Load TGA image (24bit, RGB) and encode it to APT (Automatic Picture Transmission) signal.
Information and description:
- https://www.sigidwiki.com/wiki/Automatic_Picture_Transmission_%28APT%29
- https://noaasis.noaa.gov/NOAASIS/pubs/Users_Guide-Building_Receive_Stations_March_2009.pdf
NOAA automatic picture transmission (APT) encoder
Usage: Debug/noaa_apt (-i <file> [-s <file>] | -I) [(-d <device> | -O) -m <mode> -lcrM]
-i <filename> Input TGA image (909px width, 24bit RGB)
-s <filename> Second input TGA image (B channel, mode ignored)
-d <device> OSS audio device (default /dev/dsp) or file
-m <mode> Channel B data mode (R,G,B,N,Y,C)
-I Read image data from stdin
-O Write audio data to stdout
-M Multi image reading from stdin
-l Enable infinite image loop
-c Enable user console
-r Device is regular file (write WAV audio file)
-h Show this help
Build: 21:52:59 Aug 18 2019, GCC 5.3.0
- Run as:
guest@porteus:~$ padsp noaa_apt -lci SourceTestImage.tga
- Showing all modes: Sync only -> Negative -> Red -> Green -> Blue -> Y -> Negative -> Red -> Green -> Blue -> Y (reload image) -> Negative -> Sync only -> Blue
Source image | |
Decoded image | |
Source audio | Sample |
Mode use 12bit (4096 colors, square root of 4096 is 64) look up table. Each color have 4 bit resolution (16 values). Channel A contain Y-pos values and channel B contain X-pos values (position in LUT). Image quality depends on LUT (color position in table). Current LUT is not ideal. Only X-pos is good. For decoding use apt-colorm and for better image quality disable gamma correction in WxToImg.
Look up table (64x64, upscaled 4x) | |
Original image | |
Channel A image | |
Channel B image | |
Decoded color image |
- Add support to ALSA/Portaudio
- Build with CMake
APT means Automatic Picture Transmission. It is a system, developed in the 1960s, made to transmit low-resolution analog image for weather satellites. A complete APT image takes around 12 minutes to be built up at a rate of 2 lines per second. The data is broadcasted by the satellite. The stream is obtained by the AVHRR/3 instrument. Two channels with a low resolution are emitting all the time using VHF signals at reduced rates (around 120 lines/minutes). The two channels are composed of :
- Channel A: A visible frequency range channel providing APT imagery during the day.
- Channel B: An IR channel providing APT imagery at any time of the day and the night.
The broadcasted transmission is made of two channels for the image, synchronization and telemetry information. A complete APT Video Line Time is 2080 pixels long (990 pixels for each image). One APT line is composed of one line for Channel A video followed by one line for Channel B video.
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Telemetry frame: Each video channel A and B have their own telemetry frame Each telemetry frames consists of 16 points (wedges): height of 128 video lines Telemetry frame rate is 1 frame per 64 seconds Each telemetry point is repeated on 8 successive APT lines
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Space and minute marker: Time between two successive markers is one minute Minute markers are repeated on 4 successive lines, with 2 lines black and 2 lines white B video is always an IR channel (Ch. 4 usually), so spaces are white and minute markers black When A Video is a visible channel, spaces are black and minute markers white; otherwise it appears like B video
APT frame
The systems uses Amplitude Modulation and Frequency Modulation. Each 8-bit word of APT data (256 levels) is then amplitude modulated with a 2.4kHz sub-carrier which results in an analog signal with a 34kHz bandwidth. This signal is frequency modulated such that one amplitude corresponds to one frequency on a 137-138Mhz carrier (depending on the satellite).
APT Synchronization
- Sync A precedes Channel A data. Is a 1040 Hz square wave - 7 cycles
- Sync B precedes Channel B data. Is an 832 pps pulse train - 7 pulses
APT Video Format