Faster Dynamic Compressed d-ary Relations

11/20/2019
by   Diego Arroyuelo, et al.
0

The k^2-tree is a successful compact representation of binary relations that exhibit sparseness and/or clustering properties. It can be extended to d dimensions, where it is called a k^d-tree. The representation boils down to a long bitvector. We show that interpreting the k^d-tree as a dynamic trie on the Morton codes of the points, instead of as a dynamic representation of the bitvector as done in previous work, yields operation times that are below the lower bound of dynamic bitvectors and offers improved time performance in practice.

READ FULL TEXT

Please sign up or login with your details

Forgot password? Click here to reset