「tiling」の共起表現一覧(2語左で並び替え)
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ted as a snub operation applied to a hexagonal | tiling (hexatille). |
In geometry, a kisrhombille is a uniform | tiling of rhombic faces, divided with a center points |
as a truncation operation applied to a square | tiling (quadrille). |
a truncation operation applied to a hexagonal | tiling (hextille). |
idea how this procedure yields a substitution | tiling of the entire plane. |
ong and short edge lengths will produce a snub | tiling with perfect equilateral triangle faces. |
ion of unit squares in the plane, has a domino | tiling. |
It can be seen as a hexagonal | tiling with each hexagon divided into three rhombi me |
When considering polyhedrons as a spherical | tiling, this restriction may be relaxed, since digons |
and triangles to replace the faces of a square | tiling (quadrille). |
iemann surface that is a quotient of a (2,3,n) | tiling, the associated dessin is the Cayley graph giv |
e used as a unit, it can be shown that a space | tiling with such units can achieve a densest sphere p |
A domino | tiling of a region in the Euclidean plane is a tessel |
oloring with seven colors based on a hexagonal | tiling of the plane. |
It is constructed from a triangular | tiling extruded into prisms. |
If the sides are squares, it is a uniform | tiling. |
o distinct uniform colorings of a trihexagonal | tiling. |
It is constructed from a hexagonal | tiling extruded into prisms. |
e are 9 distinct uniform colorings of a square | tiling. |
combining alternate elements from a hexagonal | tiling (Hextille) and triangular tiling (deltille). |
A quasiperiodic | tiling is a tiling of the plane that exhibits local p |
ted as a kis operation applied to a triangular | tiling (deltille). |
.4 represents a regular tessellation, a square | tiling, with 4 squares around each vertex. |
was erected and in 1902 the oak pews and floor | tiling were installed. |
d Danish oak with leather upholstery and slate | tiling in a way that articulated a new grouping of ma |
ent integers, is the 9 x 13 rectangle, and the | tiling uses five rectangles1. |
erent integers, is the 11 x 11 square, and the | tiling uses five rectangles1. |
to New Zealand as a young man and worked as a | tiling contractor. |
nately it can be seen as a bisected triangular | tiling divided into 6 triangles, or as an infinite ar |
The bisected hexagonal | tiling is a useful starting point for making paper mo |
(2 3 6) bisected hexagonal | tiling |
May 1718 at a cost of £630 plus brickwork and | tiling; the total refurbishment was estimated to have |
In particular, the celebrated Penrose | tiling is an example of an aperiodic substitution til |
lting tessellation, the deltoidal trihexagonal | tiling, superposes a tessellation of the plane by reg |
e Schwartz triangle (2 3 3) yields a density 1 | tiling of the sphere, while the triangle (2 3/2 3) yi |
Each uniform | tiling generates a dual uniform tiling, also given be |
y displayed on the original Edwardian platform | tiling to this day. |
It is the dual of the elongated triangular | tiling. |
It is an equilateral triangular | tiling with each triangle divided into three obtuse t |
It can be seen as an equilateral hexagonal | tiling with each hexagon divided into 12 triangles fr |
(a polyhedron or a polychoron for example) or | tiling is isohedral or face-transitive when all its f |
s the maximum value k such that there exists a | tiling of the plane, and tile t within that tiling, f |
alesman briefly before joining the family roof | tiling business. |
ing is a property of a uniform figure (uniform | tiling or uniform polyhedron) that is colored to be v |
In geometry, the floret pentagonal | tiling is a dual semiregular tiling of the Euclidean |
choose many different sets of prototiles for a | tiling: translating or rotating any one of the protot |
caustic tiles were extensively used for church | tiling schemes, from parish churches (such as Kembert |
picture languages, such as array grammars and | tiling systems. |
is constructed from a great rhombitrihexagonal | tiling extruded into prisms. |
ch as new bleachers in the main gymnasium, new | tiling and additional classrooms. |
ntipodal digon faces on a hexagonal hosohedron | tiling on the sphere. |
of prototiles is said to be aperiodic if every | tiling with those prototiles is an aperiodic tiling. |
As the name implies this | tiling is constructed by a truncation operation appli |
and settled in Rhoose where he works in floor | tiling. |
In this | tiling, isometric copies of T appears in infinitely m |
