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公开(公告)号:EP3008436A1
公开(公告)日:2016-04-20
申请号:EP14811497.8
申请日:2014-06-09
Applicant: Vaica Medical Ltd.
Inventor: GOFER, Tomer , MARGALIT, Gil
IPC: G01J7/00
Abstract: Automated medication dispensing devices, kits, systems, methods, and related applications thereof, such as using computer readable (e.g., NFC [near field communication], or QR) standards for monitoring and verifying patient and caregiver activities and health related data-information. The medication dispensing device includes: a housing having a sliding mechanism configured to receive, hold, and release a removably slidable medication holder containing a plurality of individual medication holding compartments. The medication holder for dispensing medication includes: a receptacle (as either a disposable blister pack, or a reusable medication tray) containing a plurality of individual medication holding compartments, and having one side configured with one or more outward facing holes or an outward facing external handle to facilitate removably sliding the medication holder into and out of a medication dispensing device.
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公开(公告)号:DE102013016108A1
公开(公告)日:2015-04-02
申请号:DE102013016108
申请日:2013-09-27
Applicant: LÖHR EDGAR
Inventor: LÖHR EDGAR
Abstract: 1. Geschwindigkeitsmessgeräte werden in Fahrzeugen benötigt. Herkömmliche Geschwindigkeitsmessgeräte sind auf auf Sicht- oder Funkkontakt zu Erde angewiesen, doch Satelliten und Raumfahrzeuge, die sich weit von der Erde entfernen, erfordern ein autarkes Messsystem. 2 Das neue Geschwindigkeitsmessgerät benutzt den physikalischen Effekt der Lichtaberation. Eng gebündeltes Laserlicht wird über eine Messtrecke L geschickt und trifft am Ende auf eine Beobachtungsvorrichtung, z. B. ein Skalenschirm (4), ein CCD-Chip (5) oder ein Mikroskop (6). Die Abweichung des Auftreffpunktes des Laserstrahls (1) von der optischen Achse des Lasers wird erfasst und zur Berechnung der Eigengeschwindigkeit ausgewertet. Dabei können Spiegel (8) zur Erhöhung der Genauigkeit benutzt werden. Der Lichtstrahl (1) verläuft dabei im Hochvakuum. 3 Das Geschwindigkeitsmessgerät arbeitet autark, also ohne Sicht- oder Funkverbindung nach außen. Es ist daher vor äußeren Einflüssen gut geschützt und nicht auf die Sendeleistung erdgebundener Sender angewiesen. Sein Aufbau ist vergleichsweise kostengünstig.
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公开(公告)号:RU2010125677A
公开(公告)日:2011-12-27
申请号:RU2010125677
申请日:2010-06-23
IPC: G01J7/00
Abstract: СпособпроверкиотсутствиявлиянияорбитальногодвиженияЗемлинаскоростьсвета, заключающийсяв регистрацииизмененияскоростисветав зависимостиотположенияЗемлинаорбите, отличающийсятем, чтоединичныйсветовойимпульсмногократнопропускаютпозамкнутомусветоводу (контуру) иобизмененияхсудятпоразностивременимногократногопрохождениябазовогоконтура.
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公开(公告)号:DE69634989T2
公开(公告)日:2006-06-08
申请号:DE69634989
申请日:1996-05-09
Applicant: BAE SYS INTEGRATED DEFENSE
Inventor: NICHOLSON E
Abstract: An incident optical signal is captured by an array of apertures and directed to pairs of fibers, each pair having a delay fiber with a unique length and a no-delay fiber. Each pair of fibers further has a unique transmission characteristic. Time interpolation is then performed using the transmission characteristic curve for each delay fiber and the duration from the time the optical signal arrives over the no-delay fibers and the time the signal arrives over the delay fibers to determine the wavelength. In a second embodiment, each pair of delay and no-delay fibers is replaced by a fiber splitter which directs light into a no-delay fiber and a delay fiber that have been split from the input of the splitter. In a third embodiment, two fiber splitters are used in place of the pairs of fibers. Each splitter has a number of branches for receiving light and an output end for guiding light onto the photodetectors. The propagation time of the delay optical signal, as compared against the no-delay signal, and other factors such as the length of the individual fiber and the transmission characteristics, are used to determine the wavelength.
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Patent Agency Ranking96.发明专利
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97.发明专利
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公开(公告)号:CA2221176C
公开(公告)日:2003-11-04
申请号:CA2221176
申请日:1996-05-09
Applicant: TRACOR
Inventor: NICHOLSON JAMES E
Abstract: An incident optical signal is captured by an array of apertures and directed to pairs of fibers, each pair having a delay fiber with a unique length and a no-delay fiber. Each pair of fibers further has a unique transmission characteristic. Time interpolation is then performed using the transmission characteristic curve for each delay fiber and the duration from the time the optical signal arrives over the no-delay fibers and the time the signal arrives over the delay fibers to determine the wavelength. In a second embodiment, each pair of delay and no-delay fibers is replaced by a fiber splitter which directs light into a no-delay fiber and a delay fiber that have been split from the input of the splitter. In a third embodiment, two fiber splitters are used in place of the pairs of fibers. Each splitter has a number of branches for receiving light and an output end for guiding light onto the photodetectors. The propagation time of the delay optical signal, as compared against the no-delay signal, and other factors such as the length of the individual fiber and the transmission characteristics, are used to determine the wavelength.
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公开(公告)号:DE20014843U1
公开(公告)日:2000-11-16
申请号:DE20014843
申请日:2000-08-26
Applicant: BEHNKE WOLFGANG MICHAEL
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公开(公告)号:SU1081435A1
公开(公告)日:1984-03-23
申请号:SU3532180
申请日:1983-01-05
Applicant: SIBIRSK I ZEMNOGO MAGNET
Inventor: DRUZHININ SERGEJ A , ZHUGZHDA YUZEF D
IPC: G01J7/00
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