Wireless communications are described in which a wireless device may receive a message comprising: a timing advance command (TAC) for a secondary cell group, and a power control command. The wireless device may transmit one or more sounding reference signals via a secondary cell of the secondary cell group, after applying the TAC. The wireless device may use a transmission power that may be based on the power control command.

Wireless communications are described in which a wireless device may receive a message comprising: a timing advance command (TAC) for a secondary cell group, and a power control command. The wireless device may transmit one or more sounding reference signals via a secondary cell of the secondary cell group, after applying the TAC. The wireless device may use a transmission power that may be based on the power control command.

A method for configuring transmission order of uplink data, the method performed by a radio equipment (“RE”) of an access node. The RE has a RE controller (“REC”)-RE interface that communicatively couples the RE with a REC of the access node. The method includes receiving instructions from the REC that indicate a scheduling prioritization for transmission by the RE of uplink data between the RE and the REC over the REC-RE interface. The uplink data can be received by the RE on the radio interface. The method can further include transmitting the uplink data on the REC-RE interface according to the instructions, resulting in the scheduling prioritization of the uplink data.

A method for configuring transmission order of uplink data, the method performed by a radio equipment (“RE”) of an access node. The RE has a RE controller (“REC”)-RE interface that communicatively couples the RE with a REC of the access node. The method includes receiving instructions from the REC that indicate a scheduling prioritization for transmission by the RE of uplink data between the RE and the REC over the REC-RE interface. The uplink data can be received by the RE on the radio interface. The method can further include transmitting the uplink data on the REC-RE interface according to the instructions, resulting in the scheduling prioritization of the uplink data.

A data distribution system and method are described herein to improve the distribution of market information to subscribing client devices. Market information updates are provided to subscribing devices over a communication link every time a change in the market occurs. If a bandwidth limitation is reached on the communication link, the preferred embodiments switch to a second mode of transmission such that the market information updates are provided only at predetermined intervals. The preferred embodiment monitors the bandwidth consumption to determine what mode of transmission to apply, and in response, it can dynamically change between modes of transmission. By dynamically adjusting the mode of transmission to comport with the current network bandwidth, the preferred embodiments may provide a network friendly, data intensive, and fast response market information feed.

Embodiments of the present invention provide a downlink information transmission method, a base station, and user equipment. The method includes: sending, by a first base station, downlink information by using a first period according to a first pattern; sending, by the first base station, the downlink information by using a second period according to the first pattern, or by using the first period according to a second pattern, or by using a second period according to a second pattern when the first base station determines to change a transmission period and/or a transmission pattern of the downlink information, where the second period is less than the first period, and OFDM symbols occupied by the second pattern are more than OFDM symbols occupied by the first pattern. The present invention is applicable to the field of communications technologies.

Embodiments of the present invention provide a downlink information transmission method, a base station, and user equipment. The method includes: sending, by a first base station, downlink information by using a first period according to a first pattern; sending, by the first base station, the downlink information by using a second period according to the first pattern, or by using the first period according to a second pattern, or by using a second period according to a second pattern when the first base station determines to change a transmission period and/or a transmission pattern of the downlink information, where the second period is less than the first period, and OFDM symbols occupied by the second pattern are more than OFDM symbols occupied by the first pattern. The present invention is applicable to the field of communications technologies.

Data transmission method, apparatus and system, for broadening MEC application scenarios, are disclosed, so service data cannot only be terminated at a local service platform, but also can be processed by the local service platform and then delivered to a remote service platform for processing; alternatively the service data is processed by the remote service platform and then delivered to the local service platform for processing. The data transmission method includes an MEC server determining, when receiving a service data packet sent by a local service server, a service data packet forwarding mode corresponding to the local service server according to a pre-set data forwarding information table; and the MEC server processing, according to the service data packet forwarding mode corresponding to the local service server, the service data packet by adopting a processing manner corresponding to the service data packet forwarding mode, and then sending the service data packet.

Data transmission method, apparatus and system, for broadening MEC application scenarios, are disclosed, so service data cannot only be terminated at a local service platform, but also can be processed by the local service platform and then delivered to a remote service platform for processing; alternatively the service data is processed by the remote service platform and then delivered to the local service platform for processing. The data transmission method includes an MEC server determining, when receiving a service data packet sent by a local service server, a service data packet forwarding mode corresponding to the local service server according to a pre-set data forwarding information table; and the MEC server processing, according to the service data packet forwarding mode corresponding to the local service server, the service data packet by adopting a processing manner corresponding to the service data packet forwarding mode, and then sending the service data packet.

A mobile or transportable device for radio communications include a mobile platform. The mobile platform has at least one antenna; a radio operating component coupled with the at least one antenna for receiving and/or transmitting radio signals; and a microcontroller coupled with the radio operating component, configured such that when a radio signal received by the radio operating component from one of fixed location radio communication facilities is weaker than a threshold value, the microcontroller searches radio communication parameters of a closest radio communication facility to a current location of the mobile or transportable device, and operably retunes the mobile or transportable device according to the radio communication parameters of the closest radio communication facility. According to the invention, certain functions of the mobile or transportable device may be performed remotely away from the mobile platform.