「ndimensional」の共起表現一覧(1語右で並び替え)
該当件数 : 63件
| To ensure that this field is actually | n-dimensional and does not collapse to an even smaller f |
| ssiveness of C, SA-C instead features true | n-dimensional arrays as first-class objects of the langu |
| N-dimensional arrays, complex numbers, linear algebra, F | |
| h radius r is An rn−1 and the volume of an | n-dimensional ball with radius r is Vn rn. |
| lid representations of a relation is as an | n-dimensional chart, where n is the number of attributes |
| from within K by placing a grid consisting | n-dimensional cubes and doing a random walk over these c |
| Each | n-dimensional De Bruijn graph is the line digraph of the |
| en in the illustration, each vertex of the | n-dimensional De Bruijn graph corresponds to an edge of |
| Each point p on an | n-dimensional differentiable manifold has a tangent spac |
| A regular grid is a tessellation of | n-dimensional Euclidean space by congruent parallelotope |
| Its generalization to | n-dimensional Euclidean spaces is known as the smallest |
| Let K be a convex body in | n-dimensional Euclidean space Rn containing the origin i |
| eometry concerning integrable functions on | n-dimensional Euclidean space Rn. |
| In mathematics, a convex body in | n-dimensional Euclidean space Rn is a compact convex set |
| many essentially different space groups in | n-dimensional Euclidean space. |
| eal-valued measurable functions defined on | n-dimensional Euclidean space Rn. |
| -Minkowski inequality for convex bodies in | n-dimensional Euclidean space Rn. |
| Beltrami also showed that | n-dimensional Euclidean geometry is realized on a horosp |
| mation to the volume of a convex body K in | n-dimensional Euclidean space by assume the existence of |
| all sets of given Gaussian measure in the | n-dimensional Euclidean space, half-spaces have the mini |
| Menger curvature of a triple of points in | n-dimensional Euclidean space Rn is the reciprocal of th |
| inkowski inequality for compact subsets of | n-dimensional Euclidean space Rn to random compact sets. |
| The (q, p)-norm of the | n-dimensional Fourier transform is defined to be |
| SpaceFuncs - tool for 2D, 3D, | N-dimensional geometric modeling with possibilities of p |
| Hn is an the | n-dimensional Hausdorff measure. |
| vectors Si, Tj in the unit ball B(H) of an | n-dimensional Hilbert space H. |
| by thickening each of the 2n facets of an | n-dimensional hypercube into a box. |
| The achromatic number of an | n-dimensional hypercube graph is known to be proportiona |
| All | n-dimensional hypercubes are graceful. |
| ble because of the unpredictable nature of | n-dimensional hyperspace. |
| where "vol" denotes | n-dimensional Lebesgue measure. |
| Let λn denote | n-dimensional Lebesgue measure on n-dimensional Euclidea |
| where vol denotes | n-dimensional Lebesgue measure and the + on the left-han |
| the volume of the unit (n−m)-ball and μ is | n-dimensional Lebesgue measure. |
| An | n-dimensional manifold is a space that locally is an n-d |
| f n distinct points on the circle S1 is an | n-dimensional manifold, which can be compactified into a |
| denotes the | n-dimensional open ball of radius r about p, Q denotes t |
| An | n-dimensional parallelepiped is an example of an object |
| In general, an | n-dimensional parity scheme can correct n/2 errors. |
| An | n-dimensional parity scheme is only guaranteed to correc |
| ge is an (n − 2)-dimensional element of an | n-dimensional polytope. |
| In geometry, a peak is an (n-3)-face of an | n-dimensional polytope. |
| A facet-transitive or isotopic figure is a | n-dimensional polytopes or honeycomb, with its facets (( |
| A projective frame on | n-dimensional projective space is an ordered collection |
| if a continuously differentiable map on an | n-dimensional real vector space has a single fixed point |
| Let M be a complete | n-dimensional Riemannian manifold whose Ricci curvature |
| Let X and Y be compact oriented connected | n-dimensional smooth manifolds and f: Y → X a continuous |
| An | n-dimensional space is divided into 2n hyperoctants. |
| s-parallel, axis-oriented) is an object in | n-dimensional space whose shape is aligned with the coor |
| sional hypercubes at 90° or 180° angles in | n-dimensional space, where 1≤k≤n. |
| numbers can be understood as a location in | n-dimensional space. |
| nsional hyperplanes defined by m points in | n-dimensional space. |
| The definition extends to any object X in | n-dimensional space: its centroid is the intersection of |
| reedom can be described as a point in some | n-dimensional space; for example, classical mechanics de |
| used to refer to hypercubes, or "cubes" in | n-dimensional spaces, for values of n other than 3. |
| ed and dissipated in a hypothetical curved | n-dimensional structural element. |
| An | n-dimensional uniform tessellation can be constructed on |
| In general an | n-dimensional uniform tessellation vertex figures are de |
| The polar body of an | n-dimensional unit sphere is itself another unit sphere. |
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