||WO||WO/2014/110770 - LIGHT LEADING-IN SYSTEM, EDGE TYPE BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY||24.07.2014||
||PCT/CN2013/070633||SHENZHEN CHINA STAR OPTOELECTRONICS TECHNOLOGY CO., LTD.||HU, Che-chang|
A light leading-in system (1), an edge type backlight module (2) and a liquid crystal display (3) are provided. The light leading-in system (1) comprises an ambient light collecting system (10), a plurality of light guiding devices (20) and a wedge-shaped light guide bar (40), wherein the ambient light collecting system (10) faces towards ambient light (CL), absorbs the ambient light (CL) and generates absorption light (SL); each light guiding device (20) is provided with one light incidence end (22) and one light output end (21), the light incidence ends (22) are adjacent to the ambient light collecting system (10), the absorption light enters the light incidence ends (22) and is guided to the light output ends (21); the wedge-shaped light guide bar (40) is provided with a light output side surface (401) and a light incidence side surface (402), the light incidence side surface (402) is connected with the light output side surface (401) and is a wider side surface connected with an inclined side surface (403), the light output side surface (401) is opposite to the inclined side surface (403) and is adjacent to one light incidence surface (31) of a light guide plate (30), and the light output ends (21) of the light guiding devices (20) are adjacent to the light incidence side surface (402). According to the light leading-in system (1), the edge type backlight module (2) and the liquid crystal display (3), the wedge-shaped light guide bar (40) is utilized to save material and reduce weight, and meanwhile, the phenomenon of non-uniform brightness of the light incidence surface (31) is reduced, and optic taste of the edge type backlight module (2) is improved.
||WO||WO/2014/110787 - LED BULB LAMP WHICH EMITS LIGHT DOWNWARD||24.07.2014||
||PCT/CN2013/070678||NATIONAL STATE INDUSTRIES LIMITED||MOON, Daisung|
An LED bulb lamp which emits light downward comprises a lamp holder (1), a base (2), a lamp body (3), and a lamp shade (4) which are integrally formed in sequence. A drive plate (5) is provided in an inner cavity of the lamp body (3), an aluminum base plate (6) and an LED light source component (61) covered on the aluminum base plate (6) are provided on a lamp body mounting surface (31), and through-holes (62, 32) are formed along center points of the aluminum base plate (6) and the lamp body mounting surface (31). A drive plate retainer ring (51) penetrates from the inner cavity of the lamp body (3) into the through-holes (62, 32), so that a wire (9) on the drive plate (5) can be connected into the aluminum base plate (6). A screw (7) is screwed into a threaded hole on the base (2) to connect the aluminum base plate (6), the lamp body (3), and the base (2). The lamp shade (4) is provided with a reflector component (8) at a center position of a spherical cavity. The LED bulb lamp obtains downward light at a beam angle of 240 to 300 degrees through the lamp shade, and maintains part of the light which is emitted upward along a light path at the center of the reflector component.
||WO||WO/2014/110805 - RANDOM ACCESS FOR COVERAGE IMPROVEMENT||24.07.2014||
||PCT/CN2013/070708||BROADCOM CORPORATION||WEI, Na|
A user equipment UE sends in a first message on a random access channel at least one instance of a cyclic prefix CP and a configurable number of N instances of a sequence (N>1); then searches for a second message that replies to the first in a window defined by the first message and implicitly linked to the number N used in the first message. N can be configured by the UE based on its estimate of coverage improvement, and/or by the network and signaled via broadcast SIB/MIB. In one embodiment the first message has one CP and N sequences; in another the CP and sequence are placed in each of N transmission time intervals TTIs. Transmission of the first message begins in a TTI that is a function of a) a system frame number and the number N; and/or b) a time and frequency radio resource based on the number N.
||WO||WO/2014/110828 - METHOD, DEVICE, AND SYSTEM FOR IMPROVING NETWORK SECURITY||24.07.2014||
||PCT/CN2013/070785||HUAWEI TECHNOLOGIES CO., LTD.||JIN, Wenjun|
Disclosed are a method, a device, and a system for improving network security. The method for improving network security comprises: a network manager receiving a certificate message reported by a network element; the network manager generating a first list; when determining that a certificate corresponding to certificate information in the first list needs to be revoked, the network manager generating a certificate revocation request file according to the certificate information, and removing the certificate information in the first list from the first list; and the network manager sending the certificate revocation request file to a public key infrastructure (PKI) system. By means of the method of the embodiment, a device certificate in a network can be automatically revoked, which lowers the risk of manual revocation mistakes, and improves network security. Also disclosed are a device and a system for improving network security.
