31 results about "Diagonal form" patented technology

Techniques for assigning ranks to nodes in a large linked database, such as world wide web or any other hypermedia database, partition the nodes so that the link matrix has a predominantly block-diagonal form. Within each block, a local rank is computed for nodes in the block, possibly by different computer in a distributed computing environment. A block rank is then estimated for each block as a whole, and may optionally include block-level weights to implement customized ranking. The local ranks and block ranks are then combined to form a global rank, which may be used to rank the nodes. Alternatively, a global rank vector for the database may be used as an initial vector in an iterative link-based ranking scheme to obtain more accurate global ranks for the nodes. The global rank vector may be divided to provide local rank vectors for use in subsequent applications of the method.

A method of sending data in a multiple antenna system includes the steps of generating a transmission signal by applying channel-dependent precoding to a first antenna cluster and a second antenna cluster, each comprising a plurality of antennas, wherein the channel-dependent precoding is performed by a precoding weight matrix in which a precoding weight for each of the antenna clusters has a block diagonal form and the precoding weight is represented by P×V for a number of transmission antennas P, included in each of the antenna clusters, and a number of layers V applied to each of the antenna clusters (P and V are an integer greater than 0) and sending the transmission signal.

A method of sending data in a multiple antenna system includes the steps of generating a transmission signal by applying channel-dependent precoding to a first antenna cluster and a second antenna cluster, each comprising a plurality of antennas, wherein the channel-dependent precoding is performed by a precoding weight matrix in which a precoding weight for each of the antenna clusters has a block diagonal form and the precoding weight is represented by P×V for a number of transmission antennas P, included in each of the antenna clusters, and a number of layers V applied to each of the antenna clusters (P and V are an integer greater than 0) and sending the transmission signal.

A speech recognition method, comprising:receiving a speech input in a first noise environment which comprises a sequence of observations;determining the likelihood of a sequence of words arising from the sequence of observations using an acoustic model, comprising:providing an acoustic model for performing speech recognition on a input signal which comprises a sequence of observations, wherein said model has been trained to recognise speech in a second noise environment, said model having a plurality of model parameters relating to the probability distribution of a word or part thereof being related to an observation;adapting the model trained in the second environment to that of the first environment;the speech recognition method further comprising determining the likelihood of a sequence of observations occurring in a given language using a language model;combining the likelihoods determined by the acoustic model and the language model and outputting a sequence of words identified from said speech input signal,wherein adapting the model trained in the second environment to that of the first environment comprises:adapting the model parameters of the model trained in the second noise environment to those of the first noise environment using transform parameters to produce a target distribution, wherein the transform parameters have a block diagonal form and are applied to regression classes, each regression class comprising a plurality of probability distributions;mimicking the target distribution using a linear regression type distribution, said linear regression type distribution comprising mimicked transform parameters;and estimating the mimicked transformed parameters.

The invention provides an atmospheric pressure large-area uniform space plasma generating device. The atmospheric pressure large-area uniform space plasma generating device comprises dielectric plates, dielectric tubes, metal electrodes and wires. Each dielectric plate is formed by sequentially connecting four insulating substrates, wherein holes are formed in the surfaces of the two long-plate-face insulating substrates, and the holes are staggered. The dielectric tubes are inserted into the holes of the long-plate face insulating substrates on one side to groove holes in the inner surfaces of the long-plate-face insulating substrates on the other side, the dielectric tubes are sealed and fixed in the holes through sealant, and the closed ends are inserted into the groove holes of the long-plate-face insulating substrates on the other side and fixed in an adhesion mode. The metal electrodes are inserted into the dielectric tubes, one end of each metal electrode is connected with the bottom of the corresponding dielectric tube, and the other end of each metal electrode stretches out of the corresponding dielectric tube. The metal electrodes in the dielectric tubes on one side serve as high-voltage electrodes which are connected through the corresponding wire and then connected with a high-voltage power source, the metal electrodes in the dielectric tubes on the other side serve as ground electrodes which are connected through the corresponding wire and then grounded, and high-voltage access ports of the metal electrodes in the dielectric tubes on one side and ground electrode access ports of the metal electrodes in the dielectric tubes on the other side are connected in a diagonal mode. The atmospheric pressure large-area uniform space plasma generating device has the advantages of being stable in discharge, high in adjustability, safe, reliable and the like.

