OpenWebRX ========= OpenWebRX is a multi-user SDR receiver software with a web interface. ![OpenWebRX](/screenshot.png?raw=true) It has the following features: - libcsdr based demodulators (AM/FM/SSB), - filter passband can be set from GUI, - waterfall display can be shifted back in time, - it extensively uses HTML5 features like WebSocket, Web Audio API, and <canvas>. - it works in Google Chrome, Chromium (above version 37) and Mozilla Firefox (above version 28), - currently only supports RTL-SDR, but other SDR hardware may be easily added. **News (2015-08-18)** - My BSc. thesis written on OpenWebRX is available here. - Several bugs were fixed to improve reliability and stability. - OpenWebRX now supports compression of audio and waterfall stream, so the required network uplink bandwidth has been decreased from 2 Mbit/s to about 200 kbit/s per client! (Measured with the default settings. It is also dependent on `fft_size`.) - OpenWebRX now uses sdr.js (*libcsdr* compiled to JavaScript) for some client-side DSP tasks. - Receivers can now be listed on SDR.hu. - License for OpenWebRX is now Affero GPL v3. **News (2015-02-14)** - The DDC in *csdr* has been [manually optimized](https://github.com/simonyiszk/csdr/blob/2b54054a9f5de9a908ee075b488a5ee74f41ba18/libcsdr.c#L300) for ARM NEON, so it runs around 3 times faster on the Raspberry Pi 2 than before. - Also we use *ncat* instead of *rtl_mus*, and it is 3 times faster. - OpenWebRX now supports URLs like: `http://localhost:8073/#freq=145555000,mod=usb` - UI improvements were made, thanks to John Seamons and Gnoxter. > When upgrading OpenWebRX, please make sure that you upgrade *csdr*, and install the new (optional) dependency *ncat*! ## OpenWebRX servers on SDR.hu [SDR.hu](http://sdr.hu) is a site which lists the active, public OpenWebRX servers. Your receiver [can also be part of it](http://sdr.hu/openwebrx), if you want. ![sdr.hu](/screenshot-sdrhu.png?raw=true) ## Setup OpenWebRX currently requires Linux and python 2.7 to run. First you will need to install the dependencies: - libcsdr - rtl-sdr - ncat (On Debian/Ubuntu, it is in the *nmap* package). > By the way, *nmap* is a tool commonly used for auditing network security, and it is not used by OpenWebRX in any way. We need to install it, because the *ncat* command is packaged with it. > > *ncat* is a better *netcat* alternative, which is used by OpenWebRX for internally distributing the I/Q data stream. It also solves the problem of having different versions of *netcat* on different Linux distributions, which are not compatible by their command-line arguments. After cloning this repository and connecting an RTL-SDR dongle to your computer, you can run the server: python openwebrx.py You can now open the GUI at http://localhost:8073. Please note that the server is also listening on the following ports (on localhost only): - port 4951 for the multi-user I/Q server. Now the next step is to customize the parameters of your server in `config_webrx.py`. Actually, if you do something cool with OpenWebRX (or just have a problem), please drop me a mail: *Andras Retzler, HA7ILM <randras@sdr.hu>* ## Usage tips You can zoom the waterfall display by the mouse wheel. You can also drag the waterfall to pan across it. The filter envelope can be dragged at its ends and moved around to set the passband. However, if you hold down the shift key, you can drag the center line (BFO) or the whole passband (PBS). ## Configuration tips Now we have a %[Wiki](https://github.com/simonyiszk/openwebrx/wiki) with some how-tos. However, some quick tips: If you want to run OpenWebRX on a remote server instead of localhost, do not forget to set *server_hostname* in `config_webrx.py`. DSP CPU usage can be fine-tuned in `plugins/dsp/csdr/plugin.py`: you can set transition bandwidths higher (thus degrade filter performance by decreasing the length of the kernel, but also decrease CPU usage), and also set `fft_size` lower. If you want a chat-box to the top of the page, here is a snippet for you to include in `config_webrx.py`.