Patent application number | Description | Published |
20120196571 | SYSTEM AND METHOD FOR REMOTELY-INITIATED AUDIO COMMUNICATION - Mobile devices typically have some form of audio capabilities designed to be operated by the device's user, for example to place phone calls; however, if a device is misplaced or stolen, the user may wish to operate those audio capabilities remotely. Techniques are provided for determining when an audio transmission should be established between a device and one or more clients, and sending a command to initiate the audio transmission. The determination may be based on receiving a request from a client, detecting at a server that the device is lost or stolen, or detecting at the device that the device is missing. The audio transmission may be established without user intervention at the device or in response to user action at the portable electronic device. Device settings such as audio settings at the device may be overridden in connection with the audio transmission. | 08-02-2012 |
20120324094 | MOBILE DEVICE DNS OPTIMIZATION - When a mobile device interacts with a network service, synchronous DNS resolution can significantly impact user experience due to lossy or moderate-high latency conditions. Network services that rely on low-TTL DNS records for failover require a client to frequently resolve the service's host name. It is undesirable to block on these frequent resolutions. In an implementation, user activity on a mobile device is monitored to determine whether the user is engaged in an activity that would contact a server. If such an activity is in progress, then DNS requests to resolve the server's host name are periodically generated to make sure the server's IP address is cached. In an implementation, if a request to communicate with a server fails, the DNS cache expires the entry for that server so that a new DNS request can resolve the server's IP address in case the server's IP address has changed. | 12-20-2012 |
20140195604 | CLIENT ACTIVITY DNS OPTIMIZATION - Client and user activity in an application or a browser are monitored to determine whether potential actions will result in a server being contacted. A DNS request to resolve the server's host name is generated to ensure the server's IP address is cached and available. | 07-10-2014 |
20140338006 | METHOD FOR DETECTING A SECURITY EVENT ON A PORTABLE ELECTRONIC DEVICE AND ESTABLISHING AUDIO TRANSMISSION WITH A CLIENT COMPUTER - Mobile devices typically have some form of audio capabilities designed to be operated by the device's user, for example to place phone calls; however, if a device is misplaced or stolen, the user may wish to operate those audio capabilities remotely. Methods are provided for detecting that a security event has occurred on a portable electronic device and then establishing an audio transmission between the device and one or more clients, and in some embodiments, sending a command to initiate the audio transmission. The detection of a security event may be based on, for example, detecting that the device has been turned on, detecting movement of the device, detecting that an incorrect password has been entered, the device camera has been used, contacts have been added or deleted, the SIM card as been removed or replaced, application programs have been installed or uninstalled from the device, or uncharacteristic behavior has been detected. | 11-13-2014 |
20160066189 | METHODS AND SYSTEMS FOR ADDRESSING MOBILE COMMUNICATIONS DEVICES THAT ARE LOST OR STOLEN BUT NOT YET REPORTED AS SUCH - A method is provided for evaluating the usage of a mobile communications device that itself provides access to a resource. In the method, a detected usage of the mobile communications device is compared to a stored usage pattern of an authorized user. When a measure associated with the difference between the detected usage and the stored usage pattern exceeds a threshold, it is concluded that the mobile communications device is being used by an unauthorized user. In response to this conclusion, a restriction is placed on an ability of the mobile communications device to access the resource. | 03-03-2016 |
Patent application number | Description | Published |
20100002482 | MEMORY DEVICE AND METHOD - A content addressable memory includes a first plurality of search lines, a second plurality of search lines, a first match line, and a storage location. Each search line of the first plurality of search lines receives a corresponding high voltage level or low voltage level during a match detect operation, and each search line of the second plurality of search lines to receive a corresponding high voltage level or low voltage level during the match detect operation. The storage location of the content addressable memory includes a plurality of CAM cells, each CAM cell a first thyristor and second thyristor. | 01-07-2010 |
20100002502 | MEMORY DEVICE AND METHOD OF REFRESHING - A content addressable memory includes a first plurality of search lines, a second plurality of search lines, a first match line, and a storage location. Each search line of the first plurality of search lines receives a corresponding high voltage level or low voltage level during a match detect operation, and each search line of the second plurality of search lines to receive a corresponding high voltage level or low voltage level during the match detect operation. The storage location of the content addressable memory includes a plurality of CAM cells, each CAM cell a first thyristor and second thyristor. | 01-07-2010 |
