Patents by Inventor Markus Kaufmann
Markus Kaufmann has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20200153319Abstract: To enhance process reliability when processing wire ends during the course of a production of a machine element of an electric machine, a positioning and clamping device configured to position and clamp one or several wire ends for further processing during the course of the production of the machine element of the electric machine, comprises a capturing device for capturing and positioning the at least one wire end, wherein the capturing device has at least one oblique guide for the relative positioning of the at least one wire end. Furthermore, a corresponding clamping and positioning method is described.Type: ApplicationFiled: June 12, 2018Publication date: May 14, 2020Inventors: Johannes REISER, Markus KAUFMANN, Günter DREIER
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Patent number: 10166088Abstract: A method and apparatus are disclosed enabling an orthodontist or a user to create an unified three dimensional virtual craniofacial and dentition model of actual, as-is static and functional anatomy of a patient, from data representing facial bone structure; upper jaw and lower jaw; facial soft tissue; teeth including crowns and roots; information of the position of the roots relative to each other; and relative to the facial bone structure of the patient; obtained by scanning as-is anatomy of craniofacial and dentition structures of the patient with a volume scanning device; and data representing three dimensional virtual models of the patient's upper and lower gingiva, obtained from scanning the patient's upper and lower gingiva either (a) with a volume scanning device, or (a) with a surface scanning device. Such craniofacial and dentition models of the patient can be used in optimally planning treatment of a patient.Type: GrantFiled: January 3, 2018Date of Patent: January 1, 2019Assignee: Ora Metrix, Inc.Inventors: Rohit Sachdeva, Peer Sporbert, Phillip Getto, Markus Kaufmann, Charles L. Abraham
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Patent number: 10092373Abstract: The present invention discloses orthodontic treatment planning which enables designing the desired smile line with the help of a computer workstation. A new lip trace feature enables cutting out the portion of a photograph corresponding to the area inside the lips. The 3D model of the teeth is then completely visible when overlaid with the facial photograph. One can use this feature to superimpose the patient photo over the 3-D model of the teeth to see how much intrusion or extrusion is needed to design the smile line. Three dimensional model of dentition obtained by scanning of teeth along with the patient's two dimensional facial photograph is used to design the desired smile line for the patient by means of software instructions in the workstation.Type: GrantFiled: January 1, 2014Date of Patent: October 9, 2018Assignee: OraMetrix, Inc.Inventors: Charles L Abraham, Phillip Getto, Peer Sporbert, Markus Kaufmann
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Publication number: 20180256294Abstract: The present invention discloses orthodontic treatment planning which enables designing the desired smile line with the help of a computer workstation. A new lip trace feature enables cutting out the portion of a photograph corresponding to the area inside the lips. The 3D model of the teeth is then completely visible when overlaid with the facial photograph. One can use this feature to superimpose the patient photo over the 3-D model of the teeth to see how much intrusion or extrusion is needed to design the smile line. Three dimensional model of dentition obtained by scanning of teeth along with the patient's two dimensional facial photograph is used to design the desired smile line for the patient by means of software instructions in the workstation.Type: ApplicationFiled: January 1, 2014Publication date: September 13, 2018Applicant: OraMetrix, Inc.Inventors: Charles L Abraham, Phillip Getto, Peer Sporbert, Markus Kaufmann
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Publication number: 20180153646Abstract: A method and apparatus are disclosed enabling an orthodontist or a user to create an unified three dimensional virtual craniofacial and dentition model of actual, as-is static and functional anatomy of a patient, from data representing facial bone structure; upper jaw and lower jaw; facial soft tissue; teeth including crowns and roots; information of the position of the roots relative to each other; and relative to the facial bone structure of the patient; obtained by scanning as-is anatomy of craniofacial and dentition structures of the patient with a volume scanning device; and data representing three dimensional virtual models of the patient's upper and lower gingiva, obtained from scanning the patient's upper and lower gingiva either (a) with a volume scanning device, or (a) with a surface scanning device. Such craniofacial and dentition models of the patient can be used in optimally planning treatment of a patient.Type: ApplicationFiled: January 3, 2018Publication date: June 7, 2018Inventors: Rohit Sachdeva, Peer Sporbert, Phillip Getto, Markus Kaufmann, Charles L. Abraham
