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Augmented and virtual reality

A narrative of creation expressed via immersive technology.

A multimedia artist, Jackson 2bears, has created "Ne:Kahwistará:ken Kanónhsa'kówa í:se Onkwehonwe," a vivid virtual retelling of the Haudenosaunee creation story. The project, which was inspired by the traditional Haudenosaunee structure, the longhouse, was a collaborative effort designed to keep indigenous teachings and stories alive, central to which was the importance of communal experiences. The installation…

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A versatile approach to assist animators in enhancing their animation skills.

A team from the Massachusetts Institute of Technology (MIT) has created a technique that allows animators to have a more significant scale of control over their works. The researchers have developed a method that produces mathematical functions known as "barycentric coordinates," which indicate how 2D and 3D shapes can move, stretch, and contour in space.…

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A versatile remedy to assist animators in enhancing their animation skills.

Artists behind animated movies and video games may soon have greater control over their animations through a new technique devised by researchers at the Massachusetts Institute of Technology (MIT). The approach employs barycentric coordinates, mathematical functions that articulate how 2D and 3D figures can be manipulated through space. Existing solutions are often limited, providing a single…

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A versatile approach to assist creatives in enhancing animation.

A new technique for maximizing control over animations has been developed by researchers at MIT. The technique offers animators the ability to mold the movements and image of characters in 2D and 3D animations to their individual requirements, through the use of barycentric coordinates, mathematical functions that determine how shapes flex, bend and move in…

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A versatile method to assist artists in enhancing their animation skills.

Researchers at the Massachusetts Institute of Technology (MIT) have developed a technique that enables digital artists more versatility in how they move their animations of 2D and 3D shapes. Traditionally, artists had limited choices when it came to defining movements using mathematical functions known as barycentric coordinates. The researchers suggest that existing solutions are rigid and…

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A versatile approach to assist animators in enhancing their creations.

A team of MIT researchers has developed a new technique that gives animators greater control over their creations in video games and animated films. Their method uses mathematical functions known as barycentric coordinates, which determine how 2D and 3D shapes can bend, stretch, and move within a given space. This offers a significant improvement to…

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An adaptable approach to assist artists in enhancing animation.

Researchers at MIT have developed a new technique that gives animators greater control over their designs in animated films and video games. This method uses mathematical functions, known as barycentric coordinates, to define how 2D and 3D forms can bend, stretch and move in space. Animators, therefore, have the option to choose functions that fit…

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An adaptable approach assisting artists in enhancing animation.

Researchers from the Massachusetts Institute of Technology (MIT) have introduced a technique that could provide artists working on animated movies and video games greater control over their creations. The method employs mathematical functions known as barycentric coordinates, enabling 2D and 3D shapes to move, stretch, and bend in space according to an artist's vision. The new…

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An adaptable approach to assist animators in enhancing their artistry.

Researchers from MIT have developed a technique that provides animation artists greater flexibility and control over their characters. Their approach generates mathematical functions known as barycentric coordinates which define how 2D and 3D shapes can bend, stretch, and move. This change allows artists to choose functions that best suit their vision for their characters, offering…

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A versatile approach to assist creatives in enhancing animation.

MIT researchers have introduced a new technique giving animation artists more control over their 2D and 3D characters. The method uses mathematical functions, known as barycentric coordinates, which determine how shapes can move, bend, and stretch in space. This allows artists to shape the movements of an animated character according to their vision. Traditionally, artists have…

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A versatile approach designed to assist artists in enhancing animation.

A novel technique unveiled by researchers at MIT could provide artists more flexibility while animating characters in movies and video games. The approach involves producing mathematical functions called barycentric coordinates to determine how 2D and 3D shapes can bend, stretch, and manoeuvre through space. Artists are thus provided with multiple options of barycentric coordinate functions…

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An adaptable approach to assist animators in enhancing their artwork.

A new technique developed by MIT researchers aims to give artists more control over their animations. The approach, which generates barycentric coordinates, allows artists to define how 2D and 3D shapes can bend, stretch, and move in space and creates an artifact that fits their vision better. This is a departure from available techniques which…

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