20100102867 | SENSE AMPLIFIER BASED FLIP-FLOP - A sense amplifier based flip-flop having built-in logic functions. The flip-flop includes a first and second input circuits configured to cause complementary first and second logic values to be provided on first and second logic nodes, respectively. The flip-flop further includes a sense circuit configured to sense and capture the first and second logic values on first and second capture nodes, respectively, during an evaluation phase, and a precharge circuit configured to precharge the first and second logic node and the first and second capture nodes during a precharge phase. The flip-flop also includes a noise immunity circuit, configured to, during the evaluation phase, become active subsequent to the sense circuit capturing the first and second logic values, wherein, when activated, the noise immunity circuit prevents floating voltages on the first and second logic nodes. | 04-29-2010 |
20100144106 | DYNAMIC RANDOM ACCESS MEMORY (DRAM) CELLS AND METHODS FOR FABRICATING THE SAME - A method for fabricating a memory cell is provided. A trench is formed in a semiconductor structure that comprises a semiconductor layer, and a trench capacitor is formed in the trench. Conductivity determining impurities are implanted into the semiconductor structure to create a well region in the semiconductor layer that is directly coupled to the trench capacitor. A gate structure is formed overlying a portion of the well region. Conductivity determining ions are then implanted into other portions of the well region to form a source region and a drain region, and to define an active body region between the source region and the drain region. The active body region directly contacts the trench capacitor. | 06-10-2010 |
20100146330 | MEMORY DEVICE AND METHOD THEREOF - An error correction module is disclosed whereby two bit cells are used to store a bit of information in a redundant manner so that a redundant error correction module can correct a sporadic data error at one of the two bits. | 06-10-2010 |
20110204429 | DYNAMIC RANDOM ACCESS MEMORY (DRAM) CELLS AND METHODS FOR FABRICATING THE SAME - A semiconductor memory cell is provided that includes a trench capacitor and an access transistor. The access transistor comprises a source region, a drain region, a gate structure overlying the trench capacitor, and an active body region that couples the drain region to the source region. The active body region directly contacts the trench capacitor. | 08-25-2011 |
Patent application number | Description | Published |
20090174365 | NETWORK-CONTROLLED CHARGING SYSTEM FOR ELECTRIC VEHICLES - A system for network-controlled charging of electric vehicles comprises charge transfer devices networked as follows: charge transfer devices and electric vehicle operators communicate via wireless communication links; charge transfer devices are connected by a local area network to a data control unit, which is connected to a server via a wide area network. The server stores consumer profiles and utility company power grid load data. A charge transfer devices comprises: an electrical receptacle for receiving an electrical connector for recharging an electric vehicle; an electric power line connecting the receptacle to a local power grid; a control device on the electric power line, for switching the receptacle on and off; a current measuring device on the electric power line, for measuring current flowing through the receptacle; a controller for operating the control device and monitoring the output from the current measuring device; a local area network transceiver connected to the controller, for connecting the controller to the data control unit; and a communication device connected to the controller, for wireless communication between the operator of the electric vehicle and the controller. | 07-09-2009 |
20090177580 | COLLECTION OF ELECTRIC VEHICLE POWER CONSUMPTION TAX - A method of collecting electric vehicle power consumption tax for charge transferred between a local power source and an electric vehicle comprises: providing a network-controlled charge transfer device, charge transfer being controlled by a controller, the controller being connected to a network for communication to a server; requesting by an operator of the electric vehicle to the controller for charge transfer; relaying the request from the controller to the server; determining by the server, from geographical tax rate data and the geographical location of the network-controlled charge transfer device, an applicable tax rate on the charge transfer; enabling charge transfer by communicating from the server to the controller to activate the control device; monitoring the charge transfer using a current measuring device, the controller being configured to monitor the output from the current measuring device and to maintain a running total of charge transferred; detecting completion of the charge transfer; and on detecting completion, processing payment with said payment source, which may include deducting the cost of charge transfer from a subscriber account containing pre-transferred funds, and disabling charge transfer; wherein the request for payment includes the electric vehicle power consumption tax. | 07-09-2009 |
