Patent application number | Description | Published |
20100223320 | DATA DISTRIBUTION EFFICIENCY FOR ONLINE COLLABORATIVE COMPUTING SESSIONS - In one embodiment, an online collaborative computing session is initiated between a presenter device and a plurality of attendee devices via a server in a computer network. The server distributes session data from the presenter device to the plurality of attendee devices. To decrease the amount of traffic in the network, at least one of the plurality of attendee devices may be selected as a super node, where each super node is then responsible for one or more corresponding attendee devices of the session. The session data is received at the super nodes and distributed from the super node to its one or more corresponding attendee devices. | 09-02-2010 |
20100262925 | EFFICIENTLY SHARING WINDOWS DURING ONLINE COLLABORATIVE COMPUTING SESSIONS - In one embodiment, a presenter device may determine displayed windows of applications, and may provide individual window sharing selectability (e.g., shared or unshared), as well as entire application sharing selectability (shared, unshared, or neither). In particular, the entire application sharing selectability takes priority over individual window sharing selections (i.e., all windows of shared applications are shared and all windows of unshared applications are unshared). Based on individual window sharing selections and entire application sharing selections, a set of presenter device windows that are to be shared with the attendee devices may be determined, as well as a set of unshared windows that are not to be shared with the attendee devices, and the presenter device may share the set of shared windows with the attendee devices, without sharing the set of unshared windows. | 10-14-2010 |
20140089358 | ONLINE BINDERS - Technology is disclosed for organizing, managing and sharing data files as pages of an online binder (“the technology”). In various embodiments, the technology stores multiple data files received in multiple formats from multiple sources as pages of the online binder. The pages of the online binder are of a common format. The common format allows the pages, that is, the data files corresponding to the pages, to be accessed using a variety of devices regardless of a platform of the devices. The online binder is platform agnostic. The technology provides tools to create notes for the pages of the online binder. The notes can include text annotations, drawings, or audio visual annotations, including a recording of the user actions as presented on the device of the user. The technology provides a collaboration service for sharing the online binder with multiple users asynchronously or in real-time. | 03-27-2014 |
20140089415 | ONLINE BINDERS - Technology is disclosed for organizing, managing and sharing data files as pages of an online binder (“the technology”). In various embodiments, the technology stores multiple data files received in multiple formats from multiple sources as pages of the online binder. The pages of the online binder are of a common format. The common format allows the pages, that is, the data files corresponding to the pages, to be accessed using a variety of devices regardless of a platform of the devices. The online binder is platform agnostic. The technology provides tools to create notes for the pages of the online binder. The notes can include text annotations, drawings, or audio visual annotations, including a recording of the user actions as presented on the device of the user. The technology provides a collaboration service for sharing the online binder with multiple users asynchronously or in real-time. | 03-27-2014 |
20140089794 | ONLINE BINDERS - Technology is disclosed for organizing, managing and sharing data files as pages of an online binder (“the technology”). In various embodiments, the technology stores multiple data files received in multiple formats from multiple sources as pages of the online binder. The pages of the online binder are of a common format. The common format allows the pages, that is, the data files corresponding to the pages, to be accessed using a variety of devices regardless of a platform of the devices. The online binder is platform agnostic. The technology provides tools to create notes for the pages of the online binder. The notes can include text annotations, drawings, or audio visual annotations, including a recording of the user actions as presented on the device of the user. The technology provides a collaboration service for sharing the online binder with multiple users asynchronously or in real-time. | 03-27-2014 |
Patent application number | Description | Published |
20080205282 | METHOD FOR PROTECTING THE SERVICE FLOW AND A NETWORK DEVICE - A method for protecting the service flow is provided, wherein a back path is preset between the source node and the destination entity, the method includes steps: A, the source node switches the service flow to the backup path and transmits the service flow to the destination entity through the backup path, at the same time, the source node computes a hypo-excellent path by the route algorithm, and compares the hypo-excellent path with the backup path, if the hypo-excellent path is more excellent than the backup path, then implements the step B, if not, ends the program. B, the source node switches the service flow to the hypo-excellent path and transmits the service flow to the destination entity through the hypo-excellent path. A network device implementing the method for protecting the service flow is also provided. The method for protecting the service flow in the invention has the ability that the fast fault restoration. | 08-28-2008 |
