WO/2016/119125 FILE PROCESSING METHOD AND DEVICE||WO||04.08.2016|
||PCT/CN2015/071648||SZ DJI TECHNOLOGY CO., LTD||ZHANG, Lei|
A file processing method and device for preventing a file being cracked or transferred in a concealed channel. The present invention does not limit file format, thus supporting request ends of different operating systems. The method in an embodiment of the present invention comprises: receiving request information transmitted by the request end, and creating a virtual operating environment according to the request information; projecting to the request end according to the virtual operating environment, so as to generate, at the request end, an interactive interface for inputting an operating instruction; obtaining the operating instruction; and executing the operating instruction.
WO/2016/119263 SERVICE DISASTER RECOVERY METHOD AND RELATED DEVICE||WO||04.08.2016|
||PCT/CN2015/072051||HUAWEI TECHNOLOGIES CO., LTD.||FAN, Yu|
Embodiments of the present invention provide a service disaster recovery method and a related device, which solve the problem of a poor service disaster recovery effect in the prior art. The method comprises: an MME sends a request message to a DNS server, the request message comprising a pool identifier of an MME pool where the MME is located; the MME receives a request response message sent by the DNS server, the request response message comprising MMECs of all MMEs in the MME pool; the MME determines a backup MME of the MME according to the MMECs of all the MMEs in the MME pool; the MME sends an interface request message to the DNS server, the interface request message comprising an MMEC of the backup MME and the pool identifier of the MME pool; the MME receives an interface response message sent by the DNS server, the interface response message comprising interface information of the backup MME; and the MME sends user information of a UE attached to the MME to the backup MME according to the interface information of the backup MME. The method is applicable to the technical field of communications.
WO/2016/115704 LASER MEASUREMENT SYSTEM AND METHOD CAPABLE OF DETECTING 21 GEOMETRIC ERRORS||WO||28.07.2016|
||PCT/CN2015/071300||BEIJING JIAOTONG UNIVERSITY||FENG, Qibo|
A laser measurement system capable of detecting 21 geometric errors. A simultaneous laser six-degree-of-freedom error measurement unit (1) and a laser light diversion unit (2) are installed in one of a workpiece clamping component and a cutter clamping component, and a geometric error sensing unit (3) is installed in the other of the workpiece clamping component and the cutter clamping component. The laser light diversion unit (1) has multiple switchable working postures or multi-component combinations in an installed state, and through rotation or translation operations, splits or diverts a laser beam from the simultaneous laser six-degree-of-freedom error measurement unit (1) to directions parallel to X, Y and Z axes in turn, and splits or diverts a laser beam from the geometric error sensing unit (3) to the simultaneous laser six-degree-of-freedom error measurement unit (1). The system is simple in structure and convenient to operate, can be installed through one step and perform measurement step by step, and can obtain 21 geometric errors of three mutually perpendicular linear motion guide rails. Also disclosed is a laser measurement method capable of detecting 21 geometric errors.
WO/2016/112490 MUDSKIPPER AQUACULTURE TANK||WO||21.07.2016|
||PCT/CN2015/070591||FENG, Xuanyu||FENG, Xuanyu|
A mudskipper aquaculture tank, comprising an aquaculture tank body (10), an oxygen supply system (60) and a temperature control system; the internal portion of the aquaculture tank body (10) is divided into a water tank region (20) and a sand and gravel region (30); an oxygen tube of the oxygen supply system (60) extends into the water tank region (20) and is connected to a reverse airlift device (50) provided in the water tank region (20); the sand and gravel region (30) is located above the water tank region (20), and is separated from the water tank region (20) by a waterproof partition plate (31); one end of the partition plate (31) is provided with an inclined surface extending downward into the water; a heating device (61) of the temperature control system is provided in the water tank region (20); water for sustaining the mudskipper is stored in the water tank (20), and sand and gravel for the mudskipper to burrow in is stored in the sand and gravel region (30). The present invention simulates various environments, thus facilitating scientific research.
WO/2016/106597 SUPPORTING STRUCTURE HAVING VARIABLE FORM AND ELECTRONIC DEVICE HAVING SUPPORTING STRUCTURE||WO||07.07.2016|
||PCT/CN2014/095648||SHENZHEN ROYOLE TECHNOLOGIES CO. LTD||YANG, Songling|
A supporting structure having a variable form and an electronic device having the supporting structure. The supporting structure (1) comprises a fixing module (2), a tail end module (4), and a flexible module (3) used for connecting the fixing module (2) and the tail end module (4). The flexible module (3) comprises multiple chain units (31). Each chain unit (31) comprises a supporting sheet (310) having a supporting surface (310A) and a lower surface (310B) opposite to the supporting surface (310A), and a driving portion (311) extending from one side of the supporting sheet (310) to the lower surface (310B) of the supporting sheet (310). The chain units (31) are sequentially hingedly connected by means of connecting portions (3101) on the opposite sides of the supporting sheets (310), and adjacent chain units (31) drive the supporting surfaces (310A) to construct different forms through interaction between the driving portions (311), thereby forming the supporting structure (1) whose form can be flexibly changed.