20100013436 | Street Light Mounted Network-Controlled Charge Transfer Device for Electric Vehicles - A network-controlled charge transfer device for transferring charge between a local power grid and an electric vehicle is mounted to a street light. The charge transfer device includes the following: an electrical receptacle to receive an electrical connector for connection to the electric vehicle; an electric power line that couples the power grid to the electrical receptacle through a wiring box; a control device to switch the receptacle on and off; a current measuring device to measure current flowing through the electric power line; and a controller to operate the control device and to monitor output from the current measuring device. | 01-21-2010 |
20100211643 | Transmitting Notification Messages for an Electric Vehicle Charging Network - An electric vehicle charging station network server which manages a plurality of charging stations receives subscriber notification message preferences for a subscriber (e.g., electric vehicle operator) which indicate one or more events of interest that the subscriber wishes to receive notification messages for. A set of one or more contact points associated with the subscriber is also received. The server authorizes the subscriber to use one of the plurality of charging stations. The server receives data associated with the subscriber from that one of the charging stations which indicates that a charging session has been established for an electric vehicle associated with the subscriber. The server detects an event of interest for the subscriber and transmits a notification message for that event to at least one of the set of contact points associated with the subscriber. | 08-19-2010 |
20100301809 | OVERCURRENT AND GROUND FAULT PROTECTION IN A NETWORKED CHARGING STATION FOR ELECTRIC VEHICLES - A networked charging station for electric vehicles protects against overcurrent and ground fault conditions. Upon detecting an overcurrent condition or a ground fault condition, the networked charging station for electric vehicles de-energizes a charging point connection to prevent electric current from flowing between an electric vehicle and the networked charging station and suspends the charging session. The networked charging station clears the overcurrent condition or the ground fault condition upon receipt of an authorized request which is transmitted remotely. The authorized request can be received from the vehicle operator that is associated with the charging session or from an administrator of the charging station through a radio-frequency identifier (RFID) tag enabled device or through a text message or an email message. The networked charging station clears the overcurrent condition or the ground fault condition without a manual reset of a circuit breaker or a GFCI device respectively. | 12-02-2010 |
20100315197 | AUTHORIZATION IN A NETWORKED ELECTRIC VEHICLE CHARGING SYSTEM - Networked electric vehicle charging stations for charging electric vehicles are coupled with an electric vehicle charging station network server that performs authorization for charging session requests while the communication connection between the charging stations and the server are operating correctly. When the communication connection is not operating correctly, the networked electric vehicle charging stations enter into a local authorization mode to perform a local authorization process for incoming charging session requests. | 12-16-2010 |
20110095723 | OVERCURRENT AND GROUND FAULT PROTECTION IN A NETWORKED CHARGING STATION FOR ELECTRIC VEHICLES - A networked charging station for electric vehicles protects against overcurrent and ground fault conditions. Upon detecting an overcurrent condition or a ground fault condition, the networked charging station for electric vehicles de-energizes a charging point connection to prevent electric current from flowing between an electric vehicle and the networked charging station and suspends the charging session. The networked charging station clears the overcurrent condition or the ground fault condition upon receipt of an authorized request which is transmitted remotely. The authorized request can be received from the vehicle operator that is associated with the charging session or from an administrator of the charging station through a radio-frequency identifier (RFID) tag enabled device or through a text message or an email message. The networked charging station clears the overcurrent condition or the ground fault condition without a manual reset of a circuit breaker or a GFCI device respectively. | 04-28-2011 |
20110148356 | NETWORK-CONTROLLED CHARGING SYSTEM FOR ELECTRIC VEHICLES - A network-controlled charge transfer device for electric vehicles includes a control device to turn electric supply on and off to enable and disable charge transfer for electric vehicles, a transceiver to communicate requests for charge transfer with a remote server and receive communications from the remote server, and a controller, coupled with the control device and the transceiver, to cause the control device to turn the electric supply on based on communication from the remote server. | 06-23-2011 |
20110191265 | ELECTRIC VEHICLE CHARGING STATION HOST DEFINABLE PRICING - An electric vehicle charging station network includes multiple electric vehicle charging stations belonging to multiple charging station hosts. Each host controls one or more charging stations. A charging station network server provides an interface that allows each of the hosts to define one or more pricing specifications for charging electric vehicles on one or more of their electric vehicle charging stations belonging to that host. The pricing specifications are applied to the charging stations such that a cost of charging electric vehicles using those charging stations is calculated according to the pricing specifications. | 08-04-2011 |
