Patents by Inventor Mathias Glasmacher
Mathias Glasmacher 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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Patent number: 11859951Abstract: An electronic irritation device includes a plurality of electronic irritation signal modules. Each of the modules has at least one emitter for emitting optical or acoustic irritation signals, and additionally a connection device for coupling the plurality of irritation signal modules to one another and an unlocking device for automatically unlocking the connection device in order to decouple the plurality of irritation signal modules from one another and thereby distribute them spatially. Distributing a plurality of irritation signal modules makes it possible to increase the probability of an irritation effect upon deployment of a single irritation device.Type: GrantFiled: May 3, 2021Date of Patent: January 2, 2024Assignee: Diehl Stiftung & Co. KGInventors: Johannes Hoelzl, Robert Stark, Oliver Klettke, Mathias Glasmacher, Wolfgang Cabanski
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Patent number: 11445132Abstract: In order to detect flying objects, a camera configuration is used for video monitoring of a monitoring space, and a control unit is used for controlling the camera configuration and evaluating the video frames recorded by the camera configuration. The camera configuration has an infrared illuminator for the monitoring space and at least one camera with an infrared image sensor. The infrared illuminator is preferably operated in a pulsed fashion synchronously with a measurement cycle of the camera.Type: GrantFiled: April 27, 2020Date of Patent: September 13, 2022Assignee: Tarsier GmbHInventor: Mathias Glasmacher
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Patent number: 11385030Abstract: An electronic dazzling element has at least one optical emitter for emitting light pulses, which contains an electronic light-emitting device for generating light pulses, and a control device for controlling the light-emitting device of the optical emitter. In order to reduce the brightness reduction of the light pulses as a distance from the dazzling element increases, the optical emitter is configured to emit a collimated light beam. In order to simultaneously achieve the dazzling effect in as large a spatial region as possible, a beam direction of the collimated light beam may be changed.Type: GrantFiled: May 3, 2021Date of Patent: July 12, 2022Assignee: Diehl Stiftung & Co. KGInventors: Johannes Hoelzl, Robert Stark, Oliver Klettke, Mathias Glasmacher, Wolfgang Cabanski
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Publication number: 20210270577Abstract: In an electronic dazzling element having at least one optical emitter with at least one electronic light-emitter for emitting light pulses, the light-emitter of the at least one optical emitter is controlled in such a way that a light pulse sequence emitted by the light-emitter is adapted to the physiology of the human eye.Type: ApplicationFiled: May 3, 2021Publication date: September 2, 2021Inventors: Johannes Hoelzl, Wolfgang Cabanski, Oliver Klettke, Robert Stark, Mathias Glasmacher
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Publication number: 20210254937Abstract: An electronic irritation device includes a plurality of electronic irritation signal modules. Each of the modules has at least one emitter for emitting optical or acoustic irritation signals, and additionally a connection device for coupling the plurality of irritation signal modules to one another and an unlocking device for automatically unlocking the connection device in order to decouple the plurality of irritation signal modules from one another and thereby distribute them spatially. Distributing a plurality of irritation signal modules makes it possible to increase the probability of an irritation effect upon deployment of a single irritation device.Type: ApplicationFiled: May 3, 2021Publication date: August 19, 2021Inventors: Johannes Hoelzl, Robert Stark, Oliver Klettke, Mathias Glasmacher, Wolfgang Cabanski
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Publication number: 20210254936Abstract: An electronic dazzling element has at least one optical emitter for emitting light pulses, which contains an electronic light-emitting device for generating light pulses, and a control device for controlling the light-emitting device of the optical emitter. In order to reduce the brightness reduction of the light pulses as a distance from the dazzling element increases, the optical emitter is configured to emit a collimated light beam. In order to simultaneously achieve the dazzling effect in as large a spatial region as possible, a beam direction of the collimated light beam may be changed.Type: ApplicationFiled: May 3, 2021Publication date: August 19, 2021Inventors: Johannes Hoelzl, Robert Stark, Oliver Klettke, Mathias Glasmacher, Wolfgang Cabanski
