Embodiments for optimizing a backup operation for a data protection system, by connecting with network devices in a network implementing the backup operation, the backup operation implementing a policy that specifies a plurality of service requirements and that is initiated at a time within a plurality of time windows, and determining a size of dataset to be backed up by the backup operation. The method further monitors a flow of data between a source and a destination of data in the network, compiles historical data of operational parameters for data transfers between the source and destination, and determines an optimum time within the plurality of time windows based on the dataset size and the historical data.

The present disclosure generally relates to database modification, and in particular, database modification in the context of networked platforms accessible by user computing devices. One example context to which such database modification techniques can be applied is a network provider providing a plurality of individual network portals via which users may acquire network resources and perform other transactions. Acquired network resources can subsequently be transferred to other users within or outside the communication network, and the original owner of the network resources may specify resource transfer options that specify the rules that govern these subsequent transfers. Further, these transactions may occur via network portals and/or physical portals associated with the users of the communication network. The network provider may maintain a database that keeps track of the network resources and update the database as these transactions occur.

The present disclosure generally relates to database modification, and in particular, database modification in the context of networked platforms accessible by user computing devices. One example context to which such database modification techniques can be applied is a network provider providing a plurality of individual network portals via which users may acquire network resources and perform other transactions. Acquired network resources can subsequently be transferred to other users within or outside the communication network, and the original owner of the network resources may specify resource transfer options that specify the rules that govern these subsequent transfers. Further, these transactions may occur via network portals and/or physical portals associated with the users of the communication network. The network provider may maintain a database that keeps track of the network resources and update the database as these transactions occur.

A resource management apparatus is communicable with a communication terminal that displays usage states of a plurality of resources. The resource management apparatus includes circuitry configured to transmit a request for reservation information indicating reservation contents of the plurality of resources to a reservation management apparatus that manages reservations of the plurality of resources, receive the reservation information relating to the plurality of resources transmitted by the reservation management apparatus, and transmit, to the communication terminal, image information of the plurality of resources, location information indicating locations of the plurality of resources, and usage states of the plurality of resources, and the received reservation information relating to the plurality of resources, the image information, the location information, and the usage states being managed by the resource management apparatus.

A resource management apparatus is communicable with a communication terminal that displays usage states of a plurality of resources. The resource management apparatus includes circuitry configured to transmit a request for reservation information indicating reservation contents of the plurality of resources to a reservation management apparatus that manages reservations of the plurality of resources, receive the reservation information relating to the plurality of resources transmitted by the reservation management apparatus, and transmit, to the communication terminal, image information of the plurality of resources, location information indicating locations of the plurality of resources, and usage states of the plurality of resources, and the received reservation information relating to the plurality of resources, the image information, the location information, and the usage states being managed by the resource management apparatus.

Embodiments for providing a timely indication that a wireless transaction has been completed, using a command-based timer solution, are provided. These embodiments include receiving a first command, associated with the wireless transaction, from a reader; initiating, using an applet, a first command-based timer when the first command is received; issuing, using the applet, an activity timeout signal when the first command-based timer expires before a second command is received from the reader; and providing an indication that the wireless transaction has been completed in response to the activity timeout signal. In some embodiments, the command-based timer solution may also include canceling, using the applet, the first command-based timer when the second command is received before the first command-based timer expires; initiating a second command-based timer when the second command is received; and issuing the activity timeout signal when that the second command-based timer expires.

Embodiments for providing a timely indication that a wireless transaction has been completed, using a command-based timer solution, are provided. These embodiments include receiving a first command, associated with the wireless transaction, from a reader; initiating, using an applet, a first command-based timer when the first command is received; issuing, using the applet, an activity timeout signal when the first command-based timer expires before a second command is received from the reader; and providing an indication that the wireless transaction has been completed in response to the activity timeout signal. In some embodiments, the command-based timer solution may also include canceling, using the applet, the first command-based timer when the second command is received before the first command-based timer expires; initiating a second command-based timer when the second command is received; and issuing the activity timeout signal when that the second command-based timer expires.

Embodiments are presented herein for adjusting the conduct of routine communications of safety messages in V2X networks in order to conserve resources in participating power-limited devices while satisfying V2X system latency demands. Scheduling (e.g., timing and/or frequency) of safety message communications performed by certain UE devices participating in a V2X network may be dynamically adjusted according to various criteria, such as factors relating to the DRX cycle schedule, motion or mobility, traffic environment, and/or battery or power capabilities of the UE devices, which may conserve UE resources and power consumption. Certain UE devices may efficiently transmit safety messages to the V2X network using one of several proposed RACH-based procedures. In some embodiments, the size of safety message communications may be reduced through various compression techniques, and/or by reducing the amount of contained information, e.g., by omitting certain parameters, which may reduce the resources consumed by performing safety message communications.

Techniques are described for repairing an autonomous vehicle. One of the methods includes receiving a message that an autonomous vehicle requires repair, the message including a time period during which the autonomous vehicle is available for repair. The method includes scheduling a time for the repair with a third-party, the third party having an address. The method also includes directing the autonomous vehicle to autonomously drive to the address at the time.

A system for providing exact communication delay guarantee of a request response for a distributed service, includes: a plurality of service provider nodes, a management node, and a plurality of proxy nodes; a set of users served by each service provider node constitutes a coverage area of the node; a communication delay between any user in the coverage area and the service provider node is less than a predetermined delay guarantee value; a physical network enables, according to division of the coverage areas of the service provider nodes, each user in the network to be located in a coverage area, and each user is served by at least one service provider node; and the coverage area includes a plurality of adjacent areas, and each service provider node has a plurality of adjacent nodes. In the system, each user can complete service request and response within a determined communication delay range.