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Patent number: 9888983Abstract: A method and apparatus are disclosed enabling an orthodontist or a user to create an unified three dimensional virtual craniofacial and dentition model of actual, as-is static and functional anatomy of a patient, from data representing facial bone structure; upper jaw and lower jaw; facial soft tissue; teeth including crowns and roots; information of the position of the roots relative to each other; and relative to the facial bone structure of the patient; obtained by scanning as-is anatomy of craniofacial and dentition structures of the patient with a volume scanning device; and data representing three dimensional virtual models of the patient's upper and lower gingiva, obtained from scanning the patient's upper and lower gingiva either (a) with a volume scanning device, or (a) with a surface scanning device. Such craniofacial and dentition models of the patient can be used in optimally planning treatment of a patient.Type: GrantFiled: July 14, 2016Date of Patent: February 13, 2018Assignee: OraMetrix, IncInventors: Rohit Sachdeva, Peer Sporbert, Phillip Getto, Markus Kaufmann, Charles L. Abraham
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Patent number: 9782236Abstract: A method and system are disclosed for finding virtual tooth features on virtual three-dimensional models of the teeth of patients. The tooth features comprise marginal ridges, cusp tips, contact points, central groove and buccal groove. Tooth axes system plays a key role in identifying the tooth features. An iterative method is disclosed for improving the accuracy of the tooth axes system. A virtual three-dimension model preferably obtained by scanning the dentition of a patient forms the basis for determining the tooth features. Tooth features are derived for all categories of teeth including molars, premolars, canines and front teeth. Tooth features are very helpful and used in planning orthodontic treatment. The tooth features are determined automatically using the computerized techniques; and can be manually adjusted when necessary.Type: GrantFiled: February 25, 2010Date of Patent: October 10, 2017Assignee: OraMetrix, Inc.Inventors: Peer Sporbert, Hans Imgrund, Markus Kaufmann
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Patent number: 9687317Abstract: The present invention discloses orthodontic treatment planning using virtual articulator with the help of a computer workstation. A virtual articulator can be activated from the workstation. The virtual articulator displays opening/closing movements, and left/right excursive movements. One can also adjust the angle of the articular eminence to more accurately display the patient's chewing motion. Treatment planning simulation using virtual articulator can detect collision of teeth and lead to a treatment plan that can avoid such collisions. Composite three dimensional models of dentition obtained by scanning of teeth and through CBCT are used in identifying the articulator; which is then used in virtual simulation by means of software instructions in the workstation.Type: GrantFiled: December 31, 2013Date of Patent: June 27, 2017Assignee: OraMetrix, Inc.Inventors: Phillip Getto, Peer Sporbert, Markus Kaufmann
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Patent number: 9572636Abstract: A method and system are disclosed for finding virtual tooth features on virtual three-dimensional models of the teeth of patients. The tooth features comprise marginal ridges, cusp tips, contact points, central groove and buccal groove. Tooth axes system plays a key role in identifying the tooth features. An iterative method is disclosed for improving the accuracy of the tooth axes system. A virtual three-dimension model preferably obtained by scanning the dentition of a patient forms the basis for determining the tooth features. Tooth features are derived for all categories of teeth including molars, premolars, canines and front teeth. Tooth features are very helpful and used in planning orthodontic treatment. The tooth features are determined automatically using the computerized techniques; and can be manually adjusted when necessary.Type: GrantFiled: December 19, 2013Date of Patent: February 21, 2017Assignee: ORAMETRIX, INC.Inventors: Peer Sporbert, Hans Imgrund, Markus Kaufmann
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Patent number: 9561088Abstract: A method and apparatus are disclosed enabling an orthodontist or a user to create an unified three dimensional virtual craniofacial and dentition model of actual, as-is static and functional anatomy of a patient, from data representing facial bone structure; upper jaw and lower jaw; facial soft tissue; teeth including crowns and roots; information of the position of the roots relative to each other; and relative to the facial bone structure of the patient; obtained by scanning as-is anatomy of craniofacial and dentition structures of the patient with a volume scanning device; and data representing three dimensional virtual models of the patient's upper and lower gingiva, obtained from scanning the patient's upper and lower gingiva either (a) with a volume scanning device, or (a) with a surface scanning device. Such craniofacial and dentition models of the patient can be used in optimally planning treatment of a patient.Type: GrantFiled: December 31, 2014Date of Patent: February 7, 2017Assignee: ORAMETRIX, INC.Inventors: Rohit Sachdeva, Peer Sporbert, Phillip Getto, Markus Kaufmann, Charles L. Abraham
