Presented is an advanced Surface Effect Ship (SES) that offers the high efficiencies of the pressurized air cushion supported generic flexible bow and stern seal SES but without the generic SES's shortcomings that are due largely to its generally about 80 percent total hull width flexible bow and stem seals. Advantages are accomplished by the instant invention by use of forward extending rigid bow members positioned both sides of a pressurized hull supporting gas cushion such that the width of the sidehulls, preferably, make up a majority of the width of the instant invention advanced surface effect ship with the remainder, normally less than 35 percent of vessel width, made up by a gas cushion forward moveable seal member disposed between the bow members. Gas cushions may extend forward into undersides of the sidehull bow members to further reduce wetted area resistance. Longitudinally oriented fluid fences may be incorporated to at least partially separate portions of the gas cushion and thereby dampen pressure perturbations in the gas cushion(s). A third bow member may be utilized between port and starboard bow members for some applications.