A computer implemented method of secure communication between a virtual machine in a set of virtual machines in a virtualized computing environment and a shared software service over a network, the method comprising: establishing a network connection between the virtual machine and the software service; communicating data between the virtual machine and the software service; and, establishing a tunneling virtual private network (VPN) connection for communication of encrypted network traffic between the virtual machine and the software service, access to the VPN connection being restricted so as to securely separate communication between the virtual machine and the software service from communication occurring with other virtual machines in the set, and wherein data is communicated between the virtual machine and the software service via the VPN connection.

Methods and systems for managing a Multipath Transmission Control Protocol (MPTCP) in an electronic device during data transport between the electronic device (client device) and other electronic device (host device) are described. The method includes monitoring one or more factors associated with the MPTCP implemented in the client device. Further, based on the one or more factors that are monitored, the method includes determining whether to enable the MPTCP in the electronic device for a current data transport. Thereafter, the method includes determining a mode, among a plurality of modes provided for the MPTCP, to control a plurality of subflows of the MPTCP when the MPTCP is enabled for the current data transport. The method further includes dynamically switching the mode of the MPTCP during the current data transport based on the one or more factors being monitored during the current data transport.

A system and a method of multi path communication to improve communication between an unmanned air vehicle (UAV) and ground control during a mission is disclosed. A database previously stores a plurality of secure data links to be used on networks during the mission for communicating and are managed for simultaneously distributing data flow among data links according to coverage and UAV location preventing third parties may compromise security of a mission. The database may be updated during the mission if needed.

Exemplary embodiments of the present disclosure provide a method, apparatus, and computer-readable medium for sharing. An exemplary method includes receiving, by a user equipment (UE) having a plurality of connections, a description, and determining, by the UE, a correspondence between the description and the plurality of connections. The method further includes providing, by the UE, an option to share a subset of the plurality of connections that have a correspondence above a predetermined threshold.

A system for server migration includes a first computer hosting a service during a first period of time. A second computer hosts the service during a second, third and fourth period of time. A client computer communicates directly with the service at a first IP address, during the first period of time. The client computer communicates with the service at the first IP address, during the second and third periods of time, through a tunneled connection via a first subflow of a multi-path communication session. The client computer communicates directly with the service at the second IP address, during the third period of time, via a second subflow of the multi-path communication session, and discontinue the first subflow of the multi-path communication session while maintaining the second subflow of the multi-path communication session during the fourth period of time.

A source device and a sink device may be connected using an interface cable comprising at least first and second physical channels. The first physical channel may be used to transmit video data unidirectionally from the source device to the sink device. In addition, the second physical channel may comprise an audio return channel wherein audio data can be transmitted unidirectionally from the sink device to the source device at a first rate. In addition, the second physical channel may also transmit bidirectional control data between the source and sink devices at a second rate slower than the first rate. The audio data may be overlaid on the control data, wherein the audio data is transmitted using differential signaling, while the control data is transmitted using common mode signaling.

Methods and systems for optimizing bandwidth utilization in an in-home network may comprise in a multi-protocol premises-based wired and wireless network, monitoring capabilities of media of a wired communication link operating in accordance with a wired communication standard and capabilities of a wireless communication link operating in accordance with a wireless local area network standard. Some or all data communications from the wired communication link may be routed to the wireless communication link based on the media capabilities. Bit-loading of the data communications in the wired communication link and wireless communication link may be configured based on the media capabilities. The capabilities may comprise one or more of: bandwidth, data throughput, usage, and signal-to-noise ratio. The wired communication standard may comprise Multimedia over Cable Alliance (MoCA). The monitoring may be performed by one or more Multimedia over Cable Alliance (MoCA) network controllers.

A method, a device, and a system for implementing a multiplexer (mux) machine, where the method includes setting a mux machine on a first aggregation port to be in a PROTECT_WAITING state, when the mux machine is in the PROTECT_WAITING state, determining that the first aggregation port is not in a collecting and distributing state, and sending, to a second network device, a first Link Aggregation Control Protocol Data Unit (LACPDU) packet that is used to notify that the first aggregation port is in the collecting and distributing state, and when a second LACPDU packet that is from the second network device and indicating that a second aggregation port is in the collecting and distributing state is received, switching a status of the mux machine from the PROTECT_WAITING state to a COLLECTING_DISTRIBUTING state, and setting the first aggregation port to be in the collecting and distributing state.

An image forming apparatus includes multiple network interfaces to be connected to different networks, a management-information storage, a management-information generating unit, and a transmitting unit. The management-information storage stores management information. In accordance with a management information transmission request received via one of the network interfaces, the management-information generating unit extracts information which is to be transmitted through the network interface through which the request has been received, from the management information, and generates transmission management information to be transmitted. The transmitting unit transmits the transmission management information generated by the management-information generating unit, from the network interface through which the request has been received.

A communication system comprises a transmission apparatus configured to transmit data via a plurality of communication lines, and a reception apparatus configured to receive the data from the transmission apparatus. The transmission apparatus includes processing circuitry configured to generate information regarding QoS of the plurality of communication lines. The processing circuitry is further configured to designate assignment of the data to communication lines of the plurality of communication lines on a basis of at least (i) the information regarding the QoS of the plurality of communication lines and (ii) assignment information indicating an assignment status of a data amount and a communication line transferred in the past. The transmission apparatus includes communication circuitry configured to allocate and transmit the data to the assigned communication lines of the plurality of communication lines on a basis of an instruction from the processing circuitry.