| Patent application number | Description | Published |
|---|
| 20080200181 | Self-Configuring Wireless Network Location System - Wireless adapters are installed on one or more general purpose computing devices and are connected via a network in an enterprise environment. The adapters are densely deployed at known locations throughout the environment and are configured as air monitors. The air monitors monitor signals transmitted by one or more transceiver devices and records information about these signals. One or more analysis or inference engines may be deployed to obtain the recorded signal information and the air monitor locations to determine a location of the one or more wireless transceivers devices deployed in the environment. | 08-21-2008 |
| 20080201109 | Wireless Performance Analysis System - Wireless adapters are installed on one or more general purpose computing devices and are connected via a wireless network in an enterprise environment. The adapters are densely deployed at known locations throughout the environment and are configured as air monitors. The air monitors monitor wireless signals transmitted between transceiver devices and access points and records information about these signals. One or more analysis or inference engines may be deployed to analyze the signals received from the air monitors to obtain optimum performance and connectivity information about the wireless network. | 08-21-2008 |
| 20080247344 | Signaling Over Cellular Networks to Reduce the Wi-Fi Energy Consumption of Mobile Devices - Techniques for increasing the battery life on a mobile device by decreasing the energy consumption of the mobile device's wireless fidelity (Wi-Fi) interface are described. In one embodiment, the mobile device's Wi-Fi interface is automatically disabled when the device is not engaged in a voice over internet protocol (VoIP) call via the Wi-Fi interface. When a VoIP call is initiated on the device, or when the device receives a wake up call from a server via its Cellular interface, the Wi-Fi interface is automatically enabled. Using its Wi-Fi interface, the mobile device then connects to an IP-based network via a Wi-Fi access point. The server then initiates a direct call, wherein VoIP technology is used by the mobile device, between the mobile device and a VoIP calling device. | 10-09-2008 |
| 20080248749 | SIGNALING OVER CELLULAR NETWORKS TO REDUCE THE WI-FI ENERGY CONSUMPTION OF MOBILE DEVICES - Techniques for increasing the battery life on a mobile device by decreasing the energy consumption of the mobile device's wireless fidelity (Wi-Fi) interface are described. In one embodiment, the mobile device's Wi-Fi interface is automatically disabled when the device is not engaged. When the device receives a wake up call from a server via its Cellular interface, the Wi-Fi interface is enabled if the device answers the wake up call and the Wi-Fi interface is available. Using its Wi-Fi interface, the mobile device then connects to an IP-based network via a Wi-Fi access point. | 10-09-2008 |
| 20080316982 | Managing Dense Wireless Access Point Infrastructures in Wireless Local Area Networks - Techniques for enhancing the throughput capacity available to client devices connected to a wireless local area network (WLAN) are described. Specifically, existing WLAN resources are converted into wireless access points (APs) to create a dense infrastructure of wireless APs. To leverage this dense AP infrastructure, central management techniques are employed. With client-to-AP mapping, these techniques are used to prevent the discovery of multiple APs in a WLAN by a client device and to select a single AP (using certain policies) to associate with the client device and provide it with an enhanced wireless connection to the WLAN. Additionally, techniques are employed to centrally determine, using central policies, when the AP should disassociate from the client device and when another centrally selected AP should respond to, and associate with, the client device to provide it with an enhanced wireless connection to the WLAN—without interrupting/disrupting the client device's access. | 12-25-2008 |
| 20080320108 | Management Policies For Dense Wireless Access Point Infrastructures in Wireless Local Area Networks - Techniques for enhancing the throughput capacity available to client devices connected to a wireless local area network (WLAN) are described. Specifically, existing WLAN resources are converted into wireless access points (APs) to create a dense infrastructure of wireless APs. To leverage this dense AP infrastructure, central management techniques are employed. With client-to-AP mapping, these techniques are used to prevent the discovery of multiple APs in a WLAN by a client device and to select a single AP (using certain policies) to associate with the client device and provide it with an enhanced wireless connection to the WLAN. Additionally, techniques are employed to centrally determine, using certain policies, when the AP should disassociate from the client device and when another centrally selected AP should respond to, and associate with, the client device to provide it with an enhanced wireless connection to the WLAN—without interrupting/disrupting the client device's access. | 12-25-2008 |