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Publication number: 20200344427Abstract: In order to detect flying objects, a camera configuration is used for video monitoring of a monitoring space, and a control unit is used for controlling the camera configuration and evaluating the video frames recorded by the camera configuration. The camera configuration has an infrared illuminator for the monitoring space and at least one camera with an infrared image sensor. The infrared illuminator is preferably operated in a pulsed fashion synchronously with a measurement cycle of the camera.Type: ApplicationFiled: April 27, 2020Publication date: October 29, 2020Inventor: MATHIAS GLASMACHER
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Patent number: 10506955Abstract: A method and apparatus for non-invasive determination of a measured variable of an analyte in a biological body. The body is irradiated locally by light in an automatic manner from a wavelength range matched to an absorption signature of the analyte. At least some of the light penetrates into the body and is absorbed by the analyte. The body heats up at least locally as a result of the absorption by the analyte and a consequently occurring change in a speckle pattern of coherent light scattered at the body is detected. A value of the measured variable of the analyte is deduced from the detected change in the speckle pattern. In particular, the concentration of glucose is established in a non-invasive manner as a measured variable.Type: GrantFiled: April 19, 2016Date of Patent: December 17, 2019Assignee: SAMTD GmbH & Co. KGInventors: Hans Dieter Tholl, Mathias Glasmacher
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Publication number: 20160338623Abstract: A method and apparatus for non-invasive determination of a measured variable of an analyte in a biological body. The body is irradiated locally by light in an automatic manner from a wavelength range matched to an absorption signature of the analyte. At least some of the light penetrates into the body and is absorbed by the analyte. The body heats up at least locally as a result of the absorption by the analyte and a consequently occurring change in a speckle pattern of coherent light scattered at the body is detected. A value of the measured variable of the analyte is deduced from the detected change in the speckle pattern. In particular, the concentration of glucose is established in a non-invasive manner as a measured variable.Type: ApplicationFiled: April 19, 2016Publication date: November 24, 2016Inventors: HANS DIETER THOLL, MATHIAS GLASMACHER
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Publication number: 20160336800Abstract: A module assembly includes a module equipped with a transceiver for remotely controlling, reading and/or monitoring electrical devices from a control center. The transceiver is included neither in the device nor in an adapter between the power outlet and the power plug, but rather in a standard-neutral power plug base body on a supply cable leading to the device, which is customized by a stored address. As a result, supply cables with an integrated base body may be produced cost-efficiently at high volume, and the devices may be produced in an address-neutral manner. The device is customized by connecting it to the supply cable, and the base body is completed for the specific deployment location of the device by using a standard adapter for the power plug for connection to the standard power outlet which is present at a location of use.Type: ApplicationFiled: July 29, 2016Publication date: November 17, 2016Inventor: MATHIAS GLASMACHER
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Publication number: 20150378336Abstract: An electrical appliance has at least one assembly, an operating apparatus for selecting a program sequence from at least one predefined program sequence by a user of the electrical appliance, and a control apparatus for actuating the at least one assembly in accordance with a selected program sequence. A communications interface via which the control apparatus can communicate with an intelligent energy supply grid, is provided. The control apparatus is configured to modify the selected program sequence depending on energy supply information obtained from the intelligent energy supply grid during execution of the selected program sequence within predetermined limits and to actuate the assembly in accordance with a modified program sequence.Type: ApplicationFiled: September 3, 2015Publication date: December 31, 2015Inventor: MATHIAS GLASMACHER
