WO/2016/015187 A DATA SCHEDULING METHOD AND APPARATUS||WO||04.02.2016|
||PCT/CN2014/083104||HUAWEI TECHNOLOGIES CO., LTD. ||HUANG, Min |
Embodiments of the present invention disclose a data scheduling method and apparatus, wherein, the method includes: a network device receives a service request transmitted by user equipment(UE); The network device obtains pulse Burst data of the service indicated by the service request according to the service request; the network device obtains service identification information of the service according to the service request, the service identification information comprises the size of the burst data and the delay requirements of the burst data; the network device schedules the Burst data to the UE according to the service identification information. The Burst data related to service is scheduled based on different service characteristics by using the present invention without restricting the delay of each data packet and the scheduling mode is flexible.
WO/2016/015193 SIGNAL PROCESSING DEVICE AND METHOD||WO||04.02.2016|
||PCT/CN2014/083123||HUAWEI TECHNOLOGIES CO., LTD. ||YU, Zhijian |
The present invention relates to the field of communications, and provides a signal processing device and method which can ensure the system stability. The method comprises: receiving an input signal x, x being a complex vector; training according to x and a predistortion coefficient c(n+1) collected at the (n+1)th time to obtain a predistorted signal z, wherein z is a complex vector, n is a natural number, and the predistortion coefficient collected at the (n+1)th time is used to limit the predistortion gain within a system controllable range; and amplifying z to obtain an output signal y', y' being a complex vector. The present invention is applied to adjust the nonlinear distortion of a power amplifier.
WO/2016/015223 DYNAMIC EQUILIBRIUM METHOD AND APPARATUS FOR QOS OF I/O CHANNEL||WO||04.02.2016|
||PCT/CN2014/083225||HUAWEI TECHNOLOGIES CO., LTD. ||QI, Kai |
Provided are a dynamic equilibrium method and apparatus for the QoS of an I/O channel, which relate to the technical field of computers, and an adjustment solution for I/O channel resource usage conditions is provided, which solves the problem that the QoS demand of services cannot be guaranteed. The method comprises: acquiring resource information and SLA information of each I/O channel, inquiring a QoS knowledge base to acquire a standard resource usage parameter corresponding to each I/O channel, then determining an I/O channel the current resource usage conditions of which does not match the standard resource usage parameter by means of comparison, and further instructing a file system to perform resource adjustment on the unmatched I/O channel. The embodiments of the present invention are used for implementing dynamic equilibrium of the QoS of an I/O channel.
WO/2016/015224 RECEIVER AND SIGNAL PROCESSING METHOD||WO||04.02.2016|
||PCT/CN2014/083239||HUAWEI TECHNOLOGIES CO., LTD. ||ZHU, Hufei |
The present invention provides a receiver and a signal processing method. The receiver comprises: a first mixer, used for mixing a received signal with a square wave signal to obtain a first mixed signal; a first low-pass filter, used for filtering the first mixed signal to obtain a first filtered signal; a first analog-to-digital converter, used for performing analog-to-digital conversion on the first filtered signal to obtain a first sampled signal; and a signal processing unit, used for estimating according to the first sampled signal an information symbol transmitted by a transmitting end, the square wave signal being generated according to an estimated value of a carrier of the received signal. The receiver provided by embodiments of the present invention has better flexibility.
WO/2016/015238 D2D RESOURCE ALLOCATION METHOD AND APPARATUS IN SWITCHING PROCESS AS WELL AS COMMUNICATION SYSTEM||WO||04.02.2016|
||PCT/CN2014/083288||FUJITSU LIMITED ||WU, Lianhai |
Provided are a D2D resource allocation method and apparatus in a switching process as well as a communication system. The D2D resource allocation method comprises: a source base station sends a switching request containing switching preparation information to a target base station, wherein the switching preparation information contains auxiliary information for assisting the target base station to perform D2D resource configuration. By means of the embodiments of the present invention, in a scenario where a user equipment performs D2D discovery or D2D communication, even if switching occurs, the target base station can accurately allocate an appropriate D2D resource.
