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Curet
Arnaud Curet, Senlis FR
| Patent application number | Description | Published |
|---|---|---|
| 20100116435 | COMPOSITION FOR STRUCTURAL ADHESIVE - The invention relates to a composition for an acrylic structural adhesive containing a mixture of block copolymers, of elastomer and of elastomeric polymer particles. | 05-13-2010 |
| 20110083804 | COMPOSITION FOR STRUCTURAL ADHESIVE - The invention relates to a composition for a structural acrylic adhesive that comprises an adhesion promoter including a phosphate ester and a high molecular-weight polyamine as a polymerisation accelerator. | 04-14-2011 |
Arnaud Curet, Fontaine Chaalis FR
| Patent application number | Description | Published |
|---|---|---|
| 20100084092 | COMPOSITION FOR STRUCTURAL ADHESIVE - The invention relates to composition for an acrylic structural adhesive containing a mixture of block copolymers containing styrene and an elastomer. | 04-08-2010 |
Daniel Curet, Los Angeles, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090184077 | STYLING STATION - A versatile styling station includes a product retainer, a pair of straps coupled to the product retainer and an attachment mechanism associated with the product retainer and the straps. The attachment mechanism connects the styling station to a corresponding base, comprising a chair back, an armrest or a door. The straps slidingly adjust to level the product retainer after connection of the styling station to the base. The corresponding attachment mechanism may comprise an adjustable hook or a pair of looped extensions formed from the straps. | 07-23-2009 |
Myriam J. Curet, Los Altos, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20100164950 | EFFICIENT 3-D TELESTRATION FOR LOCAL ROBOTIC PROCTORING - An apparatus is configured to show telestration in 3-D to a surgeon in real time. A proctor is shown one side of a stereo image pair, such that the proctor can draw a telestration line on the one side with an input device. Points of interest are identified for matching to the other side of the stereo image pair. In response to the identified points of interest, regions and features are identified and used to match the points of interest to the other side. Regions can be used to match the points of interest. Features of the first image can be matched to the second image and used to match the points of interest to the second image, for example when the confidence scores for the regions are below a threshold value. Constraints can be used to evaluate the matched points of interest, for example by excluding bad points. | 07-01-2010 |
| 20100318099 | VIRTUAL MEASUREMENT TOOL FOR MINIMALLY INVASIVE SURGERY - Robotic and/or measurement devices, systems, and methods for telesurgical and other applications employ input devices operatively coupled to tools so as to allow a system user to manipulate tissues and other structures being measured. The system may make use of three dimensional position information from stereoscopic images. Two or more discrete points can be designated in three dimensions so as to provide a cumulative length along a straight or curving structure, an area measurement, a volume measurement, or the like. The discrete points may be identified by a single surgical tool or by distances separating two or more surgical tools, with the user optionally measuring a structure longer than a field of view of the stereoscopic image capture device by walking a pair of tools “hand-over-hand” along the structure. By allowing the system user to interact with the tissues while designating the tissue locations, and by employing imaging data to determine the measurements, the measurement accuracy and ease of measurement may be enhanced. | 12-16-2010 |
Myrian J. Curet, Los Altos, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20100317965 | VIRTUAL MEASUREMENT TOOL FOR MINIMALLY INVASIVE SURGERY - Robotic and/or measurement devices, systems, and methods for telesurgical and other applications employ input devices operatively coupled to tools so as to allow a system user to manipulate tissues and other structures being measured. The system may make use of three dimensional position information from stereoscopic images. Two or more discrete points can be designated in three dimensions so as to provide a cumulative length along a straight or curving structure, an area measurement, a volume measurement, or the like. The discrete points may be identified by a single surgical tool or by distances separating two or more surgical tools, with the user optionally measuring a structure longer than a field of view of the stereoscopic image capture device by walking a pair of tools “hand-over-hand” along the structure. By allowing the system user to interact with the tissues while designating the tissue locations, and by employing imaging data to determine the measurements, the measurement accuracy and ease of measurement may be enhanced. | 12-16-2010 |