This results in a | tiling scheme with blue tiles that create a wavy patt |
The front of the entrance is tiled in Penrose | tiling. |
packing is arranged like the hexagons in this | tiling |
It is square | tiling with each square divided into four triangles f |
does not admit an isohedral (tile-transitive) | tiling. |
an still be seen in the Northern Line platform | tiling. |
ns (such as index set splitting, loop peeling, | tiling, loop fusion or fission, and transformation of |
creative texture and planar mapping, including | tiling, mirroring, decals, angle, rotate, blur, UV st |
sh windows in art glass, imported marbles, and | tiling. |
ile is the prototile of a monohedral aperiodic | tiling of three-dimensional Euclidean space, but it r |
same impossibility proof shows that no domino | tiling exists whenever any two white squares are remo |
ttern can be considered a nonregular hexagonal | tiling. |
It can be seen as parallel planes of square | tiling with alternating offsets caused by layers of p |
The symmetry group of the | tiling is the (2,3,7) triangle group, and a fundament |
A patch of newer | tiling in the wall near the northern end of the subwa |
Example of plane | tiling |
Example of a | tiling puzzle that utilizes negative space. |
This is the only such | tiling save the regular tessellation of cubes, and is |
This is the only edge-to-edge | tiling by regular convex polygons which contains an o |
It is also used as a floor or wall | tiling, sometimes with one fatter rhombus (or square) |
can be considered an infinite polyhedron or a | tiling of the plane. |
The dual order-3 heptagonal | tiling has the same symmetry group, and thus yields h |
In geometry, the order-3 heptagonal | tiling is a regular tiling of the hyperbolic plane. |
In geometry, the Truncated order-3 heptagonal | tiling is a semiregular tiling of the hyperbolic plan |
The symmetry group of the order-3 heptagonal | tiling has fundamental domain the (2,3,7) Schwarz tri |
In geometry, the order-5 square | tiling is a regular tiling of the hyperbolic plane. |
The dual order-7 triangular | tiling has the same symmetry group, and thus yields t |
The symmetry group of the order-7 triangular | tiling has fundamental domain the (2,3,7) Schwarz tri |
t is now possible to get perfect parallelogram | tiling of the time-frequency plane, using the method |
ch DPSSs are used to get a perfect rectangular | tiling of the time-frequency plane. |
ed since 2006, with the original platform wall | tiling, that had become badly damaged, being replaced |
uniform polyteron, uniform polypeton, uniform | tiling, and convex uniform honeycomb articles were co |
Isogonal polygon, polyhedron, polytope or | tiling. |
In geometry, the prismatic pentagonal | tiling is a dual uniform tiling in the Euclidean plan |
tal sets with interesting properties (periodic | tiling of the plane, self-similarity in three homothe |
that can be based from the regular heptagonal | tiling. |
ings that can be based from the regular square | tiling. |
s that can be based from the regular hexagonal | tiling (or the dual triangular tiling). |
the related Isohedral numbers, see Anisohedral | tiling. |
3.4.6.4 - semi-regular, rhombitrihexagonal | tiling |
each tag, including floating, several dynamic | tiling layouts, maximized and magnifier. |
stations on this line used a similar Vitrolite | tiling scheme with variations in colour combinations, |
The snub square | tiling can be seen related to this 3-colored square t |
In geometry, the Snub hexagonal | tiling (or snub trihexagonal tiling) is a semiregular |
32.4.3.4 - semi-regular, Snub square | tiling |
In geometry, the snub square | tiling is a semiregular tiling of the Euclidean plane |
The snub square | tiling can be constructed as a snub operation from th |
It is constructed from a Snub square | tiling extruded into prisms. |
wo distinct uniform colorings of a snub square | tiling. |
er Lu and Paul Steinhardt have studied Islamic | tiling patterns, called girih tiles. |
ins much of the original green tesserae mosaic | tiling, is a rare survival and was one of the reasons |
In geometry, the tetrakis square | tiling is a tiling of the Euclidean plane. |
n the hyperbolic plane, like the triheptagonal | tiling, (3.7)2. |
ich are topologically equivalent to the square | tiling, can be constructed from rhombi or parallelogr |
stone, with thick timbers supporting the stone | tiling of the roof. |
It is analogous to the square | tiling of the plane and to the cubic honeycomb of 3-s |
it is more closely related to the trihexagonal | tiling than to a mathematical lattice. |
