Try adding an ampersand to the end of your command:
ssh -N -D 7070 root@ip_address &
This trailing ampersand directs the shell to run the command in the background, that is, it is forked and run in a separate sub-shell, as a job, asynchronously. The shell will immediately return the return status of 0 for true and continue as normal, either processing further commands in a script or returning the cursor focus back to the user in a Linux terminal.
The shell will print out the forked process’s job number and process ID (PID) like so:
$ ./myscript.py &
The stdout of the forked process will still be attached to the parent, so any output will still appear in your terminal.
After a process is forked using a single trailing ampersand &, its process ID (PID) is stored in a special variable $!. This can be used later to refer to the process:
$ echo $!
Once a process is forked, it can be seen in the jobs list:
+ Running ./myscript.py &
And it can be brought back to the command line before it finishes with the foreground command:
The foreground command takes an optional argument of the job number, if you have forked multiple processes.
A single ampersand & can also delimit a list of commands to be run asynchronously.
./script.py & ./script2.py & ./script3.py &
In this example, all 3 python scripts are run at the same time, in separate sub-shells. Their stdout will still be attached to the parent shell, so if running this from a Linux terminal, you will still see the outputs.
This can also be used as a quick hack to take advantage of multiple cores with shell scripts, but be warned, it is a hack!
To detach a process completely from the shell, you may want to pipe the stdout and stderr to a file or to /dev/null. A nice way of doing this is with the nohup command.
source for above explanation: http://bashitout.com/2013/05/18/Ampersands-on-the-command-line.html