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Небесная энциклопедия

Космические корабли и станции, автоматические КА и методы их проектирования, бортовые комплексы управления, системы и средства жизнеобеспечения, особенности технологии производства ракетно-космических систем

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Мониторинг СМИ

Мониторинг СМИ и социальных сетей. Сканирование интернета, новостных сайтов, специализированных контентных площадок на базе мессенджеров. Гибкие настройки фильтров и первоначальных источников.

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Поддерживает ввод нескольких поисковых фраз (по одной на строку). При поиске обеспечивает поддержку морфологии русского и английского языка
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Применить Всего найдено 16. Отображено 12.
06-02-2020 дата публикации

User Interface Control of Responsive Devices

Номер: US20200042087A1
Автор: Ang Dexter W., Cipoletta David O., Karnes Samuel J., Kowalczyk Michael P., Patel Salil H., Trambert Steven D.
Принадлежит: Pison Technology, Inc.

Among other things, a user interface device has a sensor configured to detect, at a wrist of a human, nerve or other tissue electrical signals associated with an intended contraction of a muscle to cause a rapid motion of a finger. An output provides information representative of the nerve or other tissue electrical signals associated with the intended contraction of the muscle to an interpreter of the information. 1. The apparatus of comprising a feedback component configured to provide feedback to the human indicative of the action by at least one of the responsive devices and to guide the human to control the intended contraction of the muscle for further action of the two or more responsive devices.2. The apparatus of in which the feedback component comprises a haptic element configured to provide haptic feedback to the human.3. (canceled)4. The apparatus of in which the feedback component is configured to receive feedback information from one or more of the responsive devices.5. The apparatus of comprising at least one of the responsive devices and in which the responsive device includes the feedback component.6. The apparatus of in which the responsive device comprises smart glasses.7. The apparatus of in which the feedback comprises a visible element displayed by the smart glasses.8. The apparatus of in which the feedback comprises an element displayed by at least one of the responsive devices.9. The apparatus of in which the feedback comprises a sound produced by one or more of the responsive devices.10. The apparatus of in which the distributed information comprises raw data representing the nerve or other tissue electrical signals claim 17 , andthe output provides the distributed information to an interpreter external to the user interface device and configured to interpret the raw data to cause the actions by at least one of the responsive devices.11. The apparatus of in which the output is coupled to the responsive device.12. The apparatus of in which ...

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Номер записи: 1
06-02-2020 дата публикации

User Interface Control of Responsive Devices

Номер: US20200042088A1
Автор: David O CIPOLETTA, Dexter W. Ang, Michael P. Kowalczyk, Salil H. Patel, Samuel J. Karnes, Steven D. Trambert
Принадлежит: Pison Technology Inc

Among other things, a user interface device has a sensor configured to detect, at a wrist of a human, nerve or other tissue electrical signals associated with an intended contraction of a muscle to cause a rapid motion of a finger. An output provides information representative of the nerve or other tissue electrical signals associated with the intended contraction of the muscle to an interpreter of the information.

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Номер записи: 2
06-02-2020 дата публикации

USER INTERFACE CONTROL OF RESPONSIVE DEVICES

Номер: US20200042094A1
Автор: Ang Dexter W., Cipoletta David O, Karnes Samuel J., Kowalczyk Michael P., Lajoie Brodey, Patel Salil H., Srikumar Sidhant, Trambert Steven D.
Принадлежит: Pison Technology, Inc.

Among other things, a user interface device has a sensor configured to detect, at a wrist of a human, nerve or other tissue electrical signals associated with an intended contraction of a muscle to cause a rapid motion of a finger. An output provides information representative of the nerve or other tissue electrical signals associated with the intended contraction of the muscle to an interpreter of the information. 1. (canceled)2. (canceled)3. (canceled)4. (canceled)5. The apparatus of in which the inertial measurement unit is calibrated using a calibration technique.6. The apparatus of in which the inertial measurement unit is configured to access a value corresponding to a reference point.7. The apparatus of in which the reference point is independent of the position of the inertial measurement unit.8. The apparatus of in which a vector provided by the inertial measurement unit is compared to a second vector that is calculated using the value corresponding to the reference point.9. The apparatus of in which the calibration technique is performed after a pre-defined number of spatial calculations of the inertial measurement unit.10. The apparatus of in which the calibration technique is performed in response to a command from the human.11. (canceled)12. (canceled)13. The apparatus of in which at least two of the user interfaces devices are configured to be worn by different humans and comprise wrist-worn devices.14. (canceled)15. The apparatus of in which the interpreter is configured to provide the interpreted outputs to a controller configured to effect the actions by altering presentations by the responsive devices.16. The apparatus of in which the interpreter is configured to provide the interpreted outputs to a controller configured to cause at least one of the responsive devices to perform a zoom.17. The apparatus of in which the zoom alters a presentation comprising a display.18. The apparatus of in which the interpreter is configured to provide the output ...