The invention discloses a proton exchange membrane fuel cell bipolar plate based on a labyrinth-baffle-plate-structured flow field. The proton exchange membrane fuel cell bipolar plate includes a rectangular gas flow field (1), the reaction gas inlet (11) and the reaction gas outlet (12) of which are located at two ends of one diagonal of the gas flow field (1) in diagonal distribution. A plurality of ridges (13) with the same height and a plurality of baffle plates (15) are distributed in the gas flow field (1). The gas flow field (1) is internally divided by the ridges (13) into to a plurality of flow channels (14) with the same width, and all the baffle plates (15) arranged along the other diagonal of the gas flow field (1) and the ridges (13) located on the diagonal form a flow channel dam along the diagonal. The labyrinth-baffle-plate-structured flow field allows forced convection and water discharge capacity of the reaction gas to be improved, the gas is made to be uniformly distributed, and the electrochemical reaction efficiency of the cell is increased. The electric current density becomes uniform, and the electrochemical performance of the whole fuel cell is improved.

A method for extracting capacitance from a layout record includes solving a matrix equation to obtain a set of capacitors that account for metal fill while eliminating floaters. A method for extracting capacitance from a layout record includes partitioning floaters into disjoint sets, and converting a capacitance matrix into block-diagonal form by ordering conductors according to the disjoint sets.

The invention provides an input character editing method and an input character editing system. The method comprises the steps of: receiving an editing request of a user, wherein the editing request is the request triggered by that the user clicks the positions of the characters to be edited in a character display area; accessing into a diagonal line editing interface; arranging the characters within the left and right preset ranges in the positions of the characters to be edited in a diagonal form; and popping up the diagonal arrangement sequence of the characters; selecting some character in the character diagonal line arrangement sequence based on the information clicked by the user; and editing the selected character. According to the input character editing system, the characters are arranged in form of the diagonal line, which changes the conventional character arrangement mode, and the user can select the character only by clicking the character in the diagonal line, so that the clicking operation of the user is enabled to be more convenient, the character editing position can be precisely positioned, and the misoperation rate can be reduced.

An intensity image is collected at each of a plurality of locations spaced apart in a propagation direction of a light beam. Information from the intensity images is combined using a Kalman filter which assumes that at least one co-variance matrix has a diagonal form. This leads to considerable reduction in computational complexity. An augmented Kalman filter model (augmented space state model) is used in place of the standard Kalman filter model. The augmented Kalman filter improves the robustness to noise.

An intensity image is collected at each of a plurality of locations spaced apart in a propagation direction of a light beam. Information from the intensity images is combined using a Kalman filter which assumes that at least one co-variance matrix has a diagonal form. This leads to considerable reduction in computational complexity. An augmented Kalman filter model (augmented space state model) is used in place of the standard Kalman filter model. The augmented Kalman filter improves the robustness to noise.

The invention discloses a method for constructing LDPC codes. The method comprises the following steps that: step 1, the size of a check matrix of the LDPC codes is set, specifically, the number of lines, the number of columns and the size of circulatory sub blocks of the check matrix are set; step 2, according to the number of the lines, the number of the columns and the size of the circulatory sub blocks, the number of the circulatory sub blocks contained in the check matrix is calculated, and optimal line-column distribution is searched, and the optimal line-column distribution uniquely determines the column degree value of each circulatory sub block; a code table of the LDPC codes is set, such that each circulatory sub block is corresponding to one line in the code table, and the number of the figures of the corresponding line is equal to the column degree value of the circulatory sub block; and a step 3, values of the figures in the code table are determined. Codes constructed by using the method of the invention are irregular codes; with the design of column weight distribution and a short-cycle elimination algorithm adopted, the performance of the codes is close to Shannon limit; with double diagonal form-degree two-node design adopted, the implementation of an encoder can be simplified; and considerations are given to the regularization of line weight, such that the error floor of the codes can be decreased.

