -1,-1,-1, 1,-1,-1, 1,1,-1, -1,1,-1 DATA -1,-1,1, 1,-1,1, 1,1,1, -1,1,1 FOR I=0 TO 7 READ X(I), Y(I), Z(I) NEXT DIM E(11,1) DATA 0,1, 1,2, 2,3, 3,0 DATA 4,5, 5,6, 6,7, 7,4 DATA 0,4, 1,5, 2,6, 3,7 FOR I=0 TO 11 READ E(I,0), E(I,1) NEXT angleX=0 angleY=0 REPEAT CLS camera=5 scale=600 FOR I=0 TO 7 y1 = Y(I)*COS(angleX) - Z(I)*SIN(angleX) z1 = Y(I)*SIN(angleX) + Z(I)*COS(angleX) x2 = X(I)*COS(angleY) + z1*SIN(angleY) z2 = -X(I)*SIN(angleY) + z1*COS(angleY) zc = z2 + camera IF zc=0 zc=0.01 SX(I) = 640 + (x2 * scale) / zc SY(I) = 512 - (y1 * scale) / zc NEXT FOR I=0 TO 11 MOVE SX(E(I,0)), SY(E(I,0)) DRAW SX(E(I,1)), SY(E(I,1)) NEXT angleX = angleX + 0.03 angleY = angleY + 0.02 WAIT 2 UNTIL FALSE
Some old notes
DIY VR using two cameras on a Raspberry 5
Above a screenshot of a browser screen (Left and Right in fullscreen)
Colors are a little of (codec Red/Blue problem?)
But the setup works!
I used a android phone in above setup.
I tried a Quest 2 VR set, but I couldn’t get the browser in full screen mode. (YET)
Hardware setup
Two Raspberry Pi Camera Modules, connected via the two 4lane-MIPI DSI/CSI connectors.
Manually focussed and using some 3D printed stands on a piece of wood will do for now.
I build a RTSP NGinx proxy to test, which I previously used for OBS. But there was too much latency.
So I used below webrtc setup, with a latency below 80ms.
(I previously did some test using Janus)
CODE:
wget https://github.com/bluenviron/mediamtx/releases/download/v1.16.1/mediamtx_v1.16.1_linux_arm64.tar.gz tar xzvf media* cp mediamtx.yml mediamtx.org
NEW mediamtx.yml
webrtc: yes
webrtcAddress: :8889
rtmp: yes
rtmpAddress: :1935
paths:
dualcam:
source: publisher
run it
./mediamtx mediamtx.yml
Next make a streamer.
This Python script takes two square camera inputs, merge them side-by-side to one image and pushed the H264 frame to MediaMTX
import numpy as np
from picamera2 import Picamera2
import subprocess
import time
#WIDTH = 1280
WIDTH = 720
HEIGHT = 720
FPS = 30
BITRATE = "2500k"
RTMP_URL = "rtmp://127.0.0.1:1935/dualcam" # MediaMTX RTMP
# FFmpeg raw frames / H.264
ffmpeg_cmd = [
"ffmpeg",
"-y",
"-f", "rawvideo",
"-pix_fmt", "bgr24",
"-s", f"{WIDTH*2}x{HEIGHT}",
"-r", str(FPS),
"-i", "-",
"-c:v", "libx264",
"-preset", "ultrafast",
"-tune", "zerolatency",
"-b:v", BITRATE,
"-g", str(FPS), # keyframe every second
"-x264-params", "keyint=30:min-keyint=30:no-scenecut=1",
"-pix_fmt", "yuv420p",
"-f", "flv",
RTMP_URL
]
ffmpeg = subprocess.Popen(ffmpeg_cmd, stdin=subprocess.PIPE, bufsize=0)
picam0 = Picamera2(0)
picam1 = Picamera2(1)
cfg0 = picam0.create_video_configuration(
main={"size": (WIDTH, HEIGHT), "format": "BGR888"}, controls={"FrameRate": FPS}
)
cfg1 = picam1.create_video_configuration(
main={"size": (WIDTH, HEIGHT), "format": "BGR888"}, controls={"FrameRate": FPS}
)
picam0.configure(cfg0)
picam1.configure(cfg1)
picam0.start()
picam1.start()
print("Streaming to MediaMTX via RTMP...")
try:
while True:
f0 = picam1.capture_array()
f1 = picam0.capture_array()
combined = np.hstack((f0, f1))
ffmpeg.stdin.write(combined.tobytes())
time.sleep(1/FPS)
except KeyboardInterrupt:
print("Stopping...")
finally:
picam0.stop()
picam1.stop()
ffmpeg.stdin.close()
ffmpeg.wait()
Open using http://REMOTEIP:8889/dualcam
Nintendo Switch controller fix, and Lora measurements
One moment playing with LoRa. Next, a Nintendo Switch controller to fixed.