20110316478 | Street Light Mounted Network-Controlled Charge Transfer Device for Electric Vehicles - A network-controlled charge transfer device for transferring charge between a local power grid and an electric vehicle is mounted to a street light. The charge transfer device includes the following: an electrical receptacle to receive an electrical connector for connection to the electric vehicle; an electric power line that couples the power grid to the electrical receptacle through a wiring box; a control device to switch the receptacle on and off; a current measuring device to measure current flowing through the electric power line; and a controller to operate the control device and to monitor output from the current measuring device. | 12-29-2011 |
20120169283 | NETWORK-CONTROLLED CHARGING SYSTEM FOR ELECTRIC VEHICLES - A network-controlled charge transfer device for electric vehicles includes a control device to turn electric supply on and off to enable and disable charge transfer for electric vehicles, a transceiver to communicate requests for charge transfer with a remote server and receive communications from the remote server, and a controller, coupled with the control device and the transceiver, to cause the control device to turn the electric supply on based on communication from the remote server. | 07-05-2012 |
20120181985 | NETWORK-CONTROLLED CHARGING SYSTEM FOR ELECTRIC VEHICLES - A network-controlled charge transfer device for electric vehicles includes a control device to turn electric supply on and off to enable and disable charge transfer for electric vehicles, a transceiver to communicate requests for charge transfer with a remote server and receive communications from the remote server, and a controller, coupled with the control device and the transceiver, to cause the control device to turn the electric supply on based on communication from the remote server. | 07-19-2012 |
20120181986 | NETWORK-CONTROLLED CHARGING SYSTEM FOR ELECTRIC VEHICLES - A server of a network-controlled charging system for electric vehicles receives a request for charge transfer for an electric vehicle at a network-controlled charge transfer device, determines whether to enable charge transfer, and responsive to determining to enable charge transfer, transmits a communication to the network-controlled charge transfer device that indicates to the network-controlled charge transfer device to enable charge transfer. | 07-19-2012 |
20130141044 | AUTHORIZATION IN A NETWORKED ELECTRIC VEHICLE CHARGING SYSTEM - Networked electric vehicle charging stations for charging electric vehicles are coupled with an electric vehicle charging station network server that performs authorization for charging session requests while the communication connection between the charging stations and the server are operating correctly. When the communication connection is not operating correctly, the networked electric vehicle charging stations enter into a local authorization mode to perform a local authorization process for incoming charging session requests. | 06-06-2013 |
20140152256 | NETWORK-CONTROLLED CHARGING SYSTEM FOR ELECTRIC VEHICLES - A network-controlled charge transfer device for electric vehicles includes a control device to turn electric supply on and off to enable and disable charge transfer for electric vehicles, a transceiver to communicate requests for charge transfer with a remote server and receive communications from the remote server, and a controller, coupled with the control device and the transceiver, to cause the control device to turn the electric supply on based on communication from the remote server. | 06-05-2014 |
20140152268 | NETWORK-CONTROLLED CHARGING SYSTEM FOR ELECTRIC VEHICLES - A server of a network-controlled charging system for electric vehicles receives a request for charge transfer for an electric vehicle at a network-controlled charge transfer device, determines whether to enable charge transfer, and responsive to determining to enable charge transfer, transmits a communication to the network-controlled charge transfer device that indicates to the network-controlled charge transfer device to enable charge transfer. | 06-05-2014 |
20150162764 | Street Light Mounted Network-Controlled Charge Transfer Device for Electric Vehicles - A network-controlled charge transfer device for transferring charge between a local power grid and an electric vehicle is mounted to a street light. The charge transfer device includes the following: an electrical receptacle to receive an electrical connector for connection to the electric vehicle; an electric power line that couples the power grid to the electrical receptacle through a wiring box; a control device to switch the receptacle on and off; a current measuring device to measure current flowing through the electric power line; and a controller to operate the control device and to monitor output from the current measuring device. | 06-11-2015 |
Patent application number | Description | Published |
