| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 仕立て服を製造するための方法およびシステム | JP2015542389 | 2013-11-12 | JP2016503540A | 2016-02-04 | インギラーミ ジョヴァンニ |
| ユーザに仕立て服(M)を製造させるための方法は、製造される仕立て服(M)と同じ種類のサンプル衣類(C)と、実際の標準化された寸法(M7,M8)を有する参照オブジェクト(O)とを含む、少なくとも1つの画像(I)を準備する工程と;少なくとも1つの画像(I)上で、参照オブジェクト(O)の寸法と、サンプル衣類(C)の基本的な寸法の一セット(M1,M2,M3,M4,M5,M6)を測定する工程と;サンプル衣類(C)の基本的な寸法のセットの実際の寸法値を、画像(I)で測定されたサンプル衣類(C)の基本的な寸法の一セット(M1,M2,M3,M4,M5,M6)の寸法値、参照オブジェクト(O)の寸法値および参照オブジェクト(O)の実際の寸法(M7,M8)の関数として計算する工程と;製造される仕立て服(M)の美的特徴を選択する工程と;サンプル衣類(C)の基本的な寸法のセットについて計算された実際の寸法値と、選択された美的特徴とを、仕立て装置(4)に転送する工程と;仕立て装置(4)において、仕立て服(M)を切断し、縫製する一連の操作を行い、その基本的な寸法が、サンプル衣類(C)の基本的な寸法のセットについて前回計算された前記実際の寸法値に実質的に等しい、仕立て服(M)を製造する工程とを備える。【選択図】図1 | ||||||
| 42 | The method and system of the special tailor-made and garment retail clothing | JP2009553912 | 2008-03-19 | JP2010521253A | 2010-06-24 | アーブロー,アルヴォ; アベルス,アルトゥール; クルースマ,マールヤ; ハルドレ,ヘイッキ; ヒンデペレ,エネ; ペーリン,ポール; レイヌス,ローマン |
| 特別注文仕立て方法は、第1の場所における顧客の三次元スキャニングによって顧客の体の三次元イメージを得る工程と、前記イメージ、又は前記体の三次元イメージから計算される体の複数の採寸値の組をネットワークを通じて第2の場所に送信する工程と、特別注文仕立て及びフィッティングのために第2の場所にあるコンピュータ制御可能なマネキンを調整する工程とを含む。 また、オンラインの買い物客に衣服を披露するための方法も開示されている。 その方法は、オンライン接続を通じて買い物客の採寸値を受け取る工程と、前記買い物客の採寸値に対応した第1の規格化されたサイズを決定する工程と、前記買い物客の採寸知勇するマネキンに衣服を着せる工程と、前記マネキンに着せた衣服を再現した複数のイメージの第1の組を得る工程と、前記複数のイメージの第1の組を買い物客に提示する工程とを含む。
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| 43 | Browse garment model over a computer network, storage and a method and apparatus for transmission | JP2003577678 | 2003-03-24 | JP2005524777A | 2005-08-18 | ワン,ケネス,クックキー |
| 本発明は、コンピュータネットワーク上での衣服モデルの閲覧、保存および送信のための方法および装置に関する。 本発明の方法は、実マネキン(2)であって、仮想人間モデルのコピーでありかつ対象となる顧客(1)を表す前記マネキンをいくつかの異なる方向から写真撮影を行うことを含む。 仮想マネキン閲覧層および衣服モデルを、写真台(13,14,15,16,17,27,28)から懸架された裸または衣服を着たマネキン(2)のデジタル画像から作成する(3)。 レーザビーム(27)を用いて、マネキン(2)の正確な位置を決定する。 その後、トリミング用標識(17)および記録された基準線を用いて、閲覧層とモデルとを正確に合成(4)することができる。 前記データは、ベース(22)にアーカイブされ、遠隔地での閲覧のため、イントラネット、エクストラネットまたはインタネット上を送信される(5)。 本発明の方法および装置は、衣料業界における衣料サンプルのデザイン、製造、および検査に特に適している。 | ||||||
| 44 | Method for identifying a human body outline | JP2002590050 | 2001-05-11 | JP2004527055A | 2004-09-02 | クツクキー ワン,ケネス |
| 本発明は人体の輪郭を同定するための全般的な方法に関し、
a)予備段階を含み、これはa1)目標とする個体群(3)または与えられた目標を代表するものと考えられる生きたモデルのいずれかの体の三次元ディジタル化から導かれた形態学上のデータを、移入すること;a2)該データを、人体の標準輪郭(11)データベースを得るように予め決められた鍵となる規準に基づいて組織化し蓄積すること;からなり、そしてb)該データベース(11)中で、観察された対象(13)の体に適合する輪郭を選ぶことからなる次の段階を含むことを特徴としている。 【選択図】 図1 |
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| 45 | Measuring device for sizes of ready-made articles of clothing | JP4883081 | 1981-03-31 | JPS57161602A | 1982-10-05 | AISAKA NOBORU; NISHIKAWA SHIGERU; SHIBUYA ATSUO; BETSUSHIYO YASUO; AKAMI HITOSHI; OGAWA SHIGEO |
| PURPOSE: To perform a scientific and economical measurement of sizes of articles of clothing, by a method wherein shape-holding segments, provided with a sensor for detecting a contact pressure with an article of clothing at the forward end thereof, are aligned at each part of a basic body. CONSTITUTION: A measuring dummy 1 consists of a shoulder part 3, a breast part 4, a trunk part 5, a waist part 6 and other parts to form a basic body 2 imitating the body. Shape holding segments 3aW6a formed in the shape of a curved line and curved surface are located in each part of the basic body 2 so that they can freely be driven in a direction in which they come in and out by means of a protruding piece 7 and a miniaturized motor 8. A sensor 9 for detecting a contact pressure with an article of clothing is installed to each of the shape holding segments 3aW6a. An article of clothing 13 is attached to the dummy 1, the motor 8 is run by a controller 10, and the motor 8 is caused to stop running at a time when the sensor 9 makes contact with the article of clothing 13 to indicate (12) the measurements through the working of a computing processor 11. This enables to perform an economical measurement and a measurement of sizes of all body forms by means of a single device, which results in performing an economical measurement. COPYRIGHT: (C)1982,JPO&Japio | ||||||
| 46 | Automatic measuring method for size of human body and device therefor | JP1992480 | 1980-02-19 | JPS56115904A | 1981-09-11 | TAKADA MUNEKAZU; EZAKI TOSHIO |
