The composition integrates multiple visual layers combining anatomical drawing, digital modeling, and stylized cartoon representation. On the left, a reinterpretation of Leonardo da Vinci’s Vitruvian Man is shown, overlaid with mechanical and organic anatomical detailing. The figure is extended within a circular boundary, rendered with exposed musculature and sinew, layered with metallic textures and schematic overlays. Above the figure, a yellow cartoon-like head and simplified circular body are superimposed, creating a hybrid juxtaposition of realistic anatomy with stylized symbolic form.In the foreground center, a fully yellow, simplified humanoid character is depicted in three dimensions, with rounded proportions, smooth surface, and minimal anatomical definition. Its features include a small circular head with minimal facial markings, cylindrical limbs, and a rotund torso. To the right, a grey-scale 3D anatomical model is shown with arms outstretched. This model exhibits skeletal rib structures, defined musculature, and realistic human body proportions, contrasting the cartoon stylization of the yellow model.
The background contains faint sketches and studies reminiscent of Leonardo’s anatomical notebook drawings, including cross-hatching, profiles, and structural outlines. These sketches reinforce the interplay between scientific study, artistic exploration, and digital reinterpretation. The overall arrangement stages three modes of representation—Renaissance anatomical study, cartoon simplification, and contemporary 3D anatomical modeling—into a single composite field.
This composite image is divided into two sections, connecting the symbolic imagery of Walking Bread with its public presentation in Montreal.
Digital composite illustration depicting anthropomorphic bread object configured in the shape of a human brain, augmented with metallic electrode-like discs across its surface. The bread mass is hemispherically divided into left and right lobes, textured with golden-brown crust, rounded contours, and small darkened seeds embedded in crumb surface. Affixed metallic discs emulate electrode contacts used in brain-machine interface systems, arranged systematically across lobes to suggest full-coverage neural mapping.
Structure translucide tridimensionnelle représentant une double hélice en matériau verrier, formée de deux rubans tubulaires semi-transparents disposés en spirale ascendante. L’intérieur de l’hélice contient un réseau complexe de nœuds et de liaisons organisés selon une grille moléculaire évoquant des chaînes nucléotidiques. Les segments internes, reliés par des tiges fines, reproduisent une configuration symétrique rappelant une structure d’ADN stylisée. Les surfaces externes montrent des variations chromatiques allant du brun oxydé au bleu-vert irisé, créant un effet de profondeur et de matière organo-minérale. L’ensemble est posé sur une base neutre, éclairé par un faisceau directionnel latéral qui accentue la translucidité et les reflets prismatiques. L’objet combine vocabulaire scientifique, esthétique sculpturale et matérialité expérimentale.
The image displays a three-dimensional model of DNA composed of semi-transparent material resembling glass or resin. The structure follows the canonical double helix configuration with two antiparallel strands twisting around a central axis, linked by paired cross-structures representing nucleotide bases. Each strand is visualized as a continuous ribbon-like tube, semi-translucent, with spherical nodes positioned at intervals corresponding to molecular backbones. Connecting these two strands are regularly spaced bridge-like links forming ladder rungs, angled relative to the helical axis, consistent with the geometry of base-pair orientation. The helices twist with uniform pitch, showing approximately ten base pairs per complete turn, aligned with established B-DNA structural measurements.
The object consists of a central DNA double helix positioned vertically, enclosed within a large circular torus-like structure. The DNA follows canonical double helix geometry, composed of two parallel strands twisting around each other with uniform pitch and evenly spaced crossbars forming base-pair rungs. The strands are rendered as slim cylindrical rods, smooth and reflective, while the crossbars appear as evenly spaced horizontal connections maintaining structural alignment. The double helix is centered within the toroidal framework, rising vertically from the base to the upper arc of the surrounding ring.
Metallic and glass-based apparatus consisting of a rectangular support frame fabricated from tubular black metal joined with orthogonal connectors, serving as the foundation for a suspended multi-tier transparent tank system. The central component is a rectangular container composed of multiple parallel glass panels held by vertical clamps, threaded rods, and metallic fasteners arranged symmetrically along each side. The layered transparent planes are separated by uniform gaps, producing a stacked configuration resembling a liquid containment or experimental observation chamber. Mounted above the structure is a vertical rig supported by cables and pulleys, terminating in a suspended camera or sensor device positioned for overhead capture. On both lateral sides, vertical stands with adjustable clamps are connected to auxiliary rods, ensuring lateral stabilization and alignment. Electrical wiring, black cables, and conduit lines are routed across the ground surface and connected to devices including a wooden equipment box housing power supplies or controllers, with visible switches and ventilation slits. The surrounding environment includes an industrial room with smooth concrete flooring, gray painted walls, and a large plastic container covered with fabric or protective material in the background. The apparatus emphasizes modularity, precision alignment, and controlled positioning of transparent layers for technical imaging, experimental measurement, or optical research applications, integrating structural, mechanical, and electronic components into a unified assembly.
Composite sculptural object combining clay hand-formed material and 3D-printed fabrication, consisting of two vertically stacked spherical segments aligned on a central axis with the smaller unit above the larger base. The clay component exhibits smoothed surfaces with irregularities, dents, and shallow impressions characteristic of manual shaping, while the 3D printing contribution introduces layered striations and uniform curvature consistent with additive deposition processes. Both materials merge into a hybrid form that balances natural mineral substrate with digitally produced structural geometry. The figure is positioned on a translucent rectangular plate bordered by a circular black measurement frame incorporating fasteners, apertures, and alignment notches. Visible ruler markings on the frame edge indicate calibration capacity for dimensional referencing. The translucent support plate reflects overhead illumination while diffusing light across its surface, creating mild shadows under the sculptural mass. The surrounding wooden table displays grain texture, linear scratches, and tonal variation typical of workbench use, situating the object within a workshop or studio environment. Electrical and mechanical elements of the frame suggest integration into an observational or testing apparatus, where handmade clay material and digital 3D-printed structures converge to form an experimental hybrid prototype linking artisanal practice with computational manufacturing precision.
Juxtaposed composition presenting two distinct representations of a head-like structure, positioned side by side within a divided frame. On the left, a robotic cranial mechanism is displayed against a black background, consisting of an off-white polymer shell partially enclosing an underlying metallic framework. The cranial casing includes apertures for eyes, nasal cavity, and jawline, cut into simplified anatomical positions, while surrounding surfaces show fastening points, drilled holes, and attachment slots indicating modular assembly. Beneath the polymer exterior, metallic rods, actuators, wiring, and support brackets are visible, arranged to simulate musculature and mechanical articulation. The jaw is partially open, revealing linkages and servo-driven components, while the base of the unit connects to a stabilizing support system featuring a rectangular horizontal bar with twin optical sensors or camera modules affixed at equal distance from the center. Below this, additional mechanical struts extend downward, terminating in a mounting bracket. Illumination is directional, producing reflective highlights on metallic surfaces while leaving recessed cavities in shadow, emphasizing the hybrid anatomical and engineered qualities of the object. On the right, a contrasting minimal illustration occupies a white field, reducing the head form to an elongated oval shape drawn with thin ink or digital line. Two small circles near the center function as simplified eyes, aligned on a vertical line that extends upward and terminates in a looped curve resembling a rudimentary nose bridge or cranial marker. The overall outline of the head is irregular, with slightly uneven edges and a faint tonal wash across the interior, providing textural variation without volumetric modeling. Minimal detail conveys anthropomorphic suggestion without anatomical specificity. Together, the pairing emphasizes contrast between mechanical complexity and abstract reduction, presenting a spectrum between engineered realism and diagrammatic minimalism.