A method and system for detecting an idle channel in a wireless communication system are provided. In the method for detecting the idle channel, channel measurement is performed for channels which are needed for transmitting data by means of beamforming, and a channel in an idle state is determined. The system for detecting the idle channel includes: a channel measurement module arranged to perform channel measurement for channels which are needed for transmitting data by means of beamforming, and an idle channel determining module arranged to determine, according to a channel measurement result, a channel in an idle state.

A base station serves as a second base station in a communication system including a first base station corresponding to a first cell and the second base station corresponding to a second cell smaller than a first area of the first cell. At least part of the second cell overlaps the first area. The base station includes: a calculation unit that, based on a first channel estimation value between a first terminal connected to the first base station through the first cell and the second base station as well as a second channel estimation value between a second terminal connected to the second base station through the second cell and the second base station, calculates an indicator based on a phase relationship between the first channel estimation value and the second channel estimation value; and a scheduler that determines whether to include a first candidate in a second candidate.

A base station serves as a second base station in a communication system including a first base station corresponding to a first cell and the second base station corresponding to a second cell smaller than a first area of the first cell. At least part of the second cell overlaps the first area. The base station includes: a calculation unit that, based on a first channel estimation value between a first terminal connected to the first base station through the first cell and the second base station as well as a second channel estimation value between a second terminal connected to the second base station through the second cell and the second base station, calculates an indicator based on a phase relationship between the first channel estimation value and the second channel estimation value; and a scheduler that determines whether to include a first candidate in a second candidate.

[Object] To provide a communication control device, a base station, a terminal device, a communication control method, and a wireless communication method which are capable of improving user throughput by performing more flexible frequency control. [Solution] Provided is a communication control device including: a communication unit configured to communicate with a base station of a wireless communication system in which one or more frequencies are used; a setting unit configured to set an event and set a frequency to be used by the base station using occurrence of the set event as a trigger; and an acquiring unit configured to acquire information for the setting by the setting unit.

[Object] To provide a communication control device, a base station, a terminal device, a communication control method, and a wireless communication method which are capable of improving user throughput by performing more flexible frequency control. [Solution] Provided is a communication control device including: a communication unit configured to communicate with a base station of a wireless communication system in which one or more frequencies are used; a setting unit configured to set an event and set a frequency to be used by the base station using occurrence of the set event as a trigger; and an acquiring unit configured to acquire information for the setting by the setting unit.

System information can include a basic set of system information and additional system information. A UE can receive the basic set of system information and then later request or receive the additional system information. Messages can use tags which can be used to look up locally stored system information. If a tag does not correspond to any locally stored system information, the system information and an associated tag can then be requested. Messages can be indicative of a cluster identity associated with cells. When the UE goes into a new cell, the cluster identity can be checked to see if system information from a prior call can be reused.

System information can include a basic set of system information and additional system information. A UE can receive the basic set of system information and then later request or receive the additional system information. Messages can use tags which can be used to look up locally stored system information. If a tag does not correspond to any locally stored system information, the system information and an associated tag can then be requested. Messages can be indicative of a cluster identity associated with cells. When the UE goes into a new cell, the cluster identity can be checked to see if system information from a prior call can be reused.

An interface circuit in an electronic device may receive, from an access point associated with the electronic device, a frame with management information that enables the electronic device to use a spatial-reuse technique, where the electronic device, through the spatial-reuse technique, adjusts a transmit power and a channel-availability sensing threshold. Moreover, the management information may specify parameters for the spatial-reuse technique. Then, the electronic device may transmit, using the spatial-reuse technique, one or more frames to the access point based on the parameters. Furthermore, the electronic device may transmit, to the access point, feedback information that indicates communication performance during the communication between the electronic device and the access point. For example, the feedback information may include a retry rate and, more generally, communication-performance information. This feedback information may be used by the access point to modify the parameters.

An interface circuit in an electronic device may receive, from an access point associated with the electronic device, a frame with management information that enables the electronic device to use a spatial-reuse technique, where the electronic device, through the spatial-reuse technique, adjusts a transmit power and a channel-availability sensing threshold. Moreover, the management information may specify parameters for the spatial-reuse technique. Then, the electronic device may transmit, using the spatial-reuse technique, one or more frames to the access point based on the parameters. Furthermore, the electronic device may transmit, to the access point, feedback information that indicates communication performance during the communication between the electronic device and the access point. For example, the feedback information may include a retry rate and, more generally, communication-performance information. This feedback information may be used by the access point to modify the parameters.

A system for determining and optimizing wireless network performance of a network having at least two access points comprises a plurality of wireless instruments configured to send, receive, and measure received wireless signals in a monitored area. The system further comprises a master controller in communication with the wireless instruments to form a distributed wireless network testing solution. The master controller is configured to send wireless signals to and receive wireless signals from the wireless instruments, measure the received wireless signals, and perform an analysis of the wireless signals to determine a radio frequency environment performance of the distributed wireless network based at least in part on the wireless signals.