| PURPOSE: To measure solid sizes automatically by positioning the human body in an optical device constituted by a group of pairs of projectors and light-receiving sensors. CONSTITUTION: The human body 1 is positioned in the posture of repose on a fixed round-plate floor 2. In a corresponding position outside the fixed round-plate floor 2 are provided a group of projectors 3 and a group of light-receiving sensors and is arranged the optical device which can be rotated by a rotary mechanism device 5. And the optical device takes the measure of an actual shadow pattern in the middle of the half rotation thereof, e.g. at every angle of 15° and stores the same as digital data in the memory device of a computer 6. The computer 6 analyzes automatically the digital data stored in the memory device and calculates solid sizes required. COPYRIGHT: (C)1981,JPO&Japio | ||||||
| 47 | 사용자 신체 데이터에 기반한 체형 분석 방법 및 장치 | KR1020140177526 | 2014-12-10 | KR1020160070498A | 2016-06-20 | 박세진; 민승남; 이희란; 신유경; 무랄리 |
| 본발명은사용자신체데이터에기반한체형분석방법및 장치에관한것이다. 본발명에따른사용자신체데이터에기반한체형분석방법은사용자의신체데이터를입력하는입력단계, 상기신체데이터를이용하여상기사용자의체형정보를획득하는획득단계및 획득한상기체형정보를출력하는출력단계를포함할수 있다. | ||||||
| 48 | 의상의 맞춤재단 및 소매 방법 및 장치 | KR1020097021723 | 2008-03-19 | KR1020100015671A | 2010-02-12 | 크루스마,마야; 애브루,알보; 아벨,아르투르; 레이누스,로만; 핼드레,헤키; 푈린,폴; 힌드페레,애니 |
| A method of custom tailoring comprises obtaining a three dimensional image of the body of a customer by three dimensional scanning of the customer in one location, transferring said image or a set of body measurements, calculated from said body image, over a network, to a second geographical location and adjusting a computer controllable mannequin in such second location for custom tailoring and fitting. Also disclosed is a method for demonstrating a piece of clothing to a online shopper. The method comprises receiving the shopper's measurements over an online connection, determining a first standardized size corresponding to said shopper's measurements; putting said piece of clothing on a mannequin having shopper's measurements; obtaining a first set of images representing said piece of clothing on said mannequin; and presenting the shopper with said first set of images. | ||||||
| 49 | 여성용 한복 두루마기의 설계방법 | KR1020080120396 | 2008-12-01 | KR100888818B1 | 2009-03-17 | 박태복 |
| A design method of Korean traditional top coat for woman is provided, which makes the movement of armpit part comfortable. A design method of Korean traditional top coat for woman is constituted as follows. The design size of the back(L1) is (the size of the breast / 4) + 4cm based on the breast passing the armpit. The design size of the front is (the size of the bust / 4) + 4cm based on the bust passing papilla. The design size of the shoulder(L3) is ((neck girth / 2) +0.5) / 2cm based on the size of the neck girth. The design size of armhole(L4) is (the body size of armhole/2) + 6cm. The design size(L5) of the armpit is the design size of armhole + 5cm. The design size of the back and front is the total size from the neck to the ground - 20cm. The design size of waistline is size of armhole + 12cm. The design sleeve size is body sleeve size + 1cm. | ||||||
| 50 | Determining a size of an item based on comparisons of dimensional and stretch data | US15070077 | 2016-03-15 | US10119814B2 | 2018-11-06 | Matthew Tyler Wilkinson; Grant B. Fresen; Nicholas B. End; Erich Wolodzko |
| A system for recommending a size of a wearable item implements a method that includes identifying a reference wearable item and a size for the reference wearable item. The system accesses a wearable item database and retrieves a three-dimensional model of the reference wearable item. The system also receives, via a user interface, a functional requirement. The system accesses the wearable item database and identifies set of candidate objects, each of which satisfies the functional requirement. Based on the size of the reference wearable item, the system will determine a size for each of the candidate objects. The system will select at least one of the plurality of candidate objects as a recommended object and presents each recommended object and the size of each recommended object to a user. | ||||||
| 51 | Method and system for making tailored garments | US14442435 | 2013-11-12 | US09642408B2 | 2017-05-09 | Giovanni Inghirami |
