Actually, online voting is pretty tricky.
If you want the most extreme approach to voting safety, you may need to consider something like this:
It is an algorithm that distributes the voting secret among n distinct servers that each cannot break the voting anonymity by themselves. All n servers would have to cooperate in order to break anonymity, and if only one of the server cover its tracks ans wipes all cryptographic data away, the voting secret is lost/hidden forever.
The system can also deal with re-sending of votes, with some limitations inherent to any secure system for online voting:
For voting security online there is always an ultimate limitation in that it is vulnerable to traffic analysis. For example, if one day only one person votes, it can be concluded that any update of the voting result is a result of that persons voting.
A perfect secure online voting system should be viewed as a one-time vote-mixer. It takes a number of votes. Buffers them, and when the voting is finally closed, it mixes all of them in one go. This makes it extremely difficult to associate a vote with a voter. This can be achieved with pretty solid technology.
However, when we want to update votes things get much more tricky. There would be an intrinsic need for synchronization if we want to avoid the possibility of traffic analysis. Ideally all voters would have to re-send an update at regular intervals (even if their update is actually not an update).