The present invention proposes a method for solving the decomposition-coordination calculation based on Block Bordered Diagonal Form(BBDF) model by using data center. During the solving process, partitioning the electric power system network by using the existing network partitioning method to achieve the grid partition, and setting the parameters of virtual memories firstly, thus to establish the bin-packing model with the priority of energy efficiency; and then, setting each calculating step of the decomposition-coordination calculation based on BBDF as a task. Through the manners that servers host VMs and VMs map tasks, the decomposition-coordination algorithm can be executed in data center, and the running time and energy consumption of data center can be calculated. The present invention can shorten the calculating time of decomposition-coordination algorithm and reduce the energy consumption in data center. Moreover, with the increase of scale and the complexity of the electric power system, the advantages of the method using data center presented by the present invention are becoming much more obvious.

The invention provides a scanning projection method of a laser scanning projector. The scanning projection method comprises the following steps: performing scanning through a scanning galvanometer fast axis and a scanning galvanometer slow axis of the laser scanning projector, wherein the scanning mode of the scanning galvanometer slow axis is a nonlinear motion scanning mode; in a process of scanning each row, the scanning galvanometer slow axis is enabled to be in a static state at a preset position by regulating and controlling driving current; when the driving current of the scanning galvanometer slow axis is drop-out current, reverse current is provided for the scanning galvanometer slow axis, so that the scanning galvanometer slow axis is in the static state under the driving of thereverse current, and the scanning galvanometer fast axis does scanning motion all the time; and then, motion current is provided for the scanning galvanometer slow axis, so that the scanning galvanometer slow axis does the scanning motion under the driving of the motion current and moves to the next row. By use of the scanning projection method of the laser scanning projector, the problem of wrongimage projection caused by intersecting diagonals formed by back-and-forth scanning of the existing laser scanning projector can be solved.

The invention relates to a method for realizing walking in steps by four feet by utilizing a gravity center overturning process, which comprises a machine consisting of an integral gravity center overturning plane, four feet with the same length from the gravity center overturning plane to the ground, a step limiting a rope and a gravity center overturning hammer, and comprises the following steps that: the gravity center of the machine falls onto an intersection point of diagonals of supporting points of the four feet through the preset integral gravity center overturning plane; the gravity center overturning hammer moves on the gravity center overturning plane to and fro, so that the gravity center overturning plane is overturned on two diagonals formed by the supporting points of the four feet to and fro; and in the overturning process, walking in steps is realized. The invention utilizes straight legs as the supporting legs, has strong bearing capacity as a carrying machine, can be used to explain a huge rock carrying method for building the Pyramids and a prototype of walking machines in the Romance of the Three Kingdoms, namely 'wooden oxen and mobile horses', and is a beneficial reference for inventing and manufacturing modern walking machines. Toys made by the method have the function of gradually developing intelligence of children in the growing process.

The aim of the present invention is to provide a tube-shaped incandescent lamp with positioning part which does not project along the tube axis direction but can be set on the central axis of a fixing roller. The tube-shaped incandescent lamp includes: tube-shaped incandescent packaging body, containing sealing parts on two ends; lamp holder, locating on the packaging body; conductor, educing from the lamp holder. The lamp is characterized in that the lamp holder is equipped with an opening part combining with the sealing part, and has an deduced hole in the direction crossing with the opening part; a longest diagonal formed along the lamp holder opening forms required wall thickness, and forming a convex part within a cylinder-shaped range formed along most outer diameter of the lamp holder after increasing the wall thickness of the diagonal, by means of making the convex part leave the deduced hole to set the positioning part.