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Номер записи: 3
06-02-2020 дата публикации

User Interface Control of Responsive Devices

Номер: US20200042095A1
Автор: David O CIPOLETTA, Dexter W. Ang, Michael P. Kowalczyk, Salil H. Patel, Samuel J. Karnes, Steven D. Trambert
Принадлежит: Pison Technology Inc

Among other things, a user interface device has a sensor configured to detect, at a wrist of a human, nerve or other tissue electrical signals associated with an intended contraction of a muscle to cause a rapid motion of a finger. An output provides information representative of the nerve or other tissue electrical signals associated with the intended contraction of the muscle to an interpreter of the information.

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Номер записи: 4
21-03-2019 дата публикации

Detecting and Using Body Tissue Electrical Signals

Номер: US20190082996A1
Автор: David O. Cipoletta, Dexter W. Ang, Michael P. Kowalczyk, Samuel J. Karnes, Sidhant SRIKUMAR
Принадлежит: Pison Technology Inc

Bio-potentials are sensed on the skin of a subject. The bio-potentials include muscle bio-potentials, and nerve bio-potentials. Skin sensors are positioned to enable the sensing circuitry to emphasize the nerve bio-potentials and deemphasize the muscle bio-potentials in processed bio-potential signals generated by the sensing circuitry. A machine learning component identifies control sequences or tracks body motions based on the processed bio-potential signals.

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Номер записи: 5
08-04-2021 дата публикации

User Interface Control of Responsive Devices

Номер: US20210103338A1
Автор: Ang Dexter W., Cipoletta David O, Karnes Samuel J., Kowalczyk Michael P., Patel Salil H., Trambert Steven D.
Принадлежит:

Among other things, a user interface device has a sensor configured to detect, at a wrist of a human, nerve or other tissue electrical signals associated with an intended contraction of a muscle to cause a rapid motion of a finger. An output provides information representative of the nerve or other tissue electrical signals associated with the intended contraction of the muscle to an interpreter of the information. 119.-. (canceled)20. An apparatus comprisingtwo or more user interface devices, a sensor configured to detect an input from a human, and', 'an output configured to carry information representative of the input to an interpreter of the information,, 'each of the user interface devices having'} a sensor configured to detect, at a top of a wrist of the human, nerve or other tissue electrical signals associated with an intended contraction of a muscle, and', 'an output configured to carry information representative of the nerve or other tissue electrical signals associated with the intended contraction of the muscle to an interpreter of the information,, 'a first one of the user interface devices having'}the sensor of another one of the user interface devices being configured to detect an input from the human, andan interpreter configured to generate an interpreted output based on a combination of the output of the first one of the user interface devices and an output of another one of the user interface devices.21. The apparatus of comprising a responsive device configured to take an action in response to the interpreted output.22. The apparatus of in which two or more of the user interface devices have sensors configured to detect claim 20 , at the top of the wrist of the human claim 20 , nerve or other tissue electrical signals associated with intended contraction of two or more muscles.23. The apparatus of in which the sensor of the other one of the user interface devices comprises an inertial measurement unit (IMU).24. The apparatus of in which the ...

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Номер записи: 6
07-06-2018 дата публикации

Detecting and Using Body Tissue Electrical Signals

Номер: US20180153430A1
Автор: Ang Dexter W., Cipoletta David O, Karnes Samuel J., Kowalczyk Michael, Srikumar Sidhant
Принадлежит: Pison Technology, Inc.

Bio-potentials are sensed on the skin of a subject. The bio-potentials include muscle bio-potentials, and nerve bio-potentials. Skin sensors are positioned to enable the sensing circuitry to emphasize the nerve bio-potentials and deemphasize the muscle bio-potentials in processed bio-potential signals generated by the sensing circuitry. A machine learning component identifies control sequences or tracks body motions based on the processed bio-potential signals. 1. An apparatus comprising:detectors configured to detect electrical potentials on the surface of the skin of a wrist or ankle, andcircuitry configured to process the detected electrical potentials to provide data values representing electrical signals occurring at nerves in the wrist or ankle.2. The apparatus of comprising a structure to support the detectors and circuitry on the wrist.3. The apparatus of in which the detectors comprise electrodes.4. The apparatus of comprising:alignment features to align the structure relative to an upper surface and an outer edge of the wrist to position the detectors in contact with skin at the wrist or ankle and in the vicinity of particular internal tissues of the wrist.5. The apparatus of in which the alignment features are configured to position the detectors in contact with the top of the wrist or a particular surface of the ankle.6. The apparatus of in which the detectors include pairs of detectors claim 1 , one of the detectors of each pair being closer to the fingers or toes than the other detector of the pair.7. The apparatus of comprising at least six detectors.8. The apparatus of in which each of the detectors comprises a dry contact surface that is associated with a conductive solid gel claim 1 , foam claim 1 , or film.9. The apparatus of comprising a resilient mounting for at least one of the detectors.10. The apparatus of comprising stored instructions to cause the circuitry to apply a process to extract features from data values and produce ...

