| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | JPS5810892B2 - | JP13935879 | 1979-10-30 | JPS5810892B2 | 1983-02-28 | TSUBAKI ISAO; KIHARA TATSURO; MAEDA TSURUHIKO; IWAZAWA OSAMU; TAKEUCHI NORIO |
| 62 | Remote monitoring system | JP16607280 | 1980-11-25 | JPS5789339A | 1982-06-03 | AKASAKI KOUJI; MIYAZAKI YOUICHI |
| PURPOSE:To make it possible that a slave station gathers monitoring information of all stations, by giving a function, by which monitoring information received from slave stations in the preceding communication are stored, to a master station and by adding these stored monitoring information to an information transmission command to the slave station. CONSTITUTION:A master station transmits an information transmission command with a slave station name added, slave station monitoring information which are stored and are received in the preceding communication, and a slave station name for these information collectively to all slave stations A-C as an ENQ signal. In respect to slave stations A-C, all stations receive monitoring information of a station which receives the preceding polling; and if the information transmission command is sent for stations themselves, they transmit their own monitoring information to the master station. | ||||||
| 63 | Receiver monitoring system | JP5651379 | 1979-05-09 | JPS55147845A | 1980-11-18 | AKUTSU MASAHARU; OGUCHI TAKUROU |
| PURPOSE:To make it possible to decide whether the cause of a receiving fault exists in the receiver or in other, by applying a false signal to the receiver when the receiving fault occurs in the receiver. CONSTITUTION:In case that a receiving fault occurs in receiver 5, monitor controller 4 detects it to start false signal oscillator 2, and the false signal is sent to receiver 1 through coupling circuit 1. If the false signal applied to receiver 5 can be received by monitor unit 4 normally, receiver 5 is not faulty, and receiver 5 waits as it is because others are faulty. Thus, it can be decided whether the cause of the receiving fault exists in receiver 5 or not by applying the false signal to the receiver at a receiving fault time. | ||||||
| 64 | Supervisory remote control system | JP16503778 | 1978-12-29 | JPS5592046A | 1980-07-12 | NAITOU YUKIO |
| PURPOSE:To make it possible to transmit trouble information of a two-way repeater station to a radio base station with a simple constitution by delaying intentionally a transmission stop time and by utilizing the delay time to transmit a tone signal corresponding to the trouble information input signal. CONSTITUTION:Monitor signal transmission unit 40 delays the transmission stop time of transmitter 21c intentionally by the trailing signal of transmission start signal 22d by time T0, and time T0 is utilized to transmit tone signal 52 corresponding to trouble information input signal 51 to a radio repeater base station through transmission wave F1'. As a result, trouble information of a two-way repeater station can be transmitted to the radio base station with a simple constitution. | ||||||
| 65 | Transmission device identification numbering method, transmission equipment and transmission system management device | JP15387296 | 1996-06-14 | JP3359496B2 | 2002-12-24 | 修一 窪田; 光夫 辻角 |
| 66 | How to monitor the car phone repeater and equipment | JP53169597 | 1997-02-19 | JP2000506340A | 2000-05-23 | プラビッツ、アンデルス; ホルムグレン、マッツ |
| (57)【要約】 この発明は自動車電話システム用リピータを監視する方法及び装置に関するものであり、監視対象リピータは2本のアンテナ(1,2)の間を接続する上方向経路と下方向経路を含み構成される種類のもので、基地局と自動車用電話間の信号を受信して増幅し再伝送する。 本発明では安定性試験が自動的に行われて、2本のアンテナ間の正帰還による不安定性か攪乱雑音信号かによってひき起こされ発生し得る高強度で連続的な信号が検出され、安定性試験の結果に対応して増幅利得が調節される。 試験の判定基準条件には、測定期間の少なくとも大部分に相当する時間長で個々の連結増幅器列で入力信号のレベルがしきい値を越えたかどうかをチェックする過程を含む。 | ||||||
| 67 | Faulty station discriminating system | JP5768584 | 1984-03-26 | JPS60200653A | 1985-10-11 | SEKI YOSHIAKI; TANAKA ISAO; HONDA MASANORI |