| A method for allowing a user to make a tailored garment (M) comprises the following steps: preparing at least one image (I) comprising a sample garment (C) of the same type as the tailored garment (M) to be made and also comprising a reference object (O) with actual standardized dimensions (M7,M8); measuring on the at least one image (I) the dimensions of the reference object (O) and a set of basic dimensions (M1,M2,M3,M4,M5,M6) of the sample garment (C); calculating the actual dimensional values of the set of basic dimensions of the sample garment (C) as a function of: the dimensional values of the set of basic dimensions (M1,M2,M3,M4,M5,M6) of the sample garment (C) measured on the image (I), the dimensional values of the reference object (O) and the actual dimensions (M7,M8) of the reference object (O); selecting the aesthetic features of the tailored garment (M) to be made; transmitting to a tailoring apparatus (4) the calculated actual dimensional values of the set of basic dimensions of the sample garment (C) and the selected aesthetic features; performing on the tailoring apparatus (4) a sequence of operations of cutting and sewing the tailored garment (M), to make the tailored garment (M) so its basic dimensions are substantially equal to the previously calculated actual dimensional values of the set of basic dimensions of the sample garment (C). | ||||||
| 52 | Automated garment photography with fit adjustment | US14099211 | 2013-12-06 | US09554096B1 | 2017-01-24 | Harry James Lewis Eakins |
| Apparatuses, systems, and methods for implementing a computerized garment photography system are described. A garment is placed on an exterior surface of the mannequin. The mannequin is controllable to assume a series of size combinations via one or more moveable portions of the robotic mannequin. One or more image capture devices capture a plurality of images of the mannequin as the mannequin assumes the size combinations. A fit adjustment mechanism adjusts a placement of the garment on the exterior surface of the mannequin during the automated photography process. | ||||||
| 53 | Internal measurement collection system and method of using same | US13492221 | 2012-06-08 | US09514487B2 | 2016-12-06 | Matthew Tyler Wilkinson; Grant B. Fresen; Nicholas B. End; Michael Lin |
| A system for measuring dimensions and/or other internal properties of a shoe, garment or other object of interest is described. The system includes a fixture having a measurement tip. When the tip is placed inside of the object of interest, a processor collects positional data from the fixture to develop a three-dimensional model of the interior of the object. If the measurement tip includes one or more pressure sensors, the processor may collect pressure data and use the pressure data to include stretch properties in the three-dimensional model. | ||||||
| 54 | METHOD AND SYSTEM FOR MEASURING 3-DIMENSIONAL OBJECTS | US15035317 | 2014-11-06 | US20160286906A1 | 2016-10-06 | Noam MALAL; Omer KOREN |
| A method for obtaining size and shape data of a subject comprising positioning a substantially two dimensional reference object on a plane near to the subject; providing a digital camera comprising a display screen, a digital imaging chip, a processor, a memory and a transmitter; imaging the object and subject on the display screen together with a framework corresponding to a projection of the reference object from a desired angle, and tilting the screen together with a framework corresponding to an outline of the reference object to align the outline with the perimeter of the reference object on the screen. | ||||||
| 55 | Garment simulation using thread and data level parallelism | US14530636 | 2014-10-31 | US09378593B2 | 2016-06-28 | Jatin Chhugani; Jonathan Su; Mihir Naware |
| Techniques for three-dimensional garment simulation using parallel computing are presented herein. An access module can be configured to access a three-dimensional garment model of a garment. The garment model can include garment points that represent a surface of the garment. A processor, having a plurality of cores, can be configured by a garment simulation module to calculate one or more exerted forces on a subset of garment points. Additionally, the garment simulation module can generate cross pairs and apportion the generated cross pairs among the plurality of cores. Moreover, the garment simulation module can determine, using the plurality of vector execution units in parallel based on an organized data layout, whether boundaries of the first subgroup of cross pairs are overlapping based on the one or more exerted forces. Subsequently, the garment simulation module can calculate one or more simulated forces acting on the garment points based on the determination. | ||||||
