WO/2015/180151 MULTI-MACHINE FREQUENCY CONVERTER OPERATION CONTROL METHOD, AND MULTI-MACHINE FREQUENCY CONVERTER||WO||03.12.2015|
||PCT/CN2014/078967||SHENZHEN INVT ELECTRIC CO., LTD. 深圳市英威腾电气股份有限公司||KE, Dongsheng 柯冬生|
Provided are a multi-machine frequency converter operation control method, and a multi-machine frequency converter; said multi-machine frequency converter comprises a master control unit and M1 execution units generating synchronization signals; the M1 execution units share a common DC bus, and M1 is a positive integer greater than 1; said method comprises: the input pin source of the PWM controller in each execution unit is configured so that the PWM controllers in the execution units have synchronized zero-crossings; comparison values are loaded synchronously; under the described conditions, each execution unit generates a pulse-width modulated wave, and the execution units are driven in operation. The described solution is conducive to improving the synchronized operation of frequency converters.
WO/2015/178423 NON-WOVEN FABRIC LAMINATE, AND SANITARY SUPPLIES||WO||26.11.2015|
||PCT/JP2015/064514||MITSUI CHEMICALS, INC. 三井化学株式会社||YOKOYAMA, Tetsuya 横山 哲也|
A non-woven fabric laminate in which surface layers (A1) and (A2), where (I) below exceeds 60 mass% and is 98 mass% or less and (II) and (III) below are 2 mass% and over to less than 40 mass%, and an intermediate layer (B), where the value of the total content by percentage of (II) and (III) below is greater than that in the surface layers (A1) and (A2), are laminated, the non-woven fabric laminate having a total weight per area of 45 g/m2 or less and a thermocompression bonding rate of 3-30%. (I) Propylene homopolymer having melting point of 140°C or higher. (II) Random copolymer comprising propylene and C2-20 α-olefin (not including C3). (III) Propylene homopolymer having melting point of less than 120°C and satisfying i-vi below. (i) [mmmm] = 20-60 mol%; (ii) [rrrr]/(1-[mmmm]) ≤ 0.1; (iii) [rmrm] ＞ 2.5 mol%; (iv) [mm] × [rr]/[mr]2 ≤ 2.0; (v) Mw = 10,000-200,000; (vi) Mw/Mn ＜ 4.
WO/2015/177264 AEROSOL-FORMING SUBSTRATE AND AEROSOL-DELIVERY SYSTEM||WO||26.11.2015|
||PCT/EP2015/061218||PHILIP MORRIS PRODUCTS S.A. ||MIRONOV, Oleg |
There is described an aerosol-forming substrate for use in combination with an inductive heating device. The aerosol-forming substrate comprises a solid material capable of releasing volatile compounds that can form an aerosol upon heating of the aerosol-forming substrate, and at least a first susceptor material for heating of the aerosol-forming substrate. The first susceptor material has a first Curie-temperature and is arranged in thermal proximity of the solid material. The aerosol-forming substrate comprises at least a second susceptor material having a second Curie-temperature which is arranged in thermal proximity of the solid material. The first and second susceptor materials have specific absorption rate (SAR) outputs which are distinct from each other. Alternatively or in addition thereto the first Curie-temperature of the first susceptor material is lower than the second Curie-temperature of the second susceptor material, and the second Curie- temperature of the second susceptor material defines a maximum heating temperature of the first and second susceptor materials. There is also described an aerosol-delivery system.
WO/2015/178734 WEARABLE DEVICE AND METHOD OF SETTING RECEPTION OF NOTIFICATION MESSAGE THEREIN||WO||26.11.2015|
||PCT/KR2015/005202||SAMSUNG ELECTRONICS CO., LTD. ||JEONG, Kyung-ho |
Provided are a portable device, a wearable device, and a system including the same for setting a reception of a notification message in the wearable device. The portable device includes: a wireless communicator configured to receive, from a wearable device via wireless communication, information regarding a notification setting; and a controller configured to identify an event and to determine, based on the received information, whether to transmit a notification to the wearable device in response to the identified event.
WO/2015/174612 MOBILE TERMINAL AND CONTROL METHOD THEREFOR||WO||19.11.2015|
||PCT/KR2015/000962||LG ELECTRONICS INC. 엘지전자 주식회사||LEE, Hoyoun 이호연|
A mobile terminal capable of easily attaching an image is disclosed. Particularly, the present invention relates to a mobile terminal comprising: a first camera; a touchscreen; and a control unit for controlling the touchscreen to display an execution image of a predetermined application in a first region on the touchscreen and to display a preview image of the first camera in a second region on the touchscreen, and attaching data of an image captured through the first camera to the predetermined application if a capturing command is received, wherein the data size of the attached image data is based on the size of the second region.
