Technologies directed to reducing medium access contention within a wireless network are described. One method includes a first wireless device (e.g., an access point (AP) or mesh station) receiving first data with a first schedule from a second wireless device. Both wireless devices operate on a first channel or an adjacent channel in a wireless network. The first schedule defines a first interval during which the second wireless device transmits or receives frames on the first channel or the second channel. The first wireless device generates a second schedule that defines a second interval during which the first wireless device transmits or receives frames on the first or second channels, the second interval being non-overlapping with the first interval. First wireless device sends second data with the second schedule to the second AP device and communicates a data frame with a device connected to the first wireless device according to the second schedule.

Apparatuses, methods, and systems are disclosed for determining a beam for preamble transmission. One apparatus includes a processor that determines a beam from multiple beams for preamble transmission. In response to the multiple beams including one or more beams configured with a contention-free resource, the one or more beams configured with a contention-free resource have a higher priority than other beams of the multiple beams.

Apparatuses, methods, and systems are disclosed for determining a beam for preamble transmission. One apparatus includes a processor that determines a beam from multiple beams for preamble transmission. In response to the multiple beams including one or more beams configured with a contention-free resource, the one or more beams configured with a contention-free resource have a higher priority than other beams of the multiple beams.

A channel access method and apparatus are disclosed. The channel access method by an access point (AP) having a sector antenna in a wireless local access network (WLAN), may include transmitting a sector beacon with respect to any one sector among a plurality of sectors, transmitting and receiving data with at least one station in any one sector during a pre-scheduled sector interval, sequentially performing transmission of the sector beacon and transmission and reception of the data with respect to remaining sectors of the plurality of sectors excluding the any one sector, transmitting an omni beacon with respect to all of the plurality of sectors, and transmitting and receiving data with respect to at least one station of the plurality of sectors during a pre-scheduled Basic Service Set (BSS) interval.

A channel access method and apparatus are disclosed. The channel access method by an access point (AP) having a sector antenna in a wireless local access network (WLAN), may include transmitting a sector beacon with respect to any one sector among a plurality of sectors, transmitting and receiving data with at least one station in any one sector during a pre-scheduled sector interval, sequentially performing transmission of the sector beacon and transmission and reception of the data with respect to remaining sectors of the plurality of sectors excluding the any one sector, transmitting an omni beacon with respect to all of the plurality of sectors, and transmitting and receiving data with respect to at least one station of the plurality of sectors during a pre-scheduled Basic Service Set (BSS) interval.

Techniques for supporting variable channel bandwidths in a wireless communications network are described. In one embodiment, for example, an apparatus may comprise a processor circuit and a communications management module, and the communications management module may be operable by the processor circuit to determine a channel bandwidth for communication over a channel of a wireless network, transmit a beamforming initiation message comprising a channel bandwidth parameter indicating the determined channel bandwidth, receive a beamforming initiation confirmation message confirming the channel bandwidth parameter, perform a beamforming training sequence to determine one or more beamforming parameters, and transmit one or more messages over the channel according to the determined channel bandwidth and the one or more beamforming parameters. Other embodiments are described and claimed.

An example technique may include controlling receiving, by a user device from a serving cell, a first control information including a scheduling grant that identifies a resource to be used for communication between the user device and the serving cell, controlling receiving, by the user device, at least a part of a second control information from one or more other cells that are not serving the user device, and determining, by the user device, whether or not to reject the scheduling grant from the serving cell based on at least the first control information received from the serving cell and the part of the second control information received from the one or more other cells that are not serving the user device.

According to one embodiment, a wireless communication device, includes a receiver configured to receive a first field, receive at least one of a plurality of second fields having been multiplexed and transmitted, and decode the one of the second fields to obtain a frame in a case where first information identifying the wireless communication device is not set in the first field, and a controller configured to suppress access to a wireless medium during a period indicated by a value set in the frame.

According to one embodiment, a wireless communication device, includes a receiver configured to receive a first field, receive at least one of a plurality of second fields having been multiplexed and transmitted, and decode the one of the second fields to obtain a frame in a case where first information identifying the wireless communication device is not set in the first field, and a controller configured to suppress access to a wireless medium during a period indicated by a value set in the frame.

According to one embodiment, a wireless communication device includes a transmitter configured to transmit a first field containing information to identify a plurality of wireless communication terminals, and configured to multiplex and transmit a plurality of second fields in each of which a first frame containing an address of any of the wireless communication terminals is set; and a controller configured to determine, for the first frames, values pertaining to lengths of durations to suppress access to a wireless medium to the wireless communication terminal having an address different from the address contained in each of the first frames. The transmitter is configured to set the values in the first frames, the second fields, or the first field. The controller is configured to determine the values so that the durations have an end at an identical time.