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Patent number: 9504538Abstract: A method and apparatus are disclosed enabling an orthodontist or a user to create an unified three dimensional virtual craniofacial and dentition model of actual, as-is static and functional anatomy of a patient, from data representing facial bone structure; upper jaw and lower jaw; facial soft tissue; teeth including crowns and roots; information of the position of the roots relative to each other; and relative to the facial bone structure of the patient; obtained by scanning as-is anatomy of craniofacial and dentition structures of the patient with a volume scanning device; and data representing three dimensional virtual models of the patient's upper and lower gingiva, obtained from scanning the patient's upper and lower gingiva either (a) with a volume scanning device, or (a) with a surface scanning device. Such craniofacial and dentition models of the patient can be used in optimally planning treatment of a patient.Type: GrantFiled: December 31, 2014Date of Patent: November 29, 2016Assignee: ORAMETRIX, INC.Inventors: Rohit Sachdeva, Peer Sporbert, Phillip Getto, Markus Kaufmann, Charles L. Abraham
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Publication number: 20160317250Abstract: A method and apparatus are disclosed enabling an orthodontist or a user to create an unified three dimensional virtual craniofacial and dentition model of actual, as-is static and functional anatomy of a patient, from data representing facial bone structure; upper jaw and lower jaw; facial soft tissue; teeth including crowns and roots; information of the position of the roots relative to each other; and relative to the facial bone structure of the patient; obtained by scanning as-is anatomy of craniofacial and dentition structures of the patient with a volume scanning device; and data representing three dimensional virtual models of the patient's upper and lower gingiva, obtained from scanning the patient's upper and lower gingiva either (a) with a volume scanning device, or (a) with a surface scanning device. Such craniofacial and dentition models of the patient can be used in optimally planning treatment of a patient.Type: ApplicationFiled: July 14, 2016Publication date: November 3, 2016Inventors: Rohit Sachdeva, Peer Sporbert, Phillip Getto, Markus Kaufmann, Charles L. Abraham
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Patent number: 9421074Abstract: A method and apparatus are disclosed enabling an orthodontist or a user to create an unified three dimensional virtual craniofacial and dentition model of actual, as-is static and functional anatomy of a patient, from data representing facial bone structure; upper jaw and lower jaw; facial soft tissue; teeth including crowns and roots; information of the position of the roots relative to each other; and relative to the facial bone structure of the patient; obtained by scanning as-is anatomy of craniofacial and dentition structures of the patient with a volume scanning device; and data representing three dimensional virtual models of the patient's upper and lower gingiva, obtained from scanning the patient's upper and lower gingiva either (a) with a volume scanning device, or (a) with a surface scanning device. Such craniofacial and dentition models of the patient can be used in optimally planning treatment of a patient.Type: GrantFiled: May 15, 2011Date of Patent: August 23, 2016Assignee: ORAMETRIX, INC.Inventors: Rohit Sachdeva, Peer Sporbert, Phillip Getto, Markus Kaufmann, Charles L. Abraham
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Patent number: 9412166Abstract: A method and apparatus are disclosed enabling an orthodontist or a user to create an integrated three dimensional digital model of dentition and surrounding anatomy of an orthodontic patient from a three-dimensional digital model obtained using a scanner with a three-dimensional digital model obtained using a Cone Beam Computed Tomography (CBCT) or Magnetic Resonance Tomography (MRT) imaging devices. The digital data obtained from scanning as well as from CBCT imaging are downloaded into a computer workstation, and registered together in order to create a comprehensive 3-D model of the patient's teeth with roots, bones and soft tissues. The invention provides substantial improvement over the traditional two dimensional imaging modalities such as x-rays, photographs, cephalometric tracing for diagnosis and treatment planning.Type: GrantFiled: May 1, 2010Date of Patent: August 9, 2016Assignee: ORAMETRIX, INC.Inventors: Phillip Getto, Rohit Sachdeva, Peer Sporbert, Markus Kaufmann
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Publication number: 20150374460Abstract: A method and apparatus are disclosed enabling an orthodontist or a user to create an unified three dimensional virtual craniofacial and dentition model of actual, as-is static and functional anatomy of a patient, from data representing facial bone structure; upper jaw and lower jaw; facial soft tissue; teeth including crowns and roots; information of the position of the roots relative to each other; and relative to the facial bone structure of the patient; obtained by scanning as-is anatomy of craniofacial and dentition structures of the patient with a volume scanning device; and data representing three dimensional virtual models of the patient's upper and lower gingiva, obtained from scanning the patient's upper and lower gingiva either (a) with a volume scanning device, or (a) with a surface scanning device. Such craniofacial and dentition models of the patient can be used in optimally planning treatment of a patient.Type: ApplicationFiled: December 31, 2014Publication date: December 31, 2015Inventors: Rohit Sachdeva, Peer Sporbert, Phillip Getto, Markus Kaufmann, Charles L. Abraham