be quasiregular, specifically the trihexagonal | tiling, with vertex configuration (3.6)2. |
This form of the Penrose | tiling has two prototiles, a fat rhombus (shown blue |
the one encountered above with the pentagonal | tiling in two dimensions. |
ally on their previous construct, the pinwheel | tiling. |
They all share with the Conway | tiling the property that tiles appear in infinitely m |
The station's | tiling took some damage and was replaced with a diffe |
It is analogous to the square | tiling of the plane and to the cubic honeycomb of 3-s |
pport visualization of data from the company's | tiling array platform and was also partly supported v |
omorphism group of order 168), and the induced | tiling has 24 heptagons, meeting at 56 vertices. |
At platform levels a number of the original | tiling schemes survive today or have, as at Lambeth N |
The dual | tiling is the order-7 triangular tiling. |
The dual | tiling is the order-3 heptagonal tiling. |
In geometry, the triheptagonal | tiling is a semiregular tiling of the hyperbolic plan |
In geometry, the trihexagonal | tiling is a semiregular tiling of the Euclidean plane |
The other two are the triangular | tiling and the hexagonal tiling. |
The dual | tiling is called an order-7 triakis triangular tiling |
The sanctuary | tiling is in brown opus sectile. |
The quaquaversal | tiling is a nonperiodic tiling of the euclidean 3-spa |
It is the dual of the uniform | tiling, snub hexagonal tiling, and has rotational sym |
The dual | tiling is called an order-3 heptakis heptagonal tilin |
ere's only 3 unique honeycombs from the square | tiling, but all 6 tiling truncations are listed below |
The 3-color | tiling is a tessellation generated by the order-3 per |
The hexagonal | tiling is the densest way to arrange circles in two d |
The original | tiling remains on the tunnel walls, although soot and |
In geometry, the rhombille | tiling is a tessellation of identical 60° rhombi on t |
her simple rhombic tilings, and the triangular | tiling. |
If the original | tiling is made of regular faces the new triangles wil |
proof of Hurwitz's automorphisms theorem, the | tiling is the universal tiling that covers all Hurwit |
proof of Hurwitz's automorphisms theorem, the | tiling is the universal tiling that covers all Hurwit |
This hyperbolic | tiling is topologically related as a part of sequence |
Compare to trihexagonal | tiling with vertex configuration 3.6.3.6. |
Original tree motif | tiling restored on Victoria line platforms represents |
In geometry, the Triakis triangular | tiling is a tiling of the Euclidean plane. |
e dual tessellation of the truncated hexagonal | tiling which has one triangle and two dodecagons at e |
the dual tessellation of the truncated square | tiling which has one square and two octagons at each |
ual tessellation of the truncated trihexagonal | tiling which has one square and one hexagon and one d |
In geometry, the truncated square | tiling is a semiregular tiling of the Euclidean plane |
In geometry, the truncated hexagonal | tiling is a semiregular tiling of the Euclidean plane |
In geometry, the Order 7 truncated heptagonal | tiling, sometimes called the hyperbolic soccerball, i |
stinct uniform colorings of a truncated square | tiling. |
It is constructed from a truncated hexagonal | tiling extruded into prisms. |
one uniform coloring of a truncated hexagonal | tiling. |
It is constructed from a truncated square | tiling extruded into prisms. |
The two latter types of | tiling puzzles are also called dissection puzzles. |
If there are n orbits of vertices, a | tiling is known as n-uniform or n-isogonal; if there |
idungsproblem, the logician Hao Wang discussed | tiling the plane by equally sized square plates with |
The original Eternity puzzle was a | tiling puzzle with a million-pound prize, created by |
The lyrics included 'If you were some | tiling, I would grout you.' and 'If you were ten pint |
(1875) Modest church building with polychromic | tiling. |
m name tablets and trim lines with cinderblock | tiling. |
he station was extensively renovated, with new | tiling at platform level, a partial new floor in the |
are topped by a steeply pitched roof with dark | tiling. |
in the early fourteenth century, with complex | tiling in carpet-patterns and pictorial vignettes pie |
ost symmetric genus 3 surface, together with a | tiling by 56 triangles, meeting at 24 vertices, with |
k's stations have been decorated with artistic | tiling or murals depicting local historical or tradit |
terrazzo floors and its walls lined with white | tiling. |
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