20090271567 | METHODS FOR MANAGING BLOCKS IN FLASH MEMORIES - A method for managing blocks in a flash memory is provided, which includes dynamic and static block managing methods. In the dynamic block managing method, a blank block is selected as a swap block for write operation. During each write operation, new data and/or original data in an object block to be operated are written into the swap block, and the object block is erased. Then, a logical address of the object block is changed to be a logical address of the swap block, so that the object block served as the swap block for a next write operation. In the static block managing method, a variable seed parameter is set. Different values of the seed parameter are each associated with a logical address of a respective flash memory block. When the value of the seed parameter varies, data in the flash memory block and the swap block associated to the value of the seed parameter are exchanged, so that the flash memory block associated to the value of the seed parameter becomes the swap block for the next write operation. | 10-29-2009 |
20100100668 | CONTROL METHOD FOR LOGICAL STRIPS BASED ON MULTI-CHANNEL SOLID-STATE NON-VOLATILE STORAGE DEVICE - A control method for logical strips based on a multi-channel solid-state non-volatile storage device is provided. The method includes the following processing steps. In Step 1, a storage space of every channel is partitioned into a plurality of storage units of equal size. In Step 2, at least one logical strip is set by which the storage units with discrete physical addresses across a plurality of channels are organized into a continuous logical space. In Step 3, during data reading/writing operation, the data is divided according to a size of each local strip, the divided data is mapped to the storage units of every channel, and a parallel reading/writing operation is performed across the channels. This method may increase the efficiency of reading and writing operations of the storage device and prolong the operating life span of the device. | 04-22-2010 |
20100100669 | SELF-ADAPTIVE CONTROL METHOD FOR LOGICAL STRIPS BASED ON MULTI-CHANNEL SOLID-STATE NON-VOLATILE STORAGE DEVICE - A self-adaptive control method for logical strips based on a multi-channel solid-state non-volatile storage device is provided. The method includes the following steps. Storage space of every channel is divided into a plurality of storage units of equal size. At least one logical strip is set by which the storage units with discrete physical addresses across the channels are organized into a continuous logical space, and a logical strip variable is set for determining the storage units organized by the logical strip. Historical operation information of the storage device is obtained statistically, and the logical strip variable is dynamically adjusted according to the obtained operation information. During data interaction, the data is divided according to the logical strip variable, the divided data is mapped to the storage units of every channel, and parallel reading and writing operations are performed among the channels. | 04-22-2010 |
20100226194 | POWER-FAILURE PROTECTION CIRCUIT FOR NON-VOLATILE SEMICONDUCTOR STORAGE DEVICES AND METHOD FOR PREVENTING UNEXPECTED POWER-FAILURE USING THE SAME - A power failure protection circuit ( | 09-09-2010 |
20120137104 | ALLOCATION METHOD AND APPARATUS OF MODERATE MEMORY - An allocation method comprises: partitioning moderate memory into a plurality of physical memory pages having predetermined page size according to the predetermined page size; scanning the moderate memory using the predetermined page size and recording the physical address and damage degree of each physical memory page; obtaining the allocation information of the physical memory pages when a memory request is received and allocating physical memory to the request based on the recorded physical address and damage degree of each physical memory page and the obtained allocation information. A moderate memory is scanned and the physical address and damage degree of each physical memory page are recorded, then the physical memory is allocated based on the recorded physical address and damage degree of each physical memory page and the obtained allocation information. | 05-31-2012 |
20140269617 | METHOD FOR MODIFYING MULTIPLE INPUT MULTIPLE OUTPUT MODE ACROSS RADIO NETWORK CONTROLLERS - A method for modifying Multiple Input Multiple Output (MIMO) mode across Radio Network Controllers (RNCs) is provided by the present disclosure. In the method of the present disclosure, a Serving RNC (SRNC) transmits a request message to a Drift RNC (DRNC), wherein the request message requests the DRNC to set a radio link for a mobile equipment in a cell controlled by the DRNC, and the DRNC feeds back a response message to the SRNC based on the capability of the DRNC and the cell controlled by the DRNC, wherein the response message contains the element used for configuring the radio link in the non-MIMO mode. As a result, when the DRNC and the cell controlled by the DRNC support the MIMO mode, the SRNC configures the radio link to be in the MIMO mode for the mobile equipment, and when the DRNC and the cell controlled by the DRNC do not support the MIMO mode, the SRNC configures the radio link to be in the non-MIMO mode for the mobile equipment. Therefore, a mobile equipment handover or a radio link reconfiguration is completed, and the success rate of the handover or the configuration is improved. | 09-18-2014 |
20150092579 | Drive Test Minimization Method and Device for Obtaining Time Delay - A method, device and system for controlling assistant information of user equipment are disclosed. The field of wireless communication technology is related, and the problem is solved that the system efficiency is reduced, for UE reports the assistant information inappropriately. The method includes: the user equipment acquiring a control parameter of assistant information configured by a network side; and the user equipment reporting the assistant information of the user equipment to the network side according to the control parameter of assistant information. The technical scheme provided in the example of the present document is applied to a LTE system or a UMTS system, which implements that the network side controls the UE reporting the assistant information. | 04-02-2015 |