| PURPOSE:To discriminate a fault by a fixed pattern discriminating circuit, and to confirm a station in which the fault is occured, by assigning each different fixed pattern to a transmitting board and a receiving board, respectively, and sending out the fixed pattern assigned to each of them to the other station from a station which is detected the fault, when the fault is generated. CONSTITUTION:A regenerated data fetched from a radio wave received by a receiving part 20 is inputted to a branching and inserting part 22 through a relay contact r1-1, and the regenerated data made to branch by this repeater station is outputted to the outside from a terminal 25, and to the remaining regenerated data, a data inserted from a terminal 26 is provided, and it is sent out to the other station from a transmitting part 24 through a relay contact part r1-3. However, if a pulse cut-off detector 3 or 4 detects a fact that a data pulse which is outputted from the receiving part 20 or inputted to the transmitting part 24 is cut off, the relay contact r1-1 or r1-3 becomes off and the relay contact r1-2 or r1-4 becomes on by its output. As a result, a fixed pattern generating part 21 or 23 becomes on, therefore, for instance, a pattern fixed to a receiving board or a transmitting board of its station is sent out to the other station through the transmitting part 24. | ||||||
| 68 | Controlling system by monitor current | JP18339381 | 1981-11-16 | JPS5884553A | 1983-05-20 | EBIHARA HIROSHI; MINEMATSU KIYOSHI |
| PURPOSE:To attain various controls at the transmission side of a carrier device via a carrier device at the reception side, by generating a pattern with an intermittent monitor current at the transmission side of monitor current and discriminating the pattern at the reception side to execute corresponding controls. CONSTITUTION:A signal such as voice is modulated at modulators 10-1-10-n, superimposed on a line monitor current LINE.PIL at a transmission amplifier 1, and transmitted to a radio relay station via a radio equipment 3 and an antenna 4, and for controlling the radio relay station from the transmission side, the monitor current LINE.PIL is intermitted with a pattern in response to the content of control with a pattern generator 15. At the radio relay station, the signal such as voice is demodulated at demodulators 11-1-11-n via a radio equipment 3' and an amplifier 2'. Further, a monitor current detection and alarm circuit 5 detects the monitor current LINE.PIL at the same time and the intermittent signal with the pattern is transmitted to a pattern discrimination and control circuit 12, where the corresponding control such as the discrimination of the pattern and control of switching devices 13, 14 can be done. | ||||||
| 69 | Remote monitor system for radio communication system | JP8048980 | 1980-06-14 | JPS575444A | 1982-01-12 | KASHIWAGI TOMOE |
| PURPOSE:To perform accurate remote monitor without the monitor signal interferred with electromagnetic waves from other stations, by transmitting the monitor signal from a repeater station to a master station after locking other stations. CONSTITUTION:When a status change is produced to monitored items in a repeater station 2, the repeater station transmits a callout signal 5. When a master station 1 receives the signal 5, it transmits a lock signal 6 to all terminal stations 31-3n and 41-4n, to inhibit the transmission of electromagnetic waves from the stations. The repeater station 2 confirms by reception of the lock signal 6 that the terminal stations 31-3n are locked, and transmits a monitor signal 7 and an end of call signal 8 to the master station 1 succeedingly. Further, when the master station 1 receives the end of call signal 8, a release signal 9 is transmitted to release the lock state of the terminal stations 31-3n and 41-4n an to release the lines. | ||||||
| 70 | Remote monitor device for simple relay device | JP15544579 | 1979-11-27 | JPS5676649A | 1981-06-24 | MONJI MASAKI |
| PURPOSE:To enable to transmit the state of relay station to a receiving station with additional simple circuits, by modulating the amplitude of FM carrier output from a simple relay device with number of pulses according to the items to be monitored objectives. CONSTITUTION:In an input gate circuit 7 of a remote monitor transmission signal generating circuit 5 at the relay station, the presence of ground of signal input terminals A, B-N corresponding to the items of monitored objectives is converted into logics H, L, the logical sum is taken to transmit it to a shift register 8, it is sequentially converted into serial output, to drive high frequency switchers 6 and to intermit the carrier of a simple relay device in the number of pulses predetermined according to the monitored items. At the reception station, the interruption of the carrier is detected at a carrier level detection circuit, the pulse signal is counted at the counter, the output of counter is stored in the latch circuit at the end of count and decoded at the decoder for the display according to the monitored items. | ||||||
