Another approach is to move the relationship out of the objects in question. Many times neither A nor B ever needs to know about each other; it's the using code that finds those properties convenient. This is where graphs or bidirectional maps can come into play.
Bidirectional maps can trivially be used to keep track of one to one relationships. Graphs can be much better at keeping track of the other types of cardinality (many-to-one, many-to-many, etc.)
There are a couple different graph implementations that could help on that end. I've heard of but never used JGraphT and there is one I've used a lot called plexus (no relation to the IOC container). http://jgrapht.sourceforge.net/ and http://plexus.sf.net/ respectively.
A graph is nice because it allows complete flexibility in how different relationships are defined and the bidirectional link is maintained implicitly.
The fact that both sides of the relationship need to keep themselves in synch is frequently a sign that the relationship itself is of equal importance to the endpoints and not something that each side should be attempting to encapsulate.
Still, if parent and child really do need to operate on each other then one approach is to figure out which is primary and whether all operations can be done through that object. So, for example, in the parent child relationship can child operations be done on the parent with the parent passing a reference to itself to the children during that operation. I'd argue that if you can't then it is a good indicator that some lines need to be redrawn in the design.
Again using the parent-child example, I haven't really found a case where the parent->child and child->parent relationship was so dynamic that one end couldn't control it. And 99% of the time that I keep a back-reference from secondary to primary, it's for convenience and the lifecycle of the relationship is well established.
...otherwise, I use a graph.