In the fourth book of his treatise on Stereotomy, Amedée F. Frezier describes three types of Plate-Vaults: the plate-bande, the proper plate-vault, and the trumpet vault. The primary difference between these types lies in the way their base course rests on the supports. The first type of vault, similar to a voussoir arch, maintains contact with the abutments at the opposite edges. The second type has all of its edges in contact with the supports, and the third is in contact with abutments on two contiguous sides with the other edges suspended free with no supports.
The current research refers to Amedée F. Frezier, who further had relied on the works of Serlio, Philibert de l'Orme, and also Wallis or de la Hire.
From a static point of view, the structural behaviour of the plate-vault structure can be considered similar to that of plate-bande, but unlike plate-bande, the plate-vault develops in a three-dimensional space, associating them to domes or vaults. The current research conducted focuses on this plate-vault construction adopting reciprocal ashlars (also called panels). The stereotomy of these ashlar units plays a key role allowing the overall structure to remain self-balanced even during the construction phases.
The plate-vaults under research are studied under the hypothesis proposed by J. Heyman, where all evaluations are executed assuming zero tensile resistance, high compressive strength and considering that siding does not occur. As established by the hypothesis, the properties of the ashlar unit can permit forces of compression and based on this; the authors refer to the statics in place. Principles also used for studying Brunelleschi's herringbone, and in the Renaissance domes of Sangallo, are parallel to the current research and focus on the unique feature that is brought to light: the possibility of construction without the use of a temporary formwork. Within the research, the stereotomy of the reciprocal three-dimensional panel was defined to be used it in composition in the structural scheme of a vaulted surface, according to a triangular order. In this way, the ashlars constitute, at the same time, to both the geometric design and the structural design. Indeed, the triangular base of such ashlars and thus the triangular interlocking of this structural model is what creates this new model.
The geometry of the reciprocal panel, defined by triangular, hexagonal and rhomboidal compound faces, can be adapted to the most diverse curved, double-curved or even flat surfaces. The geometric alteration is obtained through the manipulation of the parameters like the amplitude of curvature at the surface. Nevertheless, preserving the interlocking of the contiguous triangles and hexagons, guarantees  stability during the construction stage as well.