The terms "pervious concrete," "porous concrete," and "water permeable concrete" refer to concrete that has a high void content and can therefore enable air or water to pass through. Water from precipitation and other sources can move through porous media created by pervious concrete and reach the earth below. This lowers site runoff while recharging groundwater levels. In addition to being often utilised in sidewalks, parking lots, and greenhouses, pervious concrete has potential in sustainable construction. In this work, we looked at how to determine the compressive, tensile, and flexural strengths of pervious concrete when adding various types of fibres, including steel, natural, and glass fibres. Because of its considerable porosity, pervious concrete has a comparatively low compressive strength. According to the cited literature, pervious concrete should also contain several fibre kinds to improve its strength and other properties.