bin | ||
etc/systemd/system | ||
sounds | ||
toolkit | ||
hw.jpg | ||
README.md |
Announcement Box
Linux box with a loudspeaker and an emergency light to be used for announcements and notifications.
Hardware
Overview
- SBC with GPIOs and sound output :: OrangePi Zero with an expansion board
- PA system
- speaker :: 30W, 4 Ohms horn loudspeaker
- sound amplifier :: mono 18W sound amplifier
- relay module :: 12V low trigger relay
- Warning Light system
- warning light :: 12V 10W rotary orange warning light
- relay module :: 12V low trigger relay
- System Activity Light system
- indicator LED
- Human Activity Sensor system
- PIR module
Building
TBD
Software
Overview
- Operating System - Linux :: Armbian Bullseye for the OrangePi Zero
- PA System
- Voice Synthesizer :: Festival / ESpeak
Installation
Run as root:
cp toolkit/* /usr/local/bin/
cp etc/systemd/system /etc/systemd/system
systemctl enable --now system-activity-light.service
systemctl enable --now human-activity-sensor.service
Implementation Notes
Armbian + OrangePi Zero Installation
Enable analog soundcard
sudo armbian-config
# System > Hardware > [*] analog-codec
Software Dependencies
OS Packages
apt install mplayer espeak-ng
GPIO toolkit
# upstream:
#git clone https://github.com/orangepi-xunlong/wiringOP
# enhanced:
git clone https://github.com/Dejvino/wiringOP
cd wiringOP
./build clean
./build
PA System
Enabling mixed sound output
cat ~/.asoundrc
pcm.!default plug:dmix
Text to Speech
## Festival
# reading
...
# to file
text2wave text.txt > wave.wav
## ESpeak
# voices:
ls /usr/lib/arm-linux-gnueabihf/espeak-data/voices/
# reading
espeak -f text.txt -p 40 -s 160 -v "en-us"
# to file
espeak -f text.txt -p 40 -s 160 -k15 -g 1 -w wave.wav
# using SSML (e.g.: https://www.xml.com/pub/a/2004/10/20/ssml.html)
espeak -f ssml.txt -m
Converting into a low-quality broadcast audio
sox infile.wav outfile.wav downsample echo 0.5 1 1 1
Human Activity Sensor
Reading File Timestamp
stat /var/tmp/human_last_seen --format=%Y