| 20090083407 | CRISSCROSS CANCELLATION PROTOCOL - Technologies, systems, and methods for ordered message delivery that avoid message races or crisscrosses between communicating nodes. For example, if Node A sends message 3 towards Node B and, shortly thereafter, Node B sends message X to Node A, Node A would like to know whether or not message X reflects Node B's state after receiving message 3. If Node B received message 3 prior to sending message X, then proper state may be maintained between the nodes. But if messages 3 and X crisscrossed, or if message 3 was never properly received by Node B, then the state between the nodes may be corrupt. Technologies, systems, and methods are provided to avoid such corruption. | 03-26-2009 |
| 20090088089 | CONTROL CHANNEL NEGOTIATED INTERMITTENT WIRELESS COMMUNICATION - A dual mode communication device utilizes a control channel to exploit diversity, history, and context in advance of establishing a broadband data exchange session on a broadband but shorter range wireless data channel, maximizing productive use of such a session. Appropriate diversity for the negotiated session further enhance data transfer, including path diversity, radio technology diversity (e.g., WiMax, Wi-Fi, ultra wideband, Bluetooth), antenna diversity (e.g., MIMO), modulation diversity (e.g., rate selection for 802.11, or symbol length selection to combat multi-path fading), and frequency diversity (e.g., 2.4 GHz versus 5 GHz). Historical information about channel characteristics optimize the selection of channel parameters with respect to the diversity choices. In addition, context information such as location and speed can be used to categorize the historical information that is collected to further optimize channel parameters. | 04-02-2009 |
| 20090100436 | PARTITIONING SYSTEM INCLUDING A GENERIC PARTITIONING MANAGER FOR PARTITIONING RESOURCES - The application discloses a generic partitioning manager for partitioning resources across one or more owner nodes. In illustrated embodiments described, the partitioning manager interfaces with the one or more owner nodes through an owner library. A lookup node or application interfaces with the partitioning manager through the lookup library to lookup address or locations of the partitioned resources. In illustrated embodiments, resources are partitioned via the partitioning manager in response to lease request messages from an owner library. In illustrated embodiments, the lease grant message includes a complete list of the leases for the owner node. | 04-16-2009 |
| 20090100441 | RESOURCE ASSIGNMENT SYSTEM WITH RECOVERY NOTIFICATION - The application discloses a resource assignment system including recovery notification procedures or methods to notify an application or node of potentially lost resources. The recovery notification procedures or calls are invoked in response to a recovery notification registration function. In response to recovery notification registration, a recovery notification or call is generated to report lost resources. | 04-16-2009 |
| 20090144404 | LOAD MANAGEMENT IN A DISTRIBUTED SYSTEM - A technique for load management in a distributed system that includes multiple physical nodes is disclosed. The load management technique includes mutably assigning a number of virtual nodes to each physical node of the multiple physical nodes. A total number of virtual nodes assigned to the multiple physical nodes is maintained substantially unaltered in spite of any alterations made in the number of virtual nodes assigned to each physical node of the multiple physical nodes. | 06-04-2009 |
| 20090150536 | Application layer congestion control - A method of managing congestion within a request-response system is disclosed. The method includes determining a response time that is directly or indirectly indicative of how long it takes a back end system to process a request received from a front end system and return a corresponding response. The response time is compared to a threshold criterion. A determination is made, based at least in part on the comparison, that the back end system is becoming congested with requests from the front end system. The front end system is adjusted so as to at least temporarily reduce the number of requests provided to the back end system by the front end system. | 06-11-2009 |
| 20090222581 | INTERNET LOCATION COORDINATE ENHANCED DOMAIN NAME SYSTEM - An exemplary architecture is for an Internet Location Coordinate enhanced Domain Name System (DNS). An exemplary method includes requesting information for a plurality of servers associated with a network domain name of a Domain Name System (DNS) where the information includes information based in part on packets transmitted by each of the plurality of servers to a plurality of network beacons; receiving the requested information from a name server associated with the Domain Name System (DNS); and, based in part on the received information, selecting an optimal server for the network domain name. Other methods, devices and systems are also disclosed. | 09-03-2009 |
