Abstract
We investigate the randomized and quantum communication complexity of the Hamming Distance problem, which is to determine if the Hamming distance between two n-bit strings is no less than a threshold d. We prove a quantum lower bound of Ω ( d ) qubits in the general interactive model with shared prior entanglement. We also construct a classical protocol of O ( d log d ) bits in the restricted Simultaneous Message Passing model with public random coins, improving previous protocols of O ( d 2 ) bits [A.C.-C. Yao, On the power of quantum fingerprinting, in: Proceedings of the 35th Annual ACM Symposium on Theory of Computing, 2003, pp. 77–81], and O ( d log n ) bits [D. Gavinsky, J. Kempe, R. de Wolf, Quantum communication cannot simulate a public coin, quant-ph/0411051, 2004].
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