A multi-link convergence method include: receiving a first binding request sent by a client using a first link; sending a first LSID to the client using the first link; receiving a first authentication request sent by the client using the first link; performing authentication on the first link according to the first authentication request; if the first link is authenticated successfully, sending a BID to the client using the first link; receiving a second binding request sent by the client using a second link, where the second binding request carries the BID; sending a second LSID to the client using the second link; receiving a second authentication request sent the client by using the second link; performing authentication on the second link according to the second authentication request; and if the second link is authenticated successfully, sending a binding acknowledgement message to the client using the second link.

Embodiments of the present invention provide a data transmission method, a data transmission apparatus, a processor, and a mobile terminal. The data transmission method includes: determining, by a mobile terminal, whether to use multiple data channels to transmit to-be-transmitted data; if determining to use the multiple data channels to transmit the to-be-transmitted data, selecting, by the mobile terminal, at least two activated data channels for the to-be-transmitted data according to current traffic information and service quality information that are of the multiple data channels; and using, by the mobile terminal, the selected at least two data channels to transmit the to-be-transmitted data. According to the embodiments of the present invention, data transmission efficiency is enhanced, and idleness and a waste of data channel resources are avoided.

A control method in a mobile automation system including a mobile automation apparatus and a control server. The method comprises, at the mobile automation apparatus: receiving a task identifier and a plurality of task fragments from the control server, each task fragment containing (i) a subset of identifiers for respective sub-regions in a facility, and (ii) an operational constraint. The method further includes, for each task fragment: generating a path traversing the subset of sub-regions, and while travelling along the path, performing the identified task.

An information processing device of a cooperative system that further includes a portable device includes: a display that displays an image; a position detector that detects a position on a display surface of the display with which an object has made contact; and a hardware processor that detects the portable device in response to the position detector detecting a position with which an object has made contact, establishes a communication path with the portable device, switches an independent mode not cooperating with the portable device to a cooperation mode cooperating with the portable device when a communication path with the portable device is established and the portable device is detected by the hardware processor, and displays a related image that is related to the portable device on the display in response to the hardware processor no longer detecting the portable device in the cooperation mode.

An electronic apparatus includes a communicator; and a processor configured to: transmit a message including a communication connection order among a plurality of terminals to the plurality of terminals through the communicator, and control the communicator to sequentially perform connections with the plurality of terminals corresponding to association requests respectively received from the plurality of terminals after transmitting the message.

An antenna control system in a base station system, and a configuration method of the antenna control system are disclosed. A method of controlling antennas in a multi-ALD (Antenna Line Device) system including ALDs and ports linked with multiple base stations is provided including receiving configuration command by one of ALDs from one of base stations, transferring configuration command by the ALD that received configuration command to each of remaining ALDs, and setting an antenna for controlling or port for linking by each ALD according to the configuration command. In accordance with some embodiments, a multi-ALD system for controlling a plurality of antennas includes ports for linking with multiple base stations, respectively, and ALDs for controlling the antennas, wherein the ALDs are linked for intercommunications with each other, to set an antenna to control or a port to link according to configuration command received from one of the base stations.

Examples herein disclose an apparatus. The apparatus includes a network interface controller (NIC) port to be dedicated to a management functionality of a server. The apparatus also includes a light emitting diode (LED), coupled to the NIC port, to provide a visible indication that the NIC port is dedicated to the management functionality of the server.

Embodiments of the present invention provide a data transmission method, a data transmission apparatus, a processor, and a mobile terminal. The data transmission method includes determining, by a mobile terminal, whether to use multiple data channels to transmit to-be-transmitted data. The method also includes if determining to use the multiple data channels to transmit the to-be-transmitted data, selecting, by the mobile terminal, at least two activated data channels for the to-be-transmitted data according to current traffic information and service quality information that are of the multiple data channels. Additionally, the method includes using, by the mobile terminal, the selected at least two data channels to transmit the to-be-transmitted data.

A cloaking authority system that securely and anonymously identifies a misbehaving device based on its digital certificate. The system may include a cloaking authority server or device that is communicatively connected to a misbehavior authority server, and may also include a pseudonym certificate authority device, and a registration authority device. The cloaking authority device receives, from the misbehavior authority server, a request for a cloak index, wherein the request for the cloak index includes the linkage value from a PC of a misbehaving computerized device. The cloaking authority device processes the linkage value to produce a cloak index, which identifies the misbehaving computerized device and which is unique and anonymous, and transmits it to the requesting misbehavior authority server. The misbehavior authority server uses the cloak index to identify the specific computerized device that has misbehaved, usually repeatedly.

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.