The invention discloses an improved shock insulation, damping or energy consumption layer structural system with a non-horizontal linear section. A part of the vertical section or horizontal section of a shock insulation, damping or energy consumption layer can be of a diagonal form, a curved form, a folded-line form or a combined form. In an improved rotary shock insulation, damping or energy consumption layer structural system with a non-horizontal linear section, the vertical section or horizontal section of a rotary shock insulation, damping or energy consumption layer can be of a diagonal form, a curved form, a folded-line form or a combined form. In an improved vertical shock insulation, damping or energy consumption layer structural system with the non-horizontal linear section, the vertical section or horizontal section of a vertical shock insulation, damping or energy consumption layer can be of a diagonal form, a curved form, a folded-line form or a combined form. By adopting the improved shock insulation, damping or energy consumption layer with the non-horizontal linear section, overturning can be resisted, overturning rotation displacement can be limited and reduced, surpassing of maximum allowed displacement can be prevented, the tension of a damping support can be reduced, long-period structural damping can be realized, and self-locking can be avoided; the shock insulation, damping or energy consumption layer can be provided with a plurality of vertical segments or diagonal segments.

Techniques for assigning ranks to nodes in a large linked database, such as world wide web or any other hypermedia database, partition the nodes so that the link matrix has a predominantly block-diagonal form. Within each block, a local rank is computed for nodes in the block, possibly by different computer in a distributed computing environment. A block rank is then estimated for each block as a whole, and may optionally include blocklevel weights to implement customized ranking. The local ranks and block ranks are then combined to form a global rank, which may be used to rank the nodes. Alternatively, a global rank vector for the database may be used as an initial vector in an iterative link-based ranking scheme to obtain more accurate global ranks for the nodes. The global rank vector may be divided to provide local rank vectors for use in subsequent applications of the method.

The invention provides an anti-skidding and anti-abrasion production process of a membrane. The anti-skidding and anti-abrasion production process of the membrane comprises the steps that the membrane is enabled to pass through two stick shafts in a diagonal mode, a traction device connected with the membrane is started, and the traction device drives the membrane to move from one stick shaft to the other stick shaft; two motors connected with the two stick shafts are started, and the motors drive the two stick shafts to rotate; two end portions of the membrane are respectively contact with two end portions of the two stick shafts, and gaps are reserved between the middle portion of the membrane and the middle portions of the two stick shafts; and the two motors connected with the two stick shafts rotate in opposite directions and at the same speed. According to the anti-skidding and anti-abrasion production process of the membrane, on one hand the gaps are reserved between the middle portion of the membrane and the middle portions of the two stick shafts, abrasion between the membrane and the stick shafts is reduced, and then unqualified rate of membranes is decreased; and on the other hand, the two motors connected with the two stick shafts rotate in the opposite directions and at the same speed, slipping of the membranes on one of the two stick shafts due to different rotating speeds of the two stick shafts is avoided.

A rounded square lens is used instead of a hemispherical lens in an LED package to produce a substantially Lambertian light emission pattern. A cross-sectional view of the rounded square lens cut along its diagonal forms a semicircular surface so as to emulate a hemispherical lens in areas close to the diagonal. A cross-sectional view of the lens cut along its width bisecting the lens forms a bullet shaped surface narrower than the semicircular surface but having the same height as the semicircular surface. The four corners of the lens are rounded. The surface of the lens smoothly transitions between the two surface shapes. Since the rounded square lens has a diagonal dimension larger than a maximum allowable diameter of a hemispherical lens in the same package body, a larger LED die may be used with the rounded square lens to output more light without increasing the size of the package while maintaining a Lambertian emission.

The invention relates to a pipe for opening holes in a wallboard. A post-drilling waterproof treatment method for a waterproof structure, including: processing the sleeve assembly according to the size of the required opening, the sleeve and the flange need to be fully welded on both sides; opening the structure, and after the opening is completed, the concrete around the hole needs to be Polish the surface to ensure that the flange can fully contact the structure; temporarily fix the flange sleeve on the opening part, and place the flange on the back surface of the structure; after simple fixing, perform positioning and drilling of post-planted bolts, and place galvanized bolts Use planting glue to implant into the structure, and the construction process is the same as that of planting bars; after the planting glue is completely cured, first install a circle of water-swelling water-stop strips inside the bolts, then install waterproof rubber rings, and finally install flange waterproof sleeves After the casing is aligned, the bolts are fastened, and the single pad and single cap are tightened one by one in the form of cross diagonals; after the fastening is completed, the flexible asphalt ointment is filled between the casing and the structure from the side facing the water. Can. The waterproof effect of the present invention is stable.