| 20090222582 | FAILOVER IN AN INTERNET LOCATION COORDINATE ENHANCED DOMAIN NAME SYSTEM - An exemplary failover module includes (a) instructions to respond to a connection problem to a host server at an IP address by selecting a different IP address from a cached list of IP addresses for a domain name associated with the host server and (b) instructions to return the selected, different IP address to future name queries where the instructions to respond, the instructions to initiate, and the instructions to return execute at an operating system level of a computing device configurable to connect to at least one of a plurality of host servers. Such a module may include instructions to optionally initiate a connection to a host server at the selected, different IP address. An exemplary failover module may optionally select an IP address based in part on Internet Location Coordinates (ILCs) where the host servers reside in an ILC enhanced Domain Name System (DNS). Other methods, devices and systems are also disclosed. | 09-03-2009 |
| 20090222583 | CLIENT-SIDE LOAD BALANCING - An exemplary method for load balancing includes accessing a range of values for IP addresses associated with a virtual IP address associated with a domain name; selecting, using a local statistical algorithm, a value in the range; and, based at least in part on the selected value, connecting to a remote resource at one of the IP addresses. In such a method, a client can perform local load balancing when connecting to one of many fungible resources “behind” a virtual IP address. With many such clients, the task of load balancing is distributed as opposed to being centralized at a server farm or cluster. Other methods, devices and systems are also disclosed. | 09-03-2009 |
| 20090222584 | Client-Side Management of Domain Name Information - An exemplary method includes booting a computing device, in response to the booting, accessing a file that includes domain names and resolving at least one of the domain names by issuing a request to a server where the resolving occurs as a background process. An exemplary method includes receiving a notice to invalidate client DNS resolver cache information for a domain name, accessing a list of client subscribers to an invalidation service for the domain name and issuing an instruction to the client subscribers to invalidate their respective client DNS resolver cache information for the domain name. An exemplary method includes receiving a request to resolve a domain name, resolving the domain name and transmitting information for the resolved domain name and additional information for at least one other domain name. Other methods, devices and systems are also disclosed. | 09-03-2009 |
| 20090240987 | TEST AMPLIFICATION FOR DATACENTER APPLICATIONS VIA MODEL CHECKING - Systems and methods are provided to determine execution errors in distributed computing environments. In an illustrative implementation, a computing environment comprises a test amplification engine and at least one instruction set to instruct the test amplification engine to process data representative of a request to perform a test for one or more execution errors in an distributed computing environment according to a selected execution error testing paradigm dependent on identifying critical sources of non-determinism for execution within the exemplary distributed computing environment. In an illustrative operation, a participating distributed computing environment operator (e.g., programmer) can cooperate with the test amplification engine to select an existing unit or integration test, instrument sources of non-determinism and to select one or more instrumentations for the unit or integration test for execution in the exemplary distributed computing environment to elicit the occurrence of one or more execution errors. | 09-24-2009 |
| 20100076933 | TECHNIQUES FOR RESOURCE LOCATION AND MIGRATION ACROSS DATA CENTERS - An exemplary system includes a front-end component to receive requests for resources in a data center and configured to associate each request with identifying information, to locate one or more resources for each request and to store, in a log file, the identifying information and information about the location of the one or more resources; one or more distributed computation and storage components to acquire log file information and configured to analyze log information to decide if one or more resources associated with one or more requests should be migrated to a data center in a different geographical location; and a location service component to receive decisions made by the one or more distributed computation and storage components and configured to inform the front-end component when a decision causes one or more resources to be migrated to a data center in a different geographical location to thereby allow the front-end component to re-direct future requests for the one or more migrated resources to the data center in the different geographical location. Various other devices, systems and methods are also described. | 03-25-2010 |