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Номер записи: 7
21-05-2020 дата публикации

COMMUNICATION USING BIOPOTENTIAL SENSING AND TACTILE ACTIONS

Номер: US20200159321A1
Автор: Ang Dexter W., Cipoletta David O, Karnes Samuel J., Patel Salil H.
Принадлежит: Pison Technology, Inc.

Among other things, a received inbound message is presented to a person wearing a wearable device. The inbound message is presented to the person as tactile stimulation of skin of the person. Monitoring is done for presence of an outbound message derived from biopotential signals sensed at the skin of the person after the receipt of the inbound message. 1. A method comprisingreceiving an inbound message to be presented to a person wearing a wearable device,presenting the inbound message to the person as tactile stimulation of the skin of the person at the wearable device, andmonitoring for presence of an outbound message encoded from biopotential signals sensed at the skin of the person after and in connection with the receipt of the inbound message, the biopotential signals resulting from brain signals indicating an intention by the person wearing the wearable device to reply to the inbound message.2. The method of in which the inbound message comprises a status request.3. The method of in which the status request comprises a poll.4. The method of in which the presenting of the inbound message comprises vibrating the skin of the person.5. The method of comprising decoding the inbound message as a corresponding profile of tactile stimulation of skin claim 1 , and in which the presenting comprises presenting the profile of tactile stimulation.6. The method of in which presence of an outbound message within a predetermined response period after the receipt of the inbound message comprises a reply to the inbound message.7. The method of in which lack of presence of an outbound message within a predetermined response period after the receipt of the inbound message comprises a reply to the inbound message.8. (canceled)9. The method of comprising encoding the sensed biopotential signals as the outbound message.10. The method of comprising sending the outbound message to another participant.11. The method of in which the biopotential signals are sensed at by the wearable ...

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Номер записи: 8
30-09-2021 дата публикации

Communication using biopotential sensing and tactile actions

Номер: US20210303071A1
Автор: David O. Cipoletta, Dexter W. Ang, Salil H. Patel, Samuel J. Karnes
Принадлежит: Pison Technology Inc

Among other things, a received inbound message is presented to a person wearing a wearable device. The inbound message is presented to the person as tactile stimulation of skin of the person. Monitoring is done for presence of an outbound message derived from biopotential signals sensed at the skin of the person after the receipt of the inbound message.

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Номер записи: 9
28-05-2020 дата публикации

Communication using biopotential sensing and tactile actions

Номер: WO2020106540A1
Автор: David O CIPOLETTA, Dexter W. Ang, Salil H. Patel, Samuel J. Karnes
Принадлежит: Pison Technology, Inc.

Among other things, a received inbound message is presented to a person wearing a wearable device. The inbound message is presented to the person as perceptible stimulation at the skin of the person. Monitoring is done for presence of an outbound message derived from biopotential signals sensed at the skin of the person after the receipt of the inbound message.

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Номер записи: 10
09-10-2019 дата публикации

Detecting and using body tissue electrical signals

Номер: EP3548994A2
Автор: David O CIPOLETTA, Dexter W. Ang, Michael Kowalczyk, Samuel J. Karnes, Sidhant SRIKUMAR
Принадлежит: Pison Technology Inc

Bio-potentials are sensed on the skin of a subject. The bio-potentials include muscle bio-potentials, and nerve bio-potentials. Skin sensors are positioned to enable the sensing circuitry to emphasize the nerve bio-potentials and deemphasize the muscle bio-potentials in processed bio-potential signals generated by the sensing circuitry. A machine learning component identifies control sequences or tracks body motions based on the processed bio-potential signals.

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Номер записи: 11
07-09-2018 дата публикации

Detecting and using body tissue electrical signals

Номер: WO2018102429A3
Автор: David O CIPOLETTA, Dexter W. Ang, Michael Kowalczyk, Samuel J. Karnes, Sidhant SRIKUMAR
Принадлежит: Pison Technology, Inc.

Bio-potentials are sensed on the skin of a subject. The bio-potentials include muscle bio-potentials, and nerve bio-potentials. Skin sensors are positioned to enable the sensing circuitry to emphasize the nerve bio-potentials and deemphasize the muscle bio-potentials in processed bio-potential signals generated by the sensing circuitry. A machine learning component identifies control sequences or tracks body motions based on the processed bio-potential signals.

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Номер записи: 12