WO/2016/015177 PYRAZOLO[3,4-D]PYRIMIDINE-4-KETONE DERIVATIVE, PREPARATION METHOD THEREFOR, AND USES THEREOF||WO||04.02.2016|
||PCT/CN2014/080487||BEIJING XINTIANYU TECHNOLOGY DEVELOPMENT CO., LTD. ||WANG, Haiyong |
A pyrazolo[3,4-d]pyrimidine-4-ketone derivative, a stereoisomer thereof or a salt thereof. The pyrazolo[3,4-d]pyrimidine-4-ketone derivative has a structure represented by formula (1) or (2). Compared with allopurinol, the pyrazolo[3,4-d]pyrimidine-4-ketone derivative, or the stereoisomer thereof or the salt thereof has a better uric acid lowering effect and better safety.
WO/2016/015179 TERMINAL DEVICE||WO||04.02.2016|
||PCT/CN2014/080708||HUAWEI TECHNOLOGIES CO., LTD. ||ZHAO, Menglong |
Embodiments of the present invention relate to a terminal device comprising a wristband and a headphone. The wristband comprises a U-shaped wristband body and, respectively located at either end of the wristband body, a first wristband extremity and a second wristband extremity. The headphone comprises a headphone body. The headphone body comprises a first headphone extremity and a second headphone extremity. The first wristband extremity and the first headphone extremity are fixedly connected via one rotary structure. When the headphone is being used, the second headphone extremity pivots with the rotary structure as the center of a sphere. When the headphone is being used, the wristband is used as an ear hook. When the headphone is not being used, the headphone and the wristband jointly form one closed annular body. The terminal device provided in the present invention has a small footprint and is convenient for a user to carry.
WO/2016/015267 RANK AGGREGATION BASED ON MARKOV MODEL||WO||04.02.2016|
||PCT/CN2014/083379||HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P. ||YU, Xiaofeng |
Rank aggregation based on a Markov model is disclosed. One example is a system including a query processor, at least two information retrievers, a Markov model, and an evaluator. The query processor receives a query via a processing system. Each of the at least two information retrievers retrieves a plurality of document categories responsive to the query, each of the plurality of document categories being at least partially ranked. The Markov model generates a Markov process based on the at least partial rankings of the respective plurality of document categories. The evaluator determines, via the processing system, an aggregate ranking for the plurality of document categories, the aggregate ranking based on a probability distribution of the Markov process.
WO/2016/015220 EXECUTABLE CODE ABNORMALITY DETECTION||WO||04.02.2016|
||PCT/CN2014/083218||HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P. ||REN, YiQun |
Executable code abnormality detection can include detecting user-activatable control elements of an executable code to be tested, generating a first test code based on the detected user-activatable control elements, and generating a second test code based on a script for the executable code to be tested, wherein the first and the second test codes containing instructions executable by a test application to test the executable code. Further, executable code abnormality detection can include executing the first test code and the second test code using the test application, andin response to the test application detecting an abnormality, saving instructions from the executed first test code and the executed second test code into a persistent file to allow replay of the abnormality.
WO/2016/015259 DEVICE CONTROL METHOD, DEVICE AND SYSTEM UNDER CENTRALIZED BASEBAND POOL ARCHITECTURE||WO||04.02.2016|
||PCT/CN2014/083350||HUAWEI TECHNOLOGIES CO., LTD. ||LIU, Qiangsheng |
Provided are a device control method, device and system under a centralized baseband pool architecture, which relate to the field of communications and can realize energy conservation and consumption reduction of the device while guaranteeing the implementation of services. The method comprises: implementing a deactivation operation or a cell migration operation on a dynamic cell of a virtual base station covering cell; simultaneously releasing baseband resources, occupied by the dynamic cell, on baseband processing units, wherein the virtual base station covering cell comprises the dynamic cell and a guaranteed covering cell, and the dynamic cell utilizes a baseband processing unit with a 'power-down' mark; in a pre-set energy-saving period of time, periodically scanning each of the baseband processing units with the 'power-down' mark, and implementing a power-off operation on the baseband processing unit with the baseband resources completely released. The method is used for performing energy conservation and consumption reduction on a baseband processing unit.