20150200563 | TRANSMITTING DEVICE, WIRELESS CHARGING SYSTEM COMPRISING TRANSMITTING DEVICE, AND METHOD FOR CONTROLLING CHARGING PROCESS THEREOF - A transmitting device, a wireless charging system comprising the transmitting device and a method for controlling a charging process of the wireless charging system are provided. The transmitting device comprises: a transmitting coil configured to transmit an electric energy of the transmitting device; an oscillation and FM module configured to generate an LC resonance between the transmitting coil and the oscillation and FM module and to adjust a capacitance of the LC resonance so as to change a resonant frequency of the LC resonance; a first detecting module configured to detect a voltage and a current of the transmitting device; a control module configured to output a control signal to control the resonant frequency of the LC resonance according to a predetermined FM mode; a first communicating module configured to communicate with the receiving device wirelessly; and a power module configured to supply a drive power to the transmitting device. | 07-16-2015 |
20150249921 | Authentication Method and System for Wireless Mesh Network - The disclosure discloses an authentication method and system for a wireless mesh network. The method comprises: when a new node accesses a network and the node is a Mesh Point (MP), the MP selects one authenticated node from neighbor nodes as a father node, and a uniquely identified secure path exists between the father node and an AC; the MP uses the father node as an authentication point to perform authentication; and after being transmitted to the AC through the secure path between the father node and the AC, which then forwards an authentication message to an AS; similarly, a return message of the AS is forwarded by the AC to the father node through the secure path, and the MP is authenticated. The authentication message is saved on the AC at the same time, so as to facilitate the second authentication of the MP. | 09-03-2015 |
20150249933 | Method and Apparatus for Processing Measurement between Network Systems - A method and an apparatus for processing measurement between network systems are provided. The method comprises: a UE receives measurement information configured by a first mode network, wherein the measurement information is information used by the UE to perform measurement on the first mode network in a second mode network; and after the UE is switched or reselected to the second mode network, the UE performs measurement on the first mode network according to the measurement information. It is solved the problem that in the related art poor user experience is caused because measurement cannot be performed on another network in one network and normal user service cannot be performed, while through the disclosure, so that measurement can be performed on another network in one network, thereby accelerating the measurement speed, shortening the cell reselection delay, and improving the effect of user experience. | 09-03-2015 |
20150312005 | Methods and devices for reporting and issuing frequency band extension capability - Methods and devices for reporting and issuing a band extension capability are provided. A terminal side receives terminal capability query information from a network side, determines band interval lists to which each band supported by the terminal side belongs, and reports the supported bands through cells corresponding to the band interval lists to which each band belongs; and the network side determines band interval lists to which each band supported by the network side belongs when issuing a band capability supported by the network side, and issues the supported bands through cells corresponding to the band interval lists to which each band belongs. By the solutions of the disclosure, the bands belonging to different band interval lists can be reported and issued through different cells, and the problem of limitations to the number of the bands during the reporting and issuing of the bands is solved. | 10-29-2015 |
20160072321 | Wireless Charging Device and Method Using the Same - A wireless charging device ( | 03-10-2016 |
Patent application number | Description | Published |
20120107882 | Recombinant Microorganism And Method For Producing L-Lysine - The present invention provides methods of producing L-lysine at a high yield using an | 05-03-2012 |
20150095713 | Diagnosis For A Server Motherboard - A server motherboard diagnosis method, system, and related circuit system. A management module of the server motherboard and peripheral devices managed by the management module are capable of being powered by a server power source and a USB port. In response to the management module and the peripheral devices being powered by the USB port, a power supply line of the server power source is isolated, as by: identifying the peripheral devices, in response to the management module and the peripheral devices being powered by the USB port; for each of the identified peripheral devices, initializing the peripheral device, and then shutting down the power supply of the peripheral device; establishing a communication between the management module and a diagnosis host through the USB port; and executing a command in response to the command being received from the diagnosis host. | 04-02-2015 |
20150095714 | Diagnosis For A Server Motherboard - A server motherboard diagnosis method, system, and related circuit system. A management module of the server motherboard and peripheral devices managed by the management module are capable of being powered by a server power source and a USB port. In response to the management module and the peripheral devices being powered by the USB port, a power supply line of the server power source is isolated, as by: identifying the peripheral devices, in response to the management module and the peripheral devices being powered by the USB port; for each of the identified peripheral devices, initializing the peripheral device, and then shutting down the power supply of the peripheral device; establishing a communication between the management module and a diagnosis host through the USB port; and executing a command in response to the command being received from the diagnosis host. | 04-02-2015 |