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Patent number: 8528566Abstract: A method for ocular surgery requires use of a delivery system for generating and guiding a surgical laser beam to a focal point in a treatment area of an eye. Additionally, a contact device is employed for using the eye to establish a reference datum. Further, an optical detector is coupled to the beam path of the surgical laser to create a sequence of cross-sectional images. Each image visualizes both the reference datum and the focal point. Operationally, a computer then uses these images to position and move the focal point in the treatment area relative to the reference datum for surgery.Type: GrantFiled: July 25, 2011Date of Patent: September 10, 2013Assignee: Technolas Perfect Vision GmbHInventors: Frieder Loesel, Mathias Glasmacher, Ulrich von Pape
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Patent number: 8088124Abstract: A system and method for ocular surgery includes a delivery system for generating and guiding a surgical laser beam to a focal point in a treatment area of an eye. Additionally, a contact device is employed for using the eye to establish a reference datum. Further, an optical detector is coupled to the beam path of the surgical laser to create a sequence of cross-sectional images. Each image visualizes both the reference datum and the focal point. Operationally, a computer then uses these images to position and move the focal point in the treatment area relative to the reference datum for surgery.Type: GrantFiled: January 19, 2007Date of Patent: January 3, 2012Assignee: Technolas Perfect Vision GmbHInventors: Frieder Loesel, Mathias Glasmacher, Ulrich von Pape
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Publication number: 20110282332Abstract: A method for ocular surgery requires use of a delivery system for generating and guiding a surgical laser beam to a focal point in a treatment area of an eye. Additionally, a contact device is employed for using the eye to establish a reference datum. Further, an optical detector is coupled to the beam path of the surgical laser to create a sequence of cross-sectional images. Each image visualizes both the reference datum and the focal point. Operationally, a computer then uses these images to position and move the focal point in the treatment area relative to the reference datum for surgery.Type: ApplicationFiled: July 25, 2011Publication date: November 17, 2011Inventors: Frieder Loesel, Mathias Glasmacher, Ulrich von Pape
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Publication number: 20100130967Abstract: A system and method for improving the accommodative power of a focusing unit (e.g. an eye) involves increasing the flexibility of a first optical element in the unit (e.g. the cornea of the eye). Specifically, the needed flexibility is determined from diagnostic data, and the first optical element is structurally weakened according to the data. With this weakened structure (i.e. increased flexibility), the first element is better able to comply with configuration changes in a second optical element in the focusing unit (e.g. the lens of the eye). The consequence is, improved accommodation. For the present invention, the improved compliance to achieve optimal accommodation is accomplished either by performing appropriate LIOB on stromal tissue in the eye, or by application of a topical medium to selected areas on the anterior surface of the eye.Type: ApplicationFiled: November 21, 2008Publication date: May 27, 2010Inventors: Mathias Glasmacher, Frieder Loesel
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Publication number: 20100082018Abstract: A system and method are provided for reshaping the surface of a resilient transparent material such as a cornea. In the system, a laser unit generates a femto-second laser beam to deliver focused energy inside the material. Specifically, the energy is focused over a defined spot pattern to weaken the material. Further, the system includes a contact element that forms a contour surface. In order to reshape the material, the system provides for holding the contour surface of the contact element against the surface of the weakened material. After holding the contour surface against the material for a pre-determined time duration, the surface of the material is reshaped with a desired configuration that substantially mimics the contour surface of the contact element.Type: ApplicationFiled: September 26, 2008Publication date: April 1, 2010Inventors: Daryus Panthakey, Mathias Glasmacher, Frieder Loesel
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Publication number: 20080177256Abstract: A system and method for ocular surgery includes a delivery system for generating and guiding a surgical laser beam to a focal point in a treatment area of an eye. Additionally, a contact device is employed for using the eye to establish a reference datum. Further, an optical detector is coupled to the beam path of the surgical laser to create a sequence of cross-sectional images. Each image visualizes both the reference datum and the focal point. Operationally, a computer then uses these images to position and move the focal point in the treatment area relative to the reference datum for surgery.Type: ApplicationFiled: January 19, 2007Publication date: July 24, 2008Inventors: Frieder Loesel, Mathias Glasmacher, Ulrich von Pape