To improve the received signal quality in ultraviolet non-line-of-sight optical communication channels, we propose two receive diversity schemes, one with a single optical transmitter and the other with multiple photon-counting receivers. The symbol-level decision fusion scheme is hard decision-based, and each photon-counting receiver sends its local decision to a common receiver. The common receiver makes a final decision according to the majority voting rule. Alternatively, the chip-level data fusion scheme is soft decision-based, and each local receiver sends its observed value directly to the common receiver. The common receiver combines these values and makes a final decision. We determine the symbol error rate of both schemes for m-ary pulse-position modulation using the Poisson channel statistic. Performance of both schemes under different scenarios was extensively evaluated using computer simulation. Simulation results demonstrated that compared with a conventional single-receiver system, both schemes exhibit considerable improvement in performance.