The invention discloses a network algebraic equation solution preprocessing method and system based on a power angle equivalent method, and the method comprises the steps: carrying out the optimization sorting of the bus nodes of dynamic elements, carrying out the initialization calculation of the dynamic simulation of a power system, and obtaining the initial value of the state variable of each dynamic element; calculating an equivalent matrix of each generator based on the initial power angle of each generator, and generating an approximate matrix in a block diagonal form; superposing the approximate matrix to a network admittance matrix to generate an improved admittance matrix, and performing LU decomposition on the improved admittance matrix to obtain a decomposition result; carryingout separate solution in a single time step on the differential equation and the algebraic equation by utilizing a decomposition result, and carrying out iterative computation to enable the differential equation and the algebraic equation to meet a convergence condition; outputting a discrete solution result in a single time step; and judging whether the approximation matrix is effective or not byutilizing a discrete solution result.

The invention provides an input character editing method and an input character editing system. The method comprises the steps of: receiving an editing request of a user, wherein the editing request is the request triggered by that the user clicks the positions of the characters to be edited in a character display area; accessing into a diagonal line editing interface; arranging the characters within the left and right preset ranges in the positions of the characters to be edited in a diagonal form; and popping up the diagonal arrangement sequence of the characters; selecting some character in the character diagonal line arrangement sequence based on the information clicked by the user; and editing the selected character. According to the input character editing system, the characters are arranged in form of the diagonal line, which changes the conventional character arrangement mode, and the user can select the character only by clicking the character in the diagonal line, so that the clicking operation of the user is enabled to be more convenient, the character editing position can be precisely positioned, and the misoperation rate can be reduced.

A side edge four-sling flat bottom square bag mainly comprises a main bag body composed of a square bag body with a bag cover at the upper portion and a flat bag bottom at the lower portion. The bag cover is provided with a circular feeding port. The upper edge of the bag body of the main bag body and the edge of the bag cover are singly folded inwards, and then single-seam connection is conducted. The lower edge of the bag body of the main bag body wraps the peripheral edge of the bag cover, then, double edge folding is conducted together, and parallel double-seam sewing is conducted. The square peripheral edges of the bag body are centered and aligned with four corners as center lines, sling belts are oppositely folded to form fly rings, the four fly rings are downwards sewn to the bottom along the corners and are sewn in the diagonal form at the flat bag bottom, crossing sewing is conducted at the middle crossing part, the position, away from the upper end edge by 5-20 cm, of the upper portion of the bag body is sewn to the bag body and belt bodies of the fly rings to be strengthened and fixed through a lashing strip transversely surrounding the bag body. The side edge four-sling flat bottom square bag has the beneficial effects that the structure is simple and reasonable, using is convenient, safety and reliability are achieved, hidden danger is small, the bearing strength is high, multi-time usage can be achieved, and damage is not likely to happen; and the goods filling and throwing speed can be increased, and the work efficiency can be improved.

The invention discloses a proton exchange membrane fuel cell bipolar plate based on a labyrinth-baffle-plate-structured flow field. The proton exchange membrane fuel cell bipolar plate includes a rectangular gas flow field (1), the reaction gas inlet (11) and the reaction gas outlet (12) of which are located at two ends of one diagonal of the gas flow field (1) in diagonal distribution. A plurality of ridges (13) with the same height and a plurality of baffle plates (15) are distributed in the gas flow field (1). The gas flow field (1) is internally divided by the ridges (13) into to a plurality of flow channels (14) with the same width, and all the baffle plates (15) arranged along the other diagonal of the gas flow field (1) and the ridges (13) located on the diagonal form a flow channel dam along the diagonal. The labyrinth-baffle-plate-structured flow field allows forced convection and water discharge capacity of the reaction gas to be improved, the gas is made to be uniformly distributed, and the electrochemical reaction efficiency of the cell is increased. The electric current density becomes uniform, and the electrochemical performance of the whole fuel cell is improved.

