ASUSTeK Computer Inc.

Taipei, Taiwan

ASUSTeK Computer Inc.

Taipei, Taiwan
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Methods and apparatuses for implementing reference signal transmissions in a wireless communication system. According to one method, the UE receives a downlink transmission burst from a base station in a first unlicensed channel. The UE also receives an information in a second channel, wherein the information defines whether a subframe is an end subframe of the downlink transmission burst in the first unlicensed channel. The UE determines whether or not to receive a control message, data, or a reference signal from a next frame in the first unlicensed channel. The UE receives the control message, data, or the reference signal from the next frame in the first unlicensed channel if the information indicates that the subframe is not the end subframe of the downlink transmission burst. Alternatively, the UE refuses to receive the control message, data, or the reference signal from the next frame in the first unlicensed channel if the information indicates that the subframe is the end subframe of the downlink transmission burst.


Methods and apparatuses for implementing reference signal transmissions in a wireless communication system. According to one method, the UE receives a downlink transmission burst from a base station in a first unlicensed channel (1305). The UE also receives an information in a second channel, wherein the information defines whether a subframe is an end subframe of the downlink transmission burst in the first unlicensed channel (1310). The UE determines whether or not to receive a control message, data, or a reference signal from a next frame in the first unlicensed channel (1315). The UE receives the control message, data, or a reference signal from the next frame in the first unlicensed channel if the information indicates that the subframe is not the end subframe of the downlink transmission burst (1320). Alternatively, the UE refuses to receive the control message, data, or the reference signal from the next frame in the first unlicensed channel if the information indicates that the subframe is the end subframe of the downlink transmission burst.


Patent
ASUSTeK COMPUTER INC. | Date: 2017-01-10

A method of manufacturing a battery is provided. The steps are as follows: forming an anode material and a cathode material on a first side and a second side of an isolation film, respectively, wherein the first side is opposite to the second side; forming a first protection layer on the first side of the isolation film; forming a first metal layer on the second side of the isolation film; forming a second protection layer on the first metal layer; removing the first protection layer; forming a second metal layer on the first side of the isolation film; and removing the second protection layer.


Patent
ASUSTeK COMPUTER INC. | Date: 2017-01-16

A method for manufacturing a current collector layer is provided. The method comprises: forking a release layer on a surface of a film; forming an adhesive layer on the release layer; forming a metal layer on the adhesive layer; and removing the film and the release layer.


A method and apparatus are disclosed for latency reduction of device-to-device message in a wireless communication system. In one embodiment, the method includes the UE receiving a grant on a first interface wherein the grant indicates resource for transmitting scheduling information and resources for data transmission on a second interface. The method also includes the UE transmitting a first scheduling information on the second interface in a first specific timing interval and transmits a second scheduling information on the second interface in a second specific timing interval, wherein the timing difference between the second specific timing and the first specific timing is indicated by the grant, and wherein the first scheduling information indicates a first timing offset between the first scheduling information transmission and the data transmission, and the second scheduling information indicates a second timing offset between the second scheduling information transmission and the data transmission, and the first timing offset is different from the second timing offset.


A method and apparatus for triggering radio bearer release by a relay UE in a wireless communication system are disclosed. Preferably, the method includes the relay UE connects with an eNB. The method also includes the relay UE establishes a PDN connection for supporting traffic relaying. The method further includes the relay UE establishes a layer-2 link with a remote UE. In addition, the method includes the relay UE creates a radio bearer between the relay UE and the eNB for forwarding data packets between the remote UE and a PDN corresponding to the PDN connection. Furthermore, the method includes the relay UE sends a NAS message to the eNB if a failure of the layer-2 link is detected. And the method includes the relay UE receives a RRC message indicating release of the radio bearer in response to transmission of the NAS message from the eNB.


A method and apparatus are disclosed for a relay UE to receive packets from an eNB where the relay UE acts as a relay for forwarding the packets between a remote UE and the eNB. The method includes the relay UE connecting with the eNB (2005). The method further includes the relay UE being configured with a radio bearer between the relay UE and the eNB (2010). The method also includes the relay UE receiving a downlink packet on the radio bearer from the eNB, wherein the downlink packet is to be transmitted to the remote UE (2015). In addition, the method includes the relay UE not transmitting any resource request to the eNB for requesting a SL grant for transmission of a sidelink packet including the downlink packet when the sidelink packet becomes available for transmission and there is currently no data available for transmission to the remote UE (2020). Furthermore, the method includes the relay UE receiving the SL grant from the eNB (2025). Also, the method includes the relay UE using the SL grant to transmit the sidelink packet to the remote UE (2025).


A method and apparatus for triggering solving mismatch between sidelink BSR and available sidelink transmission in a wireless communication system are disclosed. The method includes a relay UE establishing a first layer-2 link and a second layer-2 link between the relay UE and a remote UE, wherein the first layer-2 link and the second layer-2 link have two different source identities and a same destination identity (2005; 2205). The method further includes the relay UE receiving a sidelink grant from an eNB (2010; 2210). The method further includes the relay UE using the sidelink grant to serve the first layer-2 link and the second layer-2 link (2015).


A method and apparatus are disclosed for latency reduction of device-to-device message in a wireless communication system. In one embodiment, the method includes the UE receiving a grant on a first interface wherein the grant indicates resource for transmitting scheduling information and resources for data transmission on a second interface (1105). The method also includes the UE transmitting a first scheduling information on the second interface in a first specific timing interval (1110) and transmits a second scheduling information on the second interface in a second specific timing interval (1115) wherein the timing difference between the second specific timing and the first specific timing is indicated by the grant and wherein the first scheduling information indicates a first timing offset between the first scheduling information transmission and the data transmission, and the second scheduling information indicates a second timing offset between the second scheduling information transmission and the data transmission, and the first timing offset is different from the second timing offset.


Patent
ASUSTek Computer Inc. | Date: 2017-06-28

A display device comprises a display unit and a display supporting unit. The display supporting unit includes a base including a body and at least three stands. The bottom of the body includes a center hole. The stands are connected to the body. A support arm, an end of the support arm is sleeved on the base. A light emitting unit is disposed at the support arm adjacent to the base. A light cover is disposed at the support arm between the light emitting unit and the center hole of the body.

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