Systems, apparatuses and methods may provide for technology that detects received data at a network interface controller. The network interface controller may be connected with a local memory including a persistent non-volatile memory directly accessible only by the network interface controller. The technology may determine whether to store the received data in the local memory or a system memory including a persistent non-volatile memory region. The technology may store the received data in the local memory or the system memory according to the determining.

A control method includes: storing, at a control server, respective identifiers for a plurality of sub-regions in a facility; for each sub-region identifier, a location of the sub-region in the facility and an operational constraint associated with a mobile automation apparatus; at the control server: obtaining a job definition indicating a set of the sub-region identifiers and a task; retrieving the locations and the operational constraints corresponding to the set of sub-region identifiers from the repository; allocating the set of sub-region identifiers to a plurality of subsets of sub-region identifiers, each subset having a shared common operational constraint; for each subset of sub-region identifiers, generating a task fragment containing the subset of sub-region identifiers, and the common operational constraint; and sending the task fragments and an identifier of the task to the mobile automation apparatus for performance of the task at each of the set of sub-region identifiers.

A distributed radio frequency communication system facilitates communication between a wireless terminal and a core network. The system includes a remote radio unit (RRU) coupled to at least one antenna to communicate with the wireless terminal. The RRU includes electronic circuitry to perform at least a first portion of a first-level protocol of a radio access network (RAN) for communicating between the wireless terminal and the core network. The system also includes a baseband unit (BBU) coupled to the core network, and configured to perform at least a second-level protocol of the RAN. A fronthaul link is coupled to the BBU and the RRU. The fronthaul link utilizes an adaptive fronthaul protocol for communication between the BBU and the RRU. The adaptive fronthaul protocol has provisions for adapting to conditions of the fronthaul link and radio network by changing the way data is communicated over the fronthaul link.

Apparatus and methods are provided for ameliorating distortion issues associated with a conductor that passes over a void in a reference plane. In an example, the signal conductor can include a first part routed over the major surface of a first side of the reference plane structure on a first side of the void and that approaches a first edge of the reference plane structure with a first trajectory, a second part routed over the major surface of the reference plane structure on a second side of the void and that approaches a second edge of the reference plane structure with a second trajectory, and a third portion connecting the first portion with the second portion, the third portion spanning the void, and having a plurality of spurs extending from a body of the third portion.

There is provided user equipment for communicating with a base station in a mobile communication system including the base station and the user equipment, the user equipment including a PDCP layer processor provided with a storage unit that receives and stores a plurality of acknowledgement signals to be transmitted to the base station; and an RLC layer processor that transmits, to the PDCP layer processor, a signal transmission grant signal that indicates that transmission of an uplink signal is allowed, wherein, upon receiving the signal transmission grant signal, the PDCP layer processor transmits, to the RLC layer processor, an acknowledgement signal that is received most recently among the plurality of acknowledgement signals.

Provided are systems and methods for a storage adapter device for communicating with network storage. In some implementations, the storage adapter device comprises a host interface. In these implementations, the host interface may be configured to communicate with a host device using a local bus protocol. In some implementations, the storage adapter device also includes a network interface. In these implementations, the network interface may communicate with a network using a network protocol. In some implementations, the storage adapter device may be configured to communicate with a remote storage device. In some implementations, the storage adapter device may also be configured to translate a request from the host interface from the local bus protocol to the network protocol. The storage adapter device may further be configured to transmit the translated request to the remote storage device.

An electronic device controller, in order to link various electronic devices without requiring troublesome installation of applications, drivers, etc., is capable of wirelessly communicating with at least one of a plurality of electronic devices that can be wirelessly communicated, and connected to a server device via a network, the controller being configured to receive device identification information of the plurality of electronic devices that can be wirelessly communicated; to transmit the plurality of device identification information to the server device via the network; to receive instruction information transmitted from the server device, regarding a linkage operation of the electronic devices, the instruction information being associated with the plurality of device identification information; and performs control to make the electronic devices perform linkage operation according to the instruction information by transmitting an operation instruction to the electronic devices according to the instruction information, via the wireless communication.

A distributed radio frequency communication system facilitates communication between a wireless terminal and a core network. The system includes a remote radio unit (RRU) coupled to at least one antenna to communicate with the wireless terminal. The RRU includes electronic circuitry to perform at least a first portion of a first-level protocol of a radio access network (RAN) for communicating between the wireless terminal and the core network. The system also includes a baseband unit (BBU) coupled to the core network, and configured to perform at least a second-level protocol of the RAN. A fronthaul link is coupled to the BBU and the RRU. The fronthaul link utilizes an adaptive fronthaul protocol for communication between the BBU and the RRU. The adaptive fronthaul protocol has provisions for adapting to conditions of the fronthaul link and radio network by changing the way data is communicated over the fronthaul link.

Provided are systems and methods for a storage bridge device for communicating with network storage. In some implementations, the storage bridge device includes a network interface. The network interface may be configured to communicate with a storage device, using a storage device protocol. In some implementations, the storage bridge device includes a bus interface. The bus interface may be configured to communicate with a storage device, using a storage device protocol. In some implementations, the storage bridge device may be configured to communicate with a host device connected to the network. In these implementations, the storage bridge device may be configured to translate a request from the host device from the network protocol to the storage device protocol. The storage bridge device may further be configured to transfer the translated request to the storage device.

A transmission method includes: generating one or more transfer frames that each store one or more streams used for content transfer; and transmitting the one or more generated frames through broadcast, each of the one or more streams storing one or more second transfer units, each of the one or more second transfer units storing one or more first transfer units, and each of the one or more first transfer units storing one or more Internet Protocol (IP) packets. In at least one stream among the one or more streams, each of the first transfer units positioned at a head contains reference clock information indicating time used for reproduction of the content.