Disclosed is a computing system capable of performing a method that involves receiving, from a first device, a first indication that a peripheral device associated with the first device is available for sharing; sending, to a second device, a second indication that the peripheral device is available for sharing; receiving, from the second device, a request to access the peripheral device; and based at least in part on receipt of the request, causing a peer-to-peer connection to be established between the second device and the first device, the peer-to-peer connection enabling communication between the second device and the peripheral device. The peer-to-peer connection may, for example, enable direction of the peripheral device to the second device so that the peripheral device is a virtual device of the second device.

A peer node in a blockchain distribution network includes a processor configured to generate a blockchain, where the blockchain includes information regarding a plurality of transactions. The processor is also configured to determine that the peer node is being discriminated against with respect to blockchain transmissions by one or more central servers of the blockchain distribution network. The processor is further configured to determine, based at least in part on the determination that the peer node is being discriminated against, that one or more servers in a sentinel network are to be used for blockchain transmissions instead of the one or more central servers. The peer node further comprises a transceiver operatively coupled to the processor and configured to transmit the blockchain through the sentinel network.

The present disclosure generally relates to user interfaces for managing peer-to-peer transfers. In some examples, a device provides user interfaces for initiating and managing transfers. In some examples, a device provides user interfaces corresponding to completed transfers. In some examples, a device provides user interfaces for providing visually distinguishable message object appearances based on message designation. In some examples, a device provides user interfaces for activating accounts for accepting and sending transfers. In some examples, a device provides user interfaces for exchanging accounts for use in a transfer. In some examples, a device provides user interfaces for splitting transfers between two or more accounts. In some examples, a device provides user interfaces for generating and displaying a transfers history list. In some examples, a device provides user interfaces for voice-activation of transfers. In some examples, a device provides visual or haptic feedback corresponding to a transfer operation.

A content management system for collecting files from one or more authenticated submitters in a collection folder. A collector, who generates the collection folder, can invite one or more submitters to submit one or more files to the collection folder. The one or more submitters have limited rights to the collection folder. The limited rights can include uploading rights and prohibiting a submitter from viewing files that other submitters associated with the collection folder submitted. Thus, the collection folder is able to store files from the one or more submitters, but prevent them from viewing other's submissions.

The present disclosure generally relates to user interfaces for managing peer-to-peer transfers. In some examples, a device provides user interfaces for initiating and managing transfers. In some examples, a device provides user interfaces corresponding to completed transfers. In some examples, a device provides user interfaces for providing visually distinguishable message object appearances based on message designation. In some examples, a device provides user interfaces for activating accounts for accepting and sending transfers. In some examples, a device provides user interfaces for exchanging accounts for use in a transfer. In some examples, a device provides user interfaces for splitting transfers between two or more accounts. In some examples, a device provides user interfaces for generating and displaying a transfers history list. In some examples, a device provides user interfaces for voice-activation of transfers. In some examples, a device provides visual or haptic feedback corresponding to a transfer operation.

A method for improving data flow and data security in an existing wireless communications network comprising a central node and a plurality of remote nodes, during band-width-limiting conditions, the method including generating, by a processor at the central node, a hybrid network overlay to the existing wireless communications network, the hybrid network overlay including a remote overlay node for each remote node and a central overly node for the central node. The method further includes maintaining a distributed ledger having a blockchain architecture, the distributed ledger storing data transmitted among the central node and the remote nodes, including designating remote nodes as super nodes comprising using a link sensing mechanism and remote node processing characteristics to identify remote nodes having links with sufficient bandwidth and sufficient processing capacity to aggregate transactions and validate blocks, each super node participating in a block validation process using the hybrid network overlay.

A region-based distributed information management system is described herein in which some or all of the operations typically performed by a centralized storage manager can be distributed to storage managers located in the various geographic regions. These regional storage managers can manage components of the information management system located in their respective geographic region, and communicate with the centralized storage manager (also referred to herein as a “master storage manager”) for synchronization purposes and/or to hand off operations that cannot be performed by the regional storage manager.

A system for machine learning-derived contract generation is provided. The system comprises: a machine learning engine and a controller configured to: input historical and streaming interaction data into the machine learning engine, wherein the machine learning engine is trained by the historical and streaming interaction data; determine one or more machine learning-derived interaction patterns for a resource transfer between the first user device and the second user device, wherein the one or more machine learning-derived interaction patterns comprise calculated exposure levels for one or more events for completing the resource transfer; based on the machine learning-derived interaction patterns, generate the resource transfer contract for transferring a resource from the first user device to the second user device, wherein the resource transfer contract comprises a sequential flow of the one or more events; and distribute the resource transfer contract to the first user device and the second user device.

The present disclosure generally relates to user interfaces for managing peer-to-peer transfers. In some examples, a device provides user interfaces for initiating and managing transfers. In some examples, a device provides user interfaces corresponding to completed transfers. In some examples, a device provides user interfaces for providing visually distinguishable message object appearances based on message designation. In some examples, a device provides user interfaces for activating accounts for accepting and sending transfers. In some examples, a device provides user interfaces for exchanging accounts for use in a transfer. In some examples, a device provides user interfaces for splitting transfers between two or more accounts. In some examples, a device provides user interfaces for generating and displaying a transfers history list. In some examples, a device provides user interfaces for voice-activation of transfers. In some examples, a device provides visual or haptic feedback corresponding to a transfer operation.

One embodiment provides for an electronic device, comprising a non-transitory machine-readable medium to store instructions, one or more processors to execute the instructions, and a memory coupled to the one or more processors. The memory can be configured to store a set of synchronization data associated with interaction between the electronic device and one or more applications and instructions which, when executed by the one or more processors, configure the one or more processors to retrieve a set of synchronization data to be transmitted from the electronic device to select a transport channel from one of a peer-to-peer channel or a network-based channel and transmit the set of synchronization data from the electronic device to one or more remote devices via the selected transport channel.