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Publication number: 20150359614Abstract: A method and apparatus are disclosed enabling an orthodontist or a user to create an unified three dimensional virtual craniofacial and dentition model of actual, as-is static and functional anatomy of a patient, from data representing facial bone structure; upper jaw and lower jaw; facial soft tissue; teeth including crowns and roots; information of the position of the roots relative to each other; and relative to the facial bone structure of the patient; obtained by scanning as-is anatomy of craniofacial and dentition structures of the patient with a volume scanning device; and data representing three dimensional virtual models of the patient's upper and lower gingiva, obtained from scanning the patient's upper and lower gingiva either (a) with a volume scanning device, or (a) with a surface scanning device. Such craniofacial and dentition models of the patient can be used in optimally planning treatment of a patient.Type: ApplicationFiled: December 31, 2014Publication date: December 17, 2015Inventors: Rohit Sachdeva, Peer Sporbert, Phillip Getto, Markus Kaufmann, Charles L. Abraham
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Publication number: 20150182303Abstract: The present invention discloses orthodontic treatment planning which enables designing the desired smile line with the help of a computer workstation. A new lip trace feature enables cutting out the portion of a photograph corresponding to the area inside the lips. The 3D model of the teeth is then completely visible when overlaid with the facial photograph. One can use this feature to superimpose the patient photo over the 3-D model of the teeth to see how much intrusion or extrusion is needed to design the smile line. Three dimensional model of dentition obtained by scanning of teeth along with the patient's two dimensional facial photograph is used to design the desired smile line for the patient by means of software instructions in the workstation.Type: ApplicationFiled: January 1, 2014Publication date: July 2, 2015Applicant: OraMetrix, Inc.Inventors: Charles L Abraham, Phillip Getto, Peer Sporbert, Markus Kaufmann
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Publication number: 20150173855Abstract: A method and system are disclosed for finding virtual tooth features on virtual three-dimensional models of the teeth of patients. The tooth features comprise marginal ridges, cusp tips, contact points, central groove and buccal groove. Tooth axes system plays a key role in identifying the tooth features. An iterative method is disclosed for improving the accuracy of the tooth axes system. A virtual three-dimension model preferably obtained by scanning the dentition of a patient forms the basis for determining the tooth features. Tooth features are derived for all categories of teeth including molars, premolars, canines and front teeth. Tooth features are very helpful and used in planning orthodontic treatment. The tooth features are determined automatically using the computerized techniques; and can be manually adjusted when necessary.Type: ApplicationFiled: December 19, 2013Publication date: June 25, 2015Applicant: OraMetrix, Inc.Inventors: Peer Sporbert, Hans Imgrund, Markus Kaufmann
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Publication number: 20150145856Abstract: A method and system are disclosed for finding virtual tooth features on virtual three-dimensional models of the teeth of patients. The tooth features comprise marginal ridges, cusp tips, contact points, central groove and buccal groove. Tooth axes system plays a key role in identifying the tooth features. An iterative method is disclosed for improving the accuracy of the tooth axes system. A virtual three-dimension model preferably obtained by scanning the dentition of a patient forms the basis for determining the tooth features. Tooth features are derived for all categories of teeth including molars, premolars, canines and front teeth. Tooth features are very helpful and used in planning orthodontic treatment. The tooth features are determined automatically using the computerized techniques; and can be manually adjusted when necessary.Type: ApplicationFiled: November 27, 2013Publication date: May 28, 2015Applicant: OraMetrix, Inc.Inventors: Peer Sporbert, Hans Imgrund, Markus Kaufmann
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Publication number: 20140188448Abstract: The present invention discloses orthodontic treatment planning using virtual articulator with the help of a computer workstation. A virtual articulator can be activated from the workstation. The virtual articulator displays opening/closing movements, and left/right excursive movements. One can also adjust the angle of the articular eminence to more accurately display the patient's chewing motion. Treatment planning simulation using virtual articulator can detect collision of teeth and lead to a treatment plan that can avoid such collisions. Composite three dimensional models of dentition obtained by scanning of teeth and through CBCT are used in identifying the articulator; which is then used in virtual simulation by means of software instructions in the workstation.Type: ApplicationFiled: December 31, 2013Publication date: July 3, 2014Applicant: OraMetrix, Inc.Inventors: Phillip Getto, Peer Sporbert, Markus Kaufmann