WO/2016/106622 MOVING OBJECT AND AUTOMATIC ANTENNA ALIGNMENT METHOD AND SYSTEM THEREOF||WO||07.07.2016|
||PCT/CN2014/095757||SZ DJI TECHNOLOGY CO., LTD.||HU, Meng|
Disclosed are a moving object and an automatic antenna alignment method and system thereof. In the automatic antenna alignment method, the moving object comprises a plurality of antennas for establishing a communication link with a wireless terminal. The method comprises the following steps: promptly acquiring current characteristic information about the plurality of antennas, wherein the plurality of antennas comprise a standby antenna; and according to the current characteristic information about the plurality of antennas, selecting an antenna which can be used for current communication. In the automatic antenna alignment method, a moving object is provided with a plurality of antennas containing a standby antenna, by means of current characteristic information about the plurality of antennas acquired promptly, an antenna for communication is switched, and a transceiving antenna is always kept from being shielded, so as to maintain the stability and reliability of communication. In the automatic antenna alignment method, there is no need to use a servo pan-tilt having a relatively large volume, such that an antenna has a small volume, a light weight and a comparatively simple structure, and is very suitable for a moving object.
WO/2016/106560 REMOTE ACCESS IMPLEMENTATION METHOD, DEVICE AND SYSTEM||WO||07.07.2016|
||PCT/CN2014/095582||HUAWEI TECHNOLOGIES CO., LTD.||ZHANG, Yajun|
Provided are a method, system and device for enabling a user terminal to have access to a private network remotely. During initial configuration, an IP address of a VPN gateway in a private network is configured in a VPN server; and when a user terminal activates the VPN server, the VPN server sends a verification code message to the VPN gateway, the VPN gateway authenticates the VPN server, after the authentication is passed, the VPN gateway allocates a private network address field and an encryption key for the VPN server, and the VPN gateway sends the private network address field and the encryption key to the VPN server, such that the VPN server allocates the IP address for the user terminal in the private network address field, and data transferred to the VPN gateway is encrypted by utilizing the encryption key. Thus, the user terminal can have access to an enterprise intranet via the VPN server, and an end-to-end security flow from user access to data transmission is ensured by means of the above-mentioned secure encryption and authentication mechanism.
WO/2016/106507 METHOD AND DEVICE FOR ALLOCATING CELL-RADIO NETWORK TEMPORARY IDENTIFIER (C-RNTI)||WO||07.07.2016|
||PCT/CN2014/095358||HUAWEI TECHNOLOGIES CO., LTD.||XU, Zhan|
Disclosed are a method and device for allocating a cell-radio network temporary identifier (C-RNTI). The method comprises: when a UE accesses a serving cell, an entity where the serving cell is located randomly determines a start position for selecting a C-RNTI, selects the C-RNTI for the UE from a C-RNTI interval starting from the start position, and allocates the selected C-RNTI to the UE. That is to say, when allocating a C-RNTI to the UE, the entity where the serving cell is located randomizes the start position for allocation and uses the start position as the start position of an allocation interval, so as to randomize the allocation of the C-RNTI. The probability of repeated start positions of allocation intervals is reduced each time when each cell allocates a C-RNTI to a UE, so that the probability of a conflict between C-RNTIs allocated to the UE is also reduced.
WO/2016/101282 METHOD, DEVICE AND SYSTEM FOR PROCESSING I/O TASK||WO||30.06.2016|
||PCT/CN2014/095222||HUAWEI TECHNOLOGIES CO., LTD.||CHEN, Yan|
A method, device and system for processing an I/O task, which realize the function of processing an I/O operation in parallel on a virtualization platform. The method comprises: receiving an I/O request for performing an I/O operation on a storage device of a user domain virtual machine by the user domain virtual machine (S202); according to the I/O request, determining a storage device region to be operated based on the I/O request (S204); and distributing the I/O request to a back-end thread corresponding to the storage device region to be operated based on the I/O request (S206). By means of the method, the function of processing an I/O operation in parallel is realized, and on the premise that there is no restriction on the processing capability of a processor, an increase in an I/O processing speed is realized.
WO/2016/101151 INTEGRATED PACKAGE DESIGN WITH WIRE LEADS FOR PACKAGE-ON-PACKAGE PRODUCT||WO||30.06.2016|
||PCT/CN2014/094665||INTEL CORPORATION||SUN, Zhiyong Simon|
An integrated package design for a package-on-package product is described that uses wire leads. Some embodiments pertain to a stacked package assembly (101) that includes a first die (120) having a front side and a back side, a die paddle (122) attached to the back side of the first die (120), a plurality of wire leads (112), one end being connected to the front side of the die (120) for connection to an external device, a mold compound (126) encapsulating the first die (120) and at least a portion of the die paddle (122), a land pad (124) cut from the die paddle (122) and supported by the mold compound (126), a second plurality of wire leads (134), one end of the wire leads (134) being connected to the front side of the first die (120) and the other end of the wire leads (134) being connected to the land pad (124), a second die (138) stacked over the die paddle (122) and a third plurality of wire leads (136), one end being connected to the second die (138) and the other end being connected to the land pad (124).