||WO||WO/2014/110740 - ELECTRONIC CIGARETTE DEVICE AND ELECTRONIC CIGARETTE THEREOF||24.07.2014||
||PCT/CN2013/070552||LIU, Qiuming||LIU, Qiuming|
An electronic cigarette device and an electronic cigarette (100) thereof. The electronic cigarette (100) comprises a first rod body (101) and a second rod body (102) which is in butt joint with the first rod body (101). The opposite ends of the first rod body (101) and the second rod body (102) are correspondingly provided with a first plugging connector (11) and a second plugging connector (12) which is matched with the first plugging connector (11). The first plugging connector (11) and the second plugging connector (12) enable the first rod body (101) and the second rod body (102) to be in stable butt joint. A locking part (13) with a convex end being in an arch face is arranged on the side wall of the first plugging connector (11) in circumferential direction, and a locking groove (14) which is matched with the locking part (13) to enable the locking part (13) to be plugged in is correspondingly formed in the side wall of the second plugging connector (13). The first rod body and the second rod body of the electronic cigarette are in stable butting joint through the locking part and the locking groove. The locking part and the locking groove are arranged at the opposite ends of the first rod body and the second rod body and matched with each other. The electronic cigarette has the advantages of simple structure, assembling and disassembling conveniently and high stability.
||WO||WO/2014/110757 - METHOD AND APPARATUS FOR FACILITATING EXTENDED TIME-DOMAIN GRANULARITY FOR UPLINK FREQUENCY HOPPING||24.07.2014||
||PCT/CN2013/070602||BROADCOM CORPORATION||TAN, Shuang|
A method, apparatus and computer program product are provided for enhancing frequency hopping with transmission time interval bundling. In this regard, a method is provided that includes extending a frequency hopping time-domain granularity for a Physical Uplink Shared Channel to a number of subframes greater than one subframe. The method may further include enabling provision of a generated indication identifying the extended frequency hopping time-domain granularity to at least one communication device to enable the communication device to perform frequency hopping for the number of subframes greater than one subframe. Corresponding apparatuses and computer program products are also provided.
||WO||WO/2014/110764 - DYNAMIC TDD UPLINK/DOWNLINK CONFIGURATION USING DCI||24.07.2014||
||PCT/CN2013/070620||PANASONIC INTELLECTUAL PROPERTY CORPORATION OF AMERICA||GOLITSCHEK EDLER VON ELBWART, Alexander|
The invention relates to a method for dynamically indicating a TDD re-configuration to the mobile station by encoding the dynamic TDD re-configuration indication into the DCI or CRC calculated for the DCI. In one embodiment, the TDD configuration indication is implicitly encoded as an RNTI into the CRC, when scrambling the CRC for the DCI with a TDD-RNTI. In another embodiment, the TDD configuration indication is part of the DCI payload, while the CRC for the DCI is scrambled with a cell identifier, identifying the target cell for which the dynamic TDD re- configuration is to be applied. In still another embodiment, the TDD configuration indication is part of the DCI payload, where the DCI payload further includes an invalid parameter indicating to the mobile station that the DCI carries the TDD configuration indication.
||WO||WO/2014/110775 - PREVENTING A MEMORY ATTACK TO A WIRELESS ACCESS POINT||24.07.2014||
||PCT/CN2013/070640||HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P.||LIU, Yongqiang|
Systems, methods, and machine-readable and executable instructions are provided for preventing a memory attack to a wire less access point (AP ). Preventing a memory attack to a wireless access point can include receiving, with a wireless AP, a generic advertisement service (GAS) initial request from a querying station and transmitting, with the wireless AP, a GAS initial response to the querying station without querying an advertisement server based on the GAS initial request.
||WO||WO/2014/110778 - METHOD AND DEVICE FOR TRANSMITTING DOWNLINK CONTROL INFORMATION AND DETERMINING SEARCH SPACE||24.07.2014||
||PCT/CN2013/070652||FUJITSU LIMITED||ZHANG, Jian|
A method and device for transmitting downlink control information and determining search space, the method for determining the search space comprising: determining, according to a first offset, a second offset and other related parameters, an enhanced control channel element (eCCE) occupied by an enhanced physical downlink control channel (ePDCCH) candidate on each carrier wave. The first offset represents the adjusted offset of the eCCE in different eREG groups, the eCCE being occupied by the ePDCCH candidate in the same carrier wave; and the second offset represents the offset coordinating the collision of the eCCEs occupied by the ePDCCH candidates between different carrier waves. Under the inter-carrier condition, a first offset and a second offset are introduced during space search to prevent, as much as possible, ePDCCH candidates between CCs from colliding, and prevent, as much as possible, the ePDCCH candidate of each CC from being distributed into the same eREG group, thus solving the problem in the prior art.
||WO||WO/2014/110786 - DATA TRANSMISSION METHOD AND DEVICE||24.07.2014||
||PCT/CN2013/070672||HUAWEI TECHNOLOGIES CO., LTD.||MIAO, Jinhua|
The present invention relates to a data transmission method and device. The data transmission method comprises: acquiring associated count values of received protocol data units (PDUs), wherein the received PDUs are PDUs received by a first data link layer from N data streams of a second data link layer, and N≥2; determining N candidate count values, wherein the N candidate count values are one-to-one corresponding to the N data streams, and the candidate count value is a maximum value of the associated count values of the PDUs received from each data stream; selecting a minimum value from the N candidate count values as a count value that can be submitted currently; and when the associated count value of the received PDU meets a submitting condition set according to the count value that can be submitted currently, submitting the PDU of which the associated count value meets the submitting condition to an upper communication layer of the first data link layer.