Systems and methods are disclosed for cross-system storage management for transferring data across autonomous information management systems. Data may be transferred from one information management system to another information management system without interfering with or overriding each system's autonomy. For example, a secondary copy of production data (e.g., backed up data) is transferred from a first information management system that originated the data to a component of another “foreign” information management system. A first storage manager that manages the first information management system also manages the cross-system data transfer operation to a “foreign” client computing device, which remains under autonomous management as a component of the foreign information management system.

A wireless communication device, comprising radio frequency transceivers which transmit outbound messages to targeted receivers, and receive the inbound messages addressed to the respective transceiver; each having a processor which controls the transceiver to establish communication sessions according to a protocol, and processes targeting and address information. The transceiver communicates with a telephone device having a telephone address book containing information which defines the targets and address for a telephone network and perhaps other networks. The address book entries are human editable through a human machine user interface. The address book entries are intended for centrally controlled switch networks having hierarchically formatted address information, but since these are at least quasi-unique, they are used as address labels in an unswitched peer-to-peer network formed of the transceivers. This permits a common address scheme across the peer-to-peer network and switched network of the telephone device.

A system and method for local survivability in a distributed contact center environment has a first processor in a first contact center node receiving a first request for interaction. The first processor transmits a first message to a second contact center node in response to the request for interaction. The first message is configured to invoke a first resource associated with the second contact center node for handling the interaction via the first resource. The first processor monitors connection with the second contact center node. The first processor receives a second request for interaction, and further determines lack of connection with the second contact center node. In response to determining lack of connection with the second contact center node, the first processor refrains from transmitting a second message to the second contact center node. According to one embodiment, the second message is for invoking a second resource associated with the second contact center node for handling the interaction via the second resource.

To distribute messages to subscribers that are located in multiple regions, a data center will receive messages that to be published to the subscribers. The data center will then perform a limited replication process to other data centers in other regions by accessing an interest map indicating additional data centers at which subscribers have recently expressed interest. The data center will transmit the messages to only that group of additional data centers for replication but not to other data centers at which no interest has been recently expressed.

Implementations of a system and method of generating and using bilaterally generated variable instant passwords are disclosed. The system is used to secure electronic transactions (e.g., an auction in which one or more bidders are unknown to the auctioneer). In this system an Internet Service Provider (ISP), on request from a USER (e.g., a bidder), facilitates an authentication process with a SERVICE PROVIDER (e.g., an auctioneer). The SERVICE PROVIDER may send a sub-folder, containing a USER name, a temporary sub variable character set, and a CALL, to the USER through the ISP. The password used to access the sub-folder is transmitted directly to the USER by the SERVICE PROVIDER. The USER gets authenticated to the SERVICE PROVIDER by using the USER name, the temporary sub variable character set, and the CALL retrieved from the sub-folder. After USER's authentication, further transactions (e.g., bids) are performed using a password for each transaction.

A distributed storage system includes multiple resource nodes each having associated storage media. The resource nodes are configured to operate a first protocol between the resource nodes that exchanges availability and performance information for storage elements in the associated storage media. The resource nodes also operate a second protocol that dynamically distributes and redistributes data between the different resource nodes based on the availability and performance information for the storage elements. Relative distances may be identified between the different resource nodes and the second protocol may weight the availability and performance information based on the relative distances. The second protocol also may identify types of unshared use, shared use, and concurrent use for different portions of the data and distribute the portions of the data to other resource nodes based on the identified types of use.

Techniques for provisioning a smart navigation service are presented. The provisioning can be performed by a name owner, by the smart navigation service itself, or by a third-party keyword service. The provisioned information can include an entity name, a keyword, and possibly other data correlated to at least one network locator. The navigation service electronically stores in navigation service persistent memory a rule correlating the entity name, the keyword, and, if used, the other data, to the at least one network locator, such that when the navigation service receives, from a client computer communicatively coupled to the navigation service, command data that includes the entity name, the keyword, and possibly other data, the navigation service responds to the client computer with the at least one network locator.

A method comprising: establishing a wireless connection between a first medical device and a second medical device, comprising: receiving, by the first medical device, via a short-range wireless technology protocol, connection information related to the second medical device; and establishing, by the first medical device, a wireless connection with the second medical device based on the connection information.

A web view processor performs processing by utilizing a web browser function, and a native view processor performs processing without utilizing a web browser function. A request for information is sent from the web view processor, via a proxy processor, to a server that is connected to an information communication network. Information is acquired at the proxy processor from the server in response to the request, the information is stored in a memory, the information is converted at the proxy processor into a format that can be processed by the native view processor, and the information whose format was converted is transmitted from the proxy processor to the native view processor.

A first node group including at least three nodes is predefined in a distributed storage system. Each node of the first node group is configured to send data blocks stored in storage devices managed by the node to other nodes belonging to the first node group. A first node is configured to receive data blocks from two or more other nodes in the first node group. The first node is configured to create a redundant code using a combination of data blocks received from the two or more other nodes and store the created redundant code to a storage device different from storage devices holding the data blocks used to create the redundant code. Combinations of data blocks used to create at least two redundant codes in redundant codes created by the first node are different in combination of logical addresses of constituent data blocks.