Systems, computer program products, and methods are described herein for tracking resource allocation/usage across a dispersed Internet protocol capable network connecting devices electrically attached to the network. The present invention is configured to receive, from a first user computing device, a first user request for authorization to access at least one of the one or more computing devices; initiate the augmented reality application for display on the at least one of the one or more computing devices; reconfigure, via the augmented reality application, a display device associated with the first user computing device to emulate a content displayed on a display device associated with at least one of the one or more computing devices on the display device of the first user computing device; retrieve, using the first user computing device, information from the content; process, using the first computing device, the retrieved information; and display the processed information.

Techniques for transferring connection data for a migrated virtual computing instance are described. The connection data transfer process includes the steps of, responsive to determining the virtual computing instance is to be migrated, transmitting the connection data, from a first memory buffer shared between a first instance of a service virtual computing instance and a first hardware abstraction layer executing in a source host, to a second memory buffer shared between a second instance of the service virtual computing instance and a second hardware abstraction layer executing in a destination host; responsive to determining the virtual computing instance is stopped in the source host, packing connection data changes including changes made to the connection data at the source host during a time period beginning when the connection data is copied and ending when the virtual computing instance is stopped; and transmitting the connection data changes to the destination host.

Various exemplary embodiments relate to a method for processing data packets by a first-hop switch in a data network, including: receiving a first data packet associated with a flow; determining whether the flow associated with the first data packet is found in a flow table in the first-hop switch; modifying the first data packet by replacing a packet header field with flow definition information; and transmitting the modified first data packet based upon the flow definition information.

The communication node includes an entry memory adapted to store a preset number of the control information entries, each stipulating the processing applied to a packet received, in association with the user information, and a packet processor that references the entry memory to process the packet received. The communication node also includes an entry management section that exercises control so that, on the basis of a preset reference, the proportion of the number of the control information entries for one user stored in the entry memory to the number of the control information entries storable in the entry memory will not surpass a preset value.

Various embodiments are directed to techniques for dynamically adjusting a maximum rate of throughput for accessing data stored within a volume of storage space of a storage cluster system based on the amount of that data that is stored within that volume. An apparatus includes an access component to monitor an amount of client device data stored within a volume defined within a storage device coupled to a first node, and to perform a data access command received from a client device via a network to alter the client device data stored within the volume; and a policy component to limit a rate of throughput at which at least the client device data within the volume is exchanged as part of performance of the data access command to a maximum rate of throughput, and to calculate the maximum rate of throughput based on the stored amount.

In some embodiments, the instant invention provides for a computer-implemented method that includes the following steps: administering, by a first specifically programed computer system of a communications exchange, an electronic delivery of a first electronic distribution from a first sender to a first recipient, where the mediating includes: receiving from a first source of a plurality of sources, a first electronic distribution of the first sender, receiving from the first sender, a plurality of sender attributes of the first sender and a plurality of sender rules of the first sender that define how electronic distributions of the first sender to be delivered; receiving the plurality of recipient attributes of the first recipient and the plurality of recipient rules of the first recipient; matching the first electronic distribution of first sender to the first recipient; transmitting, the first electronic distribution of first sender to first channel of the first recipient.

A method, non-transitory computer readable medium and apparatus for changing a quality of service for data packets that are delivered over-the-top are disclosed. For example, the method includes a processor that identifies the data packets as video data packets that are delivered over-the-top in a communication network, changes the quality of service associated with the data packets from a best effort quality of service level to a higher priority quality of service level, monitors the data packets until no video data packet is identified in the data packets and changes the quality of service associated with the data packets back to the best effort quality of service level from the higher priority quality of service level.

An operating method of an overlay management server (OMS) is disclosed. The operating method may include performing a registration process along with a network entity, performing a resource reservation process along with the network entity in response to the registration process being performed, receiving a peer list provision request from the network entity in response to the resource reservation process being performed, and transmitting, to the network entity, a peer list including information associated with an overlay resource for the network entity based on a priority level of the network entity in response to the peer list provision request being received.

An appropriate quality of service policy is automatically selected as a function of network and business conditions. A current loading condition of an internet protocol network of devices operating, a current condition of radio frequency communications between wireless devices, and a current business condition that indicates a cost or availability of a resource used in device operation remotely controlled via data packet communications, are each determined under current network control and routing rules. If the resource cost or availability exceeds a specified market condition constraint, a special resource control rule is automatically selected to preempt a current network or routing rule to cause one or more of the internet protocol devices to reduce an amount of the resource used or distributed by the first internet protocol device while operating within the current determined internet protocol network loading and radio frequency communications conditions.

A network element (NE) comprising a receiver configured to receive a flow configuration message from a network controller via an information centric network (ICN), wherein the flow configuration message comprises a flow entry that identifies a flow in the ICN, wherein the flow is associated with a name of an application data object, and wherein the flow entry comprises a forwarding path associated with an application corresponding to the application data object name, and receive a packet, via the ICN, comprising the application data object name, a processor coupled to the receiver and configured to select the flow entry from a flow table based on the packet's application data object name, and a transmitter coupled to the processor and configured to forward the packet along the forwarding path in the selected flow entry.