Visible　light　positioning　(VLP)　has　attracted　much　attention　in　both　academic　and　industrial　areas　due　to　the　extensive　deployment　of　light-emitting　diodes　(LEDs)　as　next-generation　green　lighting.　Generally,　the　coverage　of　a　single　LED　lamp　is　limited,　so　LED　arrays　are　always　utilized　to　achieve　uniform　illumination　within　the　large-scale　indoor　environment.　However,　in　such　dense　LED　deployment　scenario,　the　superposition　of　the　light　signals　becomes　an　important　challenge　for　accurate　VLP.　To　solve　this　problem,　we　propose　a　forward　and　correctional　orthogonal　frequency　division　multiplexing　(OFDM)-based　VLP　(FCO-VLP)　scheme　with　low　complexity　in　generating　and　processing　of　signals.　In　the　first　forward　procedure　of　FCO-VLP,　an　initial　position　is　obtained　by　the　trilateration　method　based　on　OFDM-subcarriers.　The　positioning　accuracy　will　be　further　improved　in　the　second　correctional　procedure　based　on　the　database　of　reference　points.　As　demonstrated　in　our　experiments,　our　approach　yields　an　improved　average　positioning　error　of　4.65　cm　and　an　enhanced　positioning　accuracy　by　24.2%　compared　with　trilateration　method.　(C)　2017　Society　of　Photo-Optical　Instrumentation　Engineers　(SPIE)