20130094350 | Semi-Centralized Routing - Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for semi-centralized routing. In one aspect, a computer-implemented method receives a network protocol packet at a router adapted for routing data packets to one or more additional routers. The network protocol packet conforms to a routing protocol that provides distributed routing computation. The method also sends the network protocol packet, through a controller, to a selected one of a plurality of route control servers. The method also processes the network control packet at the selected route control server to generate a routing computation result that conforms to the routing protocol. The method also generates routing information based on the routing computation. The routing information conforms to a control protocol that provides centralized routing computation. The method also sends the routing information to the router for routing of data packets based on the control protocol. | 04-18-2013 |
20140355415 | SEMI-CENTRALIZED ROUTING - Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for semi-centralized routing. In one aspect, a computer-implemented method receives a network protocol packet at a router adapted for routing data packets to one or more additional routers. The network protocol packet conforms to a routing protocol that provides distributed routing computation. The method also sends the network protocol packet, through a controller, to a selected one of a plurality of route control servers. The method also processes the network control packet at the selected route control server to generate a routing computation result that conforms to the routing protocol. The method also generates routing information based on the routing computation. The routing information conforms to a control protocol that provides centralized routing computation. The method also sends the routing information to the router for routing of data packets based on the control protocol. | 12-04-2014 |
20150326476 | PREFIX-AWARE WEIGHTED COST MULTI-PATH GROUP REDUCTION - Methods and systems for generating a forwarding table for a packet switch. The system includes a route manager for the packet switch, configured to identify a plurality of multi-path groups each corresponding to a respective initial set of routing entries in the forwarding table and generate, for one or more multi-path groups, at least one replacement set of routing entries with fewer routing entries than the initial set corresponding to the respective multi-path group. The route manager selects, based on a traffic reduction cost metric, one or more of the replacement sets of routing entries, each corresponding to a different respective multi-path group, and updates the forwarding table with the selected replacement sets. In some implementations, the traffic reduction cost metric includes a traffic characteristic. In some implementations, the packet switch participates in a software-defined network (SDN) and the route manager is part of an SDN controller. | 11-12-2015 |
Patent application number | Description | Published |
20090240895 | SYSTEMS AND METHODS FOR COALESCING MEMORY ACCESSES OF PARALLEL THREADS - One embodiment of the present invention sets forth a technique for efficiently and flexibly performing coalesced memory accesses for a thread group. For each read application request that services a thread group, the core interface generates one pending request table (PRT) entry and one or more memory access requests. The core interface determines the number of memory access requests and the size of each memory access request based on the spread of the memory access addresses in the application request. Each memory access request specifies the particular threads that the memory access request services. The PRT entry tracks the number of pending memory access requests. As the memory interface completes each memory access request, the core interface uses information in the memory access request and the corresponding PRT entry to route the returned data. When all the memory access requests associated with a particular PRT entry are complete, the core interface satisfies the corresponding application request and frees the PRT entry. | 09-24-2009 |
20130185725 | SCHEDULING AND EXECUTION OF COMPUTE TASKS - One embodiment of the present invention sets forth a technique for selecting a first processor included in a plurality of processors to receive work related to a compute task. The technique involves analyzing state data of each processor in the plurality of processors to identify one or more processors that have already been assigned one compute task and are eligible to receive work related to the one compute task, receiving, from each of the one or more processors identified as eligible, an availability value that indicates the capacity of the processor to receive new work, selecting a first processor to receive work related to the one compute task based on the availability values received from the one or more processors, and issuing, to the first processor via a cooperative thread array (CTA), the work related to the one compute task. | 07-18-2013 |
20130185728 | SCHEDULING AND EXECUTION OF COMPUTE TASKS - One embodiment of the present invention sets forth a technique for assigning a compute task to a first processor included in a plurality of processors. The technique involves analyzing each compute task in a plurality of compute tasks to identify one or more compute tasks that are eligible for assignment to the first processor, where each compute task is listed in a first table and is associated with a priority value and an allocation order that indicates relative time at which the compute task was added to the first table. The technique further involves selecting a first task compute from the identified one or more compute tasks based on at least one of the priority value and the allocation order, and assigning the first compute task to the first processor for execution. | 07-18-2013 |