| 71 | Detection reporting device for service interruption and its recovery at radio repeater station | JP13935879 | 1979-10-30 | JPS5664530A | 1981-06-01 | TSUBAKI ISAO; KIHARA TATSUROU; MAEDA TSURUHIKO; IWAZAWA OSAMU; TAKEUCHI NORIO |
| PURPOSE:To prevent not only the consumption of an accumulator but occurrence of an accident,by defining the service interruption and it recovery with the element obtained by adding the time relation to the occurrence and recovery of the service interruption and then making the power source just for a short time for necessary action to the detection and the reporting device. CONSTITUTION:The service interruption signal generator 10, recovery signal generator 11 and the OR gate are provided within the reporting circuit 9. The generator 10 transmits the prescribed service interruption signal to the modulation input 13 of the transmitter, and this signal is sent to the monitor station. When the set time of the timer 8 elapses, the switch SW1 is turned off to cut off the transmission of the service interruption signal. With recovery secured to the service interruption, the recovery signals are transmitted from the recovery signal generator 11 just for the set time of the timer 8. | ||||||
| 72 | Signal recording system | JP11787279 | 1979-09-17 | JPS5642447A | 1981-04-20 | KOMAI TOMOO |
| PURPOSE:To improve the efficiency of the maintenance of an unattended repeater station by recording and displaying the occurrence time, continuance time, and fluctuation value of fluctuation of a level by trnasmitting them to a monitor station only when the level fluctuates above a reference level at the unattended repeater station. CONSTITUTION:Reference-level deciding circuit 2, only when reception input 1 falls down to a preset reference level or below, transmits a signal to processing part 3, which generates and modulates at 4 signals regarding the occurrence time, continuation time and fluctuation value of the signal lower than the reference level according to the program previously stored in an about 4kB memory element and then sends them to the mointor station via the communication circuit. Next, mointor station demodulates at 4' the transmitted memory data information signal into recording data information and then reproduces at 3' and prints at 5' the recording data information. At an unattended repeater station, the data sent to mointor station are also recorded by printer 6 and retained, so that this is useful for finding recording omission. | ||||||
| 73 | Supervisory system of fm radio receiver | JP10583278 | 1978-08-29 | JPS5531392A | 1980-03-05 | NAGAYAMA HIROAKI; TAJIMA NORIO |
| PURPOSE:To exercise a supervision over the reception input electric field of each unattended repeater station by obtaining a signal, which follows up variation in reception input electric field by mixing a received wave and a low-level sine wave in front of a receiving AGC amplifier. CONSTITUTION:A FM carrier received by receiving antenna 2 of FM radio repeater 1 is converted into an intermediate frequency carrier signal by receiving frequency converter 3. Then, this signal is mixed by coupler 5 in a constant-level signal at a low level outputted by reception-input electric-field supervisory sine-wave oscillator 4. This composite wave is sent out from transmitting antenna 8 by way of main intermediate frequency amplifier 6 and transmitter circuit 7. This signal is received by receiving antenna 10 of FM receiver 9 and converted into an intermediate frequency signal by passing through reception frequency converter 11 before being inputted to FM demodulator 13 by way of main intermediate frequency amplifier 12. A level difference between this input intermediate-frequency-band FM carrier and supervisory signal is equivalent to the level variation of the reception input electric field at the point in time of coupling by coupler 5 of repeater 1. The beat signal level of the output of demodulator 13 is therefore the level difference. | ||||||
| 74 | Television relay unit | JP7883578 | 1978-06-28 | JPS555547A | 1980-01-16 | NAKAMURA KEIICHI |