WO/2015/172320 METHOD, APPARATUS AND SYSTEM FOR PROCESSING HANDOVER IN VIDEO BUFFERING||WO||19.11.2015|
||PCT/CN2014/077396||HUAWEI TECHNOLOGIES CO., LTD. 华为技术有限公司||GUO, Shulei 郭书蕾|
A method, apparatus and system for processing a handover in video buffering. A source VOG constructs a handover response when a terminal is handed over from a source base station to a target base station, the handover response comprising transmission control information of a first connection established by the source VOG with a video resource server, transmission control information of a second connection established with the terminal, and video breakpoint information; and the source VOG sends the handover response to a target VOG through the source base station and the target base station, the transmission control information of the first connection and the transmission control information of the second connection being separately used for establishing a transmission control context of the first connection and a transmission control context of the second connection on the target VOG, and the video breakpoint information being used for instructing the target VOG to continue to transmit the video resource from a video breakpoint to the terminal. The problem that a video accessed by a terminal is interrupted during a handover of the terminal between base stations and a video request needs to be resent, so that user experience is poor is solved.
WO/2015/172303 RECEIVER MIRROR IMAGE CALIBRATING METHOD, DEVICE AND BASE STATION||WO||19.11.2015|
||PCT/CN2014/077300||HUAWEI TECHNOLOGIES CO., LTD. 华为技术有限公司||YE, Siqing 叶四清|
Provided in an embodiment of the present invention are a receiver mirror image calibrating method, device and base station, the method comprising: inputting into a receiver by an injection module a service signal inputted from the service signal end of the injection module and a bandwidth test signal inputted from the test signal end of the injection module; demodulating the inputted service signal and the bandwidth test signal, and outputting I and Q paths of baseband analog signals; conducting analog-digital conversion on the I and Q paths of baseband analog signals to obtain I and Q paths of baseband digital signals; and conducting digital calibration on the I and Q paths of baseband digital signals to eliminate the mirror image distortion of the receiver. The embodiment of the present invention reduces test time, and improves the efficiency of testing the mirror image distortion of the full spectrum band of a receiver, thus timely and effectively calibrating the mirror image distortion of the receiver.
WO/2015/174556 MEDICAL TREATMENT APPARATUS USING RAYS OF LIGHT FOR TREATMENT OF RHINITIS OR TYMPANITIS||WO||19.11.2015|
||PCT/KR2014/004258||HL&P CO.,LTD 주식회사 에이치엘앤피||CHOI, Jeongho 최정호|
The present invention relates to a medical treatment apparatus using rays of light for treatment of rhinitis or tympanitis. To achieve this, the medical treatment apparatus using rays of light of the present invention, comprises: a housing that includes a hook part worn on a user's nose and a leg part connected to the hook part; a light source that is positioned in the interior of the housing and emits rays of light for treatment; and a rhinitis treatment light guide that protrudes from the housing so as to be inserted into the user's nose and guides the rays of light emitted from the light source toward the outside. According to the present invention, a user can wear the medical treatment apparatus using rays of light as if wearing glasses, thereby freely using both hands to do a job or activity during the treatment of rhinitis or tympanitis using rays of light.
WO/2015/172275 DOWNLINK SIGNAL TRANSMISSION METHOD, BASE STATION AND USER EQUIPMENT||WO||19.11.2015|
||PCT/CN2014/077208||HUAWEI TECHNOLOGIES CO., LTD. 华为技术有限公司||ZHOU, Xun 周勋|
Provided in an embodiment of the present invention are a downlink signal transmission method, base station and user equipment (UE), the method comprising: a base station preferentially allocates the frequency resource of an exclusive frequency band for a first UE when the exclusive frequency band of a long term evolution (LTE) system is not completely allocated in a transmission frequency band, the transmission frequency band further comprising the shared frequency band of the LTE system and a global system for mobile communications (GSM); the base station transmits a first downlink signal to the first UE on the frequency resource of the exclusive frequency band. In the transmission frequency band comprising the shared frequency band and the exclusive frequency band, the embodiment of the present invention preferentially allocates the frequency resource on the exclusive frequency band of the LTE system having a higher channel quality, thus improving the transmission rate of the downlink signal in the transmission frequency band.
WO/2015/172274 LOAD BALANCING PROCESSING METHOD AND SYSTEM||WO||19.11.2015|
||PCT/CN2014/077201||SUZHOU CODYY NETWORK SCIENCE & TECHNOLOGY CO., LTD 苏州阔地网络科技有限公司||SHEN, Yujiang 沈玉将|
Provided is a load balancing processing method. The method comprises the steps of: after receiving a conference participation request message sent by a conference participation end, determining, by a centre server, a target conference control centre according to a preset policy; and determining, by the target conference control centre, a data processing device to receive the conference participation request message of the conference participation end, and if the data processing device triggers a negotiation mechanism, conducting, by the data processing device, dynamic negotiation with other data processing devices in the target conference control center to determine a target data processing device, and processing, by the target data processing device, the conference participation request message of the conference participation end. The present invention realizes reasonable allocation of loads among data processing devices inside a conference control centre, thereby improving system processing efficiency.