node-telescope-server is a server to control telescopes remotely. Actually it is a port of C++ source to NodeJS. With an easy of set of commands you will be able to connect your computer to a telescope and target it to the desired stellar object.
- Interface control for Stellarium software
- Interface control thought a HTTP REST API
- Compatible with NexStar telescopes
- Compatible running with multiple telescopes at same time
- Interface control thought WebSockets
- Remote camera capabilities
- Compatibility with LX200 and RTS2 telescopes
$ npm install node-telescope-server -g
$ nts --help
Usage: app [options]
Options:
-h, --help output usage information
-V, --version output the version number
-q, --quiet enables the quiet mode
-d, --debug enables the debug mode
-s, --server <type> server type [dummy|stellarium|web]
-p, --port <port> listening port
-t, --telescope-type <type> telescope type [dummy|lx200|nexstar|rts2]
-i, --telescope-device <path> system path to telescope device
-c, --config <path> configuration file path to setup several servers
A dummy example
$ nts
Remote stellarium control server running at port 5000 to a dummy telescope
This command starts a stellarium control server listenning at port 5000 connected to a dummy telescope sending commands to /dev/null
Real Nexstar example (Celestron telescopes)
$ nts -s stellarium -p 5050 -t nexstar -i /dev/ttyS0
Remote stellarium control server running at port 5050 to a dummy telescope
This command starts a stellarium control server listenning at port 5050 connected to a Nexstar telescope sending commands to /dev/ttyS0 device
Multiple servers
$ nts -c config.json
Telescope Dummy: Remote dummy control server running at port 4000 to a dummy telescope
Telescope Stellarium Dummy: Remote stellarium control server running at port 4001 to a dummy telescope
Telescope Nexstar: Remote stellarium control server running at port 5000 to a nexstar telescope
Disabled remote web control server running at port 5001 to a nextar telescope
This command starts several servers defined in the config.json file.
An example of config file:
[
{
"name": "Telescope Dummy"
, "server": "dummy"
, "port": 4000
, "telescope-device": "/dev/null"
, "telescope-type": "dummy"
},
{
"name": "Telescope Stellarium Dummy"
, "server": "stellarium"
, "port": 4001
, "telescope-device": "/dev/random"
, "telescope-type": "dummy"
, "enabled": true
},
{
"name": "Telescope Nexstar"
, "server": "stellarium"
, "port": 5000
, "telescope-device": "/dev/ttyS0"
, "telescope-type": "nextar"
, "camera-device": "/dev/null"
},
{
"name": "Telescope Lx2000"
, "server": "web"
, "port": 5001
, "telescope-device": "/dev/ttyS0"
, "telescope-type": "lx2000"
, "camera-device": "/dev/null"
, "enabled": false
}
]Overview
This is a small tutorial to connect Stellarium with a Celestron telescope, and control it remotly. The next diagram describes all the required elements to build your own homemade planetarium.
Requirements
- RaspberryPi with raspbian installed
- A Ethernet wire or a Wireless adaptor for your Raspberry Pi
- Telescope Celestron (Nexstar Protocol) with GoTo feature
- USB to Serial port adaptor
- A computer with Stellarium installed
Steps
First of all you should connect your RaspberryPi to a router with a Ethernet wire. As an alternative, you can connect the Raspberry with one wireless adaptor but that is outside the scope of this tutorial. Then connect by SSH.
$ ssh 192.168.1.15
The first step is to install the nodejs and npm packages:
pi@raspberry $ sudo apt-get install nodejs npm
First verify that the current nodejs and npm packages have compatible versions:
pi@raspberry $ node -v
0.8.9
pi@raspberry $ npm -v
1.1.4
If the previous commands have returned older versions you should install node and npm manualy:
pi@raspberry $ wget http://www.nodejs.org/...
pi@raspberry $ tar zxf node-0.8.9.tar.gz
pi@raspberry $ cd node-0.8.9
pi@raspberry $ ./configure && make
pi@raspberry $ sudo make install
pi@raspberry $ node -v
0.8.9
pi@raspberry $ npm -v
1.1.4
Then install the node-telescope-server module in your Raspberry running:
pi@raspberry $ sudo npm install node-telescope-server -g
Then connect your USB to Serial port adaptor to one of your available ports in the Raspberry Pi and connect the other side to the telescope. Run the next lsusb command to identify the USB device to be initialized:
pi@raspberry $ lsusb
...
Bus 001 Device 002: ID 4358:2523
...
pi@raspberry $ sudo modprobe usbserial vendor=0x4358 product=0x2523
Run dmesg command and you shall see lines like these:
pi@raspberry $ dmesg
usbserial_generic 1-1:1.0: generic converter detected
usb 1-1: generic converter now attached to ttyUSB0
usbcore: registered new interface driver usbserial_generic
Identify the device uid assigned by the kernel to the serial port, aka ttyUSB0.
Then start a nts instance to control your telescope. You should specify -t and -i arguments with your telescope type and file to the device file descriptor.
pi@raspberry $ nts -s stellarium -p 5000 -t nexstar -i /dev/ttyS0
Remote stellarium control server running at port 5000 to a nextar telescope
Now the Node Telescope Server (nts) is ready to receive instructions to move your telescope to the desired target.
The next step is to connect this nts instance with the Stellarium software. Open Stellarium and press Ctrl+0 or go to the telescopes window. Add a new telescope and choose the External software or remote computer. Then choose a desired name for your telescope, for example "NodeJS-RaspberryPI". Then specify the ip assigned to the RaspberryPI and the port listening by nts instance, in my case 192.168.1.15 and 5000. Save the telescope configuration.
The last step is to click on connect button and the status label should change to "Connected".
Finally you have the Stellarium connected to your telescope! Choose the desired object and pres the Ctrl+1 and realize that the telescope start pointing to the target. :-)
Enjoy it!
Check the LICENSE file
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