| 56 | Method of smart grading based on parameterized draft | US14187119 | 2014-02-21 | US09378586B2 | 2016-06-28 | Moonhwan Jeong; Hyeong-Seok Ko |
| An automatic garment grading is provided. A retargeting technique is used with the mediator and the correspondence function. The mediator is a parameterized draft. Local coordinates systems are used for making correspondence. The mean value coordinates system (MVC) are improved so that the weights would have positive values, which is omitted mean value coordinates (OMVC). The mediator is parameterized draft, and correspondence function is the OMVC in the method. Smart grading can minimize designer's specialized know-how and save performing time for the grading of real garment and virtual garment. | ||||||
| 57 | BRA FITTING METHOD | US14784615 | 2014-04-16 | US20160076884A1 | 2016-03-17 | Dominicus Jozef Laan; Roel De Rijck; Michael F.J. Bal; Sabine M. Dotremont; Geert Jozef Van Der Biest; Lieve R. Vermeire |
| The present invention relates to a bra fitting method for determining and presenting customized advice for bras. Compared to existing methods the present method is based on an optimized fitting of the bodily dimensions with the functional characteristics of a bra model. Applying a given technique, the present invention incorporates the functional characteristics, and in particular the lifting, shaping and covering of the bra in the brassiere measurement method. As such the method of the present invention results in a customized advice, allowing users to gain insights in the fitting requirements and providing them with a confidence to seek and identify a correctly fitting bra. | ||||||
| 58 | OMNI-CHANNEL SIMULATED DIGITAL APPAREL CONTENT DISPLAY | US14503287 | 2014-09-30 | US20150134495A1 | 2015-05-14 | Mihir Naware; Jatin Chhugani; Jonathan Su |
| Techniques for an omni-channel approach for displaying simulated digital apparel content are presented herein. A machine can detect an available amount of a computing resource on a client device. A determination that the client device is to render only a three-dimensional body model, among a set of models that includes the three-dimensional body model and a three-dimensional garment model, and that a server is to render the three-dimensional garment model, may occur based on the detected available amount of the computing resource on the client device. The machine can provide the client device with the three-dimensional garment model draped on the three-dimensional body model. The machine can cause the server to render at least a portion of the three-dimensional garment model in accordance with the determination. The machine can cause the client device to render at least a portion of the three-dimensional body model in accordance with the determination. | ||||||
| 59 | GARMENT SIMULATION USING THREAD AND DATA LEVEL PARALLELISM | US14530636 | 2014-10-31 | US20150130795A1 | 2015-05-14 | Jatin Chhugani; Jonathan Su; Mihir Naware |
| Techniques for three-dimensional garment simulation using parallel computing are presented herein. An access module can be configured to access a three-dimensional garment model of a garment. The garment model can include garment points that represent a surface of the garment. A processor, having a plurality of cores, can be configured by a garment simulation module to calculate one or more exerted forces on a subset of garment points. Additionally, the garment simulation module can generate cross pairs and apportion the generated cross pairs among the plurality of cores. Moreover, the garment simulation module can determine, using the plurality of vector execution units in parallel based on an organized data layout, whether boundaries of the first subgroup of cross pairs are overlapping based on the one or more exerted forces. Subsequently, the garment simulation module can calculate one or more simulated forces acting on the garment points based on the determination. | ||||||
| 60 | Taper number for clothing (especially shirts) | US13655092 | 2012-12-10 | US20140157492A1 | 2014-06-12 | Zeljko Situm |
| Taper number is number that expres difference between circumstance of chest and waist of a shirt (or other upper garment). It is more precise expression of shirt fit. | ||||||
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