| PURPOSE:To predict potential failures, by transmitting the operating conditions of each part recorded to the monitor unit, after the end of broadcast daily. CONSTITUTION:When the broadcast is finished, the input detector 4 detects the master station telephone disconnected. The control section 10 selects the input of the selector 12 to the frequency converter 11 with the designated time distance predetermined, and it controls the squelch section 7 so that it can be transmitted in fA only to perform transmission of the contents recorded in the recorder 9 in the determined order within the determined time. Thus, the monitor unit 13 receives the information of conditions of the relay broadcast equipment and it informs the contents as required to the total monitor station by the internal discrimination functions. | ||||||
| 75 | Information transmission system | JP11234376 | 1976-09-17 | JPS5337311A | 1978-04-06 | YOSHIDA KATSUHIKO; KAMEOKA TAKAHARU |
| PURPOSE:To transmit the content of fault to the place such as monitor room without injuring the essential functions such as broadcast at fault, by transmitting the phase of carrier signal with inversion or non-inversion depending on the information to be transmitted and by reproducing the pulse thru the detection of the phase at the reception side. | ||||||
| 76 | JPS4973015A - | JP10788473 | 1973-09-25 | JPS4973015A | 1974-07-15 | |
| 77 | SIMULTANEOUS BROADCAST MANAGEMENT SYSTEM | PCT/US9705891 | 1997-04-11 | WO9739542A3 | 2001-09-13 | JENSEN DANA J; HANZ DOUGLAS L; DVORAK MARK D |
| A simultaneous broadcast management system for measuring and correcting phase error in simultaneous broadcast systems, the system having a specialized receiver for demodulating two or more channels. The demodulated information is compared to determine relative phase difference and transmission delays are implemented to equalize relative delay of the received signals. Temporal alignment of at least two remote transmitting sites is performed using different channels to avoid the simulcast condition during alignment of transmitters in the system. Alternate systems employ directional antennas to perform alignment under simulcast conditions. | ||||||
| 78 | LINK DELAY CALCULATION SYSTEM FOR A RADIO REPEATER SYSTEM | PCT/US9705984 | 1997-04-11 | WO9739543A3 | 1998-02-05 | RUDE MICHAEL J; JENSEN DANA J; PFIEFER STEVEN J; DVORAK MARK D |
| The present link delay calculation system using a common reference signal and a pulsed or gated tone signal to determine the link delay. The system using a discrete-time Fourier transform to measure phase information and obtain the link delay time. One such system employing a global positioning satellite signal to synchronize signal generation at a control site and demodulation at a remote site. | ||||||
| 79 | BANDWIDTH MANAGEMENT SYSTEM FOR A REMOTE REPEATER NETWORK | PCT/US9705985 | 1997-04-11 | WO9739535A2 | 1997-10-23 | JENSEN DANA J; PFIEFER STEVEN J; LYON JAMES K; DVORAK MARK D |
| A bandwidth management system for a remote repeater network for modifying a first signal to create a second signal within the bandwidth of a communications link, transferring the second signal across the communications link, and reconstructing the first signal at the remote end of the communications link. The bandwidth management system featuring several mixing modes for performing the signal conversion and reconstruction. The system offering a calibration feature to correct for phase distortions introduced in reconstruction of the original signal. The calibration feature incorporating signals from a global positioning satellite system for reconstruction. | ||||||
| 80 | 얼굴 표정을 이용한 감정 인식 어플리케이션이 구비된 단말기 및 그 제어방법 | KR1020140034085 | 2014-03-24 | KR101480669B1 | 2015-01-26 | 손진훈; 박지은; 오형석 |
| 본 발명은 사용자의 얼굴 표정을 이용하여 사용자의 감정을 인식하고, 사용자의 감정 상태에 따른 적절한 반응을 출력할 수 있는 단말기 및 그 제어방법에 관한 것이다. 본 발명의 일례와 관련된 단말기는, 사용자의 얼굴을 포함하는 제 1 영상을 촬영하기 위한 카메라 모듈, 복수의 감정과 관련된 페이셜 유닛을 저장하는 메모리, 상기 제 1 영상을 수신받고 상기 페이셜 유닛과 상기 제 1 영상을 이용하여 상기 복수의 감정 중 상기 사용자의 감정을 인식할 수 있는 감정 인식 수단, 시각정보를 표시하는 디스플레이부, 청각정보를 출력하는 음향 출력 모듈, 진동을 발생시키는 햅틱 모듈 및 후각정보를 발생시키는 방향부로 구성된 출력부 및 상기 사용자로부터 단말기에 내장 설치된 감정 인식 어플리케이션의 동작에 관한 명령을 입력받기 위한 입력부를 포함하되, 상기 페이셜 유닛은 상기 복수의 감정 각각에 대응하는 복수의 얼굴요소의 패턴에 대한 정보이고, 상기 사용자가 상기 입력부를 이용하여 상기 감정 인식 어플리케이션의 실행 명령을 입력하는 경우, 상기 감정 인식 수단과 관련된 소정의 실행창이 상기 디스플레이부에 표시되어 촬영 정보의 입력 및 상기 제 1 영상의 촬영을 유도하고, 상기 출력부는 상기 제 1 영상에 기초하여 인식된 상기 사용자의 감정에 대응하는 반응을 출력할 수 있다.
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