LoRa Antenna measurements
Using my NanoVNA and a RF test Kit I learned something about measuring antenna.
Below a measurement of a unknown antenna, ITs off, I need to shorten the metal spring inside.
Immich is amazing
I’m running this Google Photos alternative for a week now, and I am pleasantly suprised.
- Face detection : spot on
- Responsiveness : fast!, even with a large library
- Android uploads : it just works! (I used Nextcloud before)
- Movies : plays smoothly (there is a cast button for movies and images)
The face detection had only 1 mismatch in my library.
Negatives?
Well maybe album management, it could be better or more flexible
Some search tests:
- Food – indeed found food
- Rum – found drinks
(I changed search query to OCR, and it gave me images with the word RUM on it) ! - Dog – First ones are dogs indeed, after that other animals
- Smiling / Kissing works
- Hair/red/computer/music/comic
Amazing results!
Features (some)
- Docker instance for simple upgrades
- Facial Recognition
- Hardware Transcoding
- Hardware-Accelerated Machine Learning
- Reverse Geocoding (see below)
Lets copy the rest of my photo libary to this server.
(Storage is on a 10Gbit fiberoptic iSCSI device)
Raspberry Pi 5 Projects
Again … out of SBCs
Where are all these things in my home. Someone is stealing Raspberry Pi’s, ESP32 and other sensors.
(Probably me)
So I’ve got multiple projects running on one RPi.
- Dual Camera’s on top (brown ribbons), these are for VR streaming project.
- Dual Camera’s on top. these are for a Red Light Green Light game. (Using motion detection on both camera’s for two players.
- Below a INMP441 Mems microhone. This is a test for BirdNet recording.
All of the above are partially working. Code follows.
INMP441 is a tricky thing. I needed to do some bitbanging to get it working.
Loads of INMP441 info will be posted
Mqtt blinker for topic notifications
Last year I’ve made a led pole with digital fireworks.
Time to replace for something else ..
I’ve made a mqtt 1-D game in december.
I needed to change a lot to the javascript on the website to fix some stuff.
- Fix IPhone control. (I hate iphone)
- Fix screenlock timeout
- Added meta refresh
The XMAS/Fireworks controller was often used, and I got notifications via my TV. (see other posts)
Now I want to see when MQTT movement when I’m in the livingroom.
So I programmed a Wemos controller to blink the internal when MQTT messages are received.
CODE:
#include <ESP8266WiFi.h>
#include <PubSubClient.h>
const char* ssid = "WIFIAP";
const char* password = "WIFIPASS";
const char* mqtt_server = "MQTTBROKER"; // MQTT broker IP
const char* mqtt_topic = "game/tilt";
WiFiClient espClient;
PubSubClient client(espClient);
String lastPayload = "";
void setup_wifi() {
delay(10);
WiFi.begin(ssid, password);
while (WiFi.status() != WL_CONNECTED) {
delay(500);
}
}
void blinkLED() {
digitalWrite(LED_BUILTIN, LOW); // LED ON
delay(200);
digitalWrite(LED_BUILTIN, HIGH); // LED OFF
delay(200);
}
void callback(char* topic, byte* payload, unsigned int length) {
String message;
for (unsigned int i = 0; i < length; i++) {
message += (char)payload[i];
}
// Blink only if topic value changed
if (message != lastPayload) {
blinkLED();
lastPayload = message;
}
}
void reconnect() {
while (!client.connected()) {
if (client.connect("WemosClientMqttBlink")) {
client.subscribe(mqtt_topic);
} else {
delay(2000);
}
}
}
void setup() {
pinMode(LED_BUILTIN, OUTPUT);
digitalWrite(LED_BUILTIN, HIGH);
setup_wifi();
client.setServer(mqtt_server, 1883);
client.setCallback(callback);
}
void loop() {
if (!client.connected()) {
reconnect();
}
client.loop();
}