| 20100105409 | PEER AND COMPOSITE LOCALIZATION FOR MOBILE APPLICATIONS - A system and method for peer based localization system using radio technology, such as Bluetooth or Wi-Fi ad-hoc technology that enables mobile devices such as cell phones, smart phones, laptops, handheld communication devices, handheld computing devices, satellite radios, global positioning systems, PDAs, etc. to discover their physical location relative to one another. In addition, the peer based localization can use a plurality of radio technologies to increase the accuracy of the physical location estimates. Additionally or alternatively, the peer based localization technique can be combined with infrastructure based location techniques, such as triangulation, GPS, or infrastructure based Wi-Fi localization in order to transpose virtual coordinates into physical coordinates. | 04-29-2010 |
| 20100179753 | Estimating Time Of Arrival - Described herein is a system that includes a location determiner component that receives a first geographic location of a personal computing device of a first individual, wherein the first geographic location is indicative of a current geographic location of the first individual. The system also includes an estimator component that receives a second geographic location that is different from the first geographic location. The estimator component determines an estimated time of arrival for the first individual at the second geographic location based at least in part upon the received first geographic location, wherein the estimator component outputs the estimated time of arrival to a second individual. | 07-15-2010 |
| 20100191712 | COMMIT RATE MANAGEMENT WITH DECOUPLED COMMIT OPERATIONS - Consistency is managed among data operations by coalescing commit operations, adjusting a commit rate to optimize latency, and converging to fairness across servers. Write operations representing a change to data stored by one or more of a plurality of computing devices are received in succession by, for example, a cloud computing service. A state of a plurality of tracking objects is adjusted to indicate whether the change in data has been provided to the computing devices and whether the change in data has been acknowledged by the computing devices. Changes to the same data are coalesced such that only the most recent change is provided to the computing devices for storage. In some embodiments, the commit rate is adjustable such that the commit rate decreases quickly but increases slowly based on measured latencies. | 07-29-2010 |
| 20100250646 | MECHANISM FOR GEO DISTRIBUTING APPLICATION DATA - The claimed subject matter provides systems and methods that effectuates inter-datacenter resource interchange. The system can include devices that receive a resource request from a client component, forward the resource request to a management component that returns a cluster identity associated with a remote datacenter, the resource request and the cluster identity combined and dispatched to the remote datacenter via an inter-cluster gateway component for subsequent fulfillment by a remote server associated the remote datacenter. | 09-30-2010 |
| 20100287299 | CRISSCROSS CANCELLATION PROTOCOL - Technologies, systems, and methods for ordered message delivery that avoid message races or crisscrosses between communicating nodes. For example, if Node A sends message | 11-11-2010 |
| 20100287300 | CRISSCROSS CANCELLATION PROTOCOL - Technologies, systems, and methods for ordered message delivery that avoid message races or crisscrosses between communicating nodes. For example, if Node A sends message 3 towards Node B and, shortly thereafter, Node B sends message X to Node A, Node A would like to know whether or not message X reflects Node B's state after receiving message 3. If Node B received message 3 prior to sending message X, then proper state may be maintained between the nodes. But if messages 3 and X crisscrossed, or if message 3 was never properly received by Node B, then the state between the nodes may be corrupt. Technologies, systems, and methods are provided to avoid such corruption. | 11-11-2010 |
| 20110109508 | LOCATION PROOFS - A wireless computing device includes an antenna that is configured to transmit and receive wireless signals. The wireless computing device comprises a transmitter component that causes a first wireless signal to be transmitted to a wireless access point via the antenna, wherein the first wireless signal comprises a request for a location proof, wherein the request for the location proof comprises data that identifies the wireless computing device, and wherein the location proof comprises data that is indicative of a geographic location of the wireless access point. The system also includes a receiver component that receives, via the antenna, a second wireless signal from the wireless access point, wherein the second wireless signal is received by the receiver component subsequent to the transmitter component causing the first wireless signal to be transmitted to the wireless access point. | 05-12-2011 |