A smoke and dust purification device for an automatic welding platform, comprising a welding platform (1), and a suction-type protective cover device (2) with a structure such as that arranged at the four corners of the platform (1) is in the form of a diagonal, and the upper end surface can adjust its coverage area, The bottom surface of the platform (1) is equipped with a hollow pipe device (3), a purification processor (4), and a display device (5). When in use, it is connected to an external power supply, and the smoke and dust generated during the welding process are collected and transported to the purification processor (3). Classify the internal consumption, and at the same time clearly display the dynamic data of the operation; set the warning device (6); set the main control device (7), which is suspended under the purification processor (4); set the temperature sensor at the front end of the protective cover device (2) The module (8) intelligently monitors the heating state; it is fixed on the side of the welding platform to collect the smoke and dust horizontally, effectively improving the welding environment, reducing the inhalation of harmful substances, safety and environmental protection, and high purification efficiency.

The invention discloses an improved shock insulation, damping or energy consumption layer structural system with a non-horizontal linear section. A part of the vertical section or horizontal section of a shock insulation, damping or energy consumption layer can be of a diagonal form, a curved form, a folded-line form or a combined form. In an improved rotary shock insulation, damping or energy consumption layer structural system with a non-horizontal linear section, the vertical section or horizontal section of a rotary shock insulation, damping or energy consumption layer can be of a diagonal form, a curved form, a folded-line form or a combined form. In an improved vertical shock insulation, damping or energy consumption layer structural system with the non-horizontal linear section, the vertical section or horizontal section of a vertical shock insulation, damping or energy consumption layer can be of a diagonal form, a curved form, a folded-line form or a combined form. By adopting the improved shock insulation, damping or energy consumption layer with the non-horizontal linear section, overturning can be resisted, overturning rotation displacement can be limited and reduced, surpassing of maximum allowed displacement can be prevented, the tension of a damping support can be reduced, long-period structural damping can be realized, and self-locking can be avoided; the shock insulation, damping or energy consumption layer can be provided with a plurality of vertical segments or diagonal segments.

The invention relates to a method for realizing walking in steps by four feet by utilizing a gravity center overturning process, which comprises a machine consisting of an integral gravity center overturning plane, four feet with the same length from the gravity center overturning plane to the ground, a step limiting a rope and a gravity center overturning hammer, and comprises the following steps that: the gravity center of the machine falls onto an intersection point of diagonals of supporting points of the four feet through the preset integral gravity center overturning plane; the gravity center overturning hammer moves on the gravity center overturning plane to and fro, so that the gravity center overturning plane is overturned on two diagonals formed by the supporting points of the four feet to and fro; and in the overturning process, walking in steps is realized. The invention utilizes straight legs as the supporting legs, has strong bearing capacity as a carrying machine, can be used to explain a huge rock carrying method for building the Pyramids and a prototype of walking machines in the Romance of the Three Kingdoms, namely 'wooden oxen and mobile horses', and is a beneficial reference for inventing and manufacturing modern walking machines. Toys made by the method have the function of gradually developing intelligence of children in the growing process.

The present invention discloses a codeword construction method of an LDPC code, comprising the following steps: Step 1, setting the size of the parity check matrix of the LDPC code, including setting the number of rows, the number of columns, and the size of the cyclic sub-block of the parity check matrix . Step 2, according to the number of rows, the number of columns and the size of the cyclic sub-block, calculate the number of cyclic sub-blocks contained in the parity check matrix, and search for an optimal row and column degree distribution, which uniquely determines each cyclic sub-block The column degree value; The code table of the LDPC code is set so that each cyclic sub-block corresponds to a corresponding row in the code table, and the number of numbers in the corresponding row is equal to the column degree value of the cyclic sub-block. Step 3, determine the value of each number in the code table. The code word constructed by the present invention is an irregular code word, and the design of the column weight distribution and the elimination algorithm of the short ring make the code word performance close to the Shannon limit, and the design of the double diagonal form degree 2 nodes simplifies the realization of the encoder, and the row weight Regularization considerations can reduce the error floor of a codeword.