Embodiments of the present invention are directed to facilitating apparatus interaction. In at least one example embodiment of the present invention, apparatuses may comprise both triggered communication activities and automated communication activities. Triggered communication activities may corres
Embodiments of the present invention are directed to facilitating apparatus interaction. In at least one example embodiment of the present invention, apparatuses may comprise both triggered communication activities and automated communication activities. Triggered communication activities may correspond to, for example, user and/or application instigated actions in a wireless apparatus. Automated activities may occur without any requirement for user intervention, and further, without any notification to the user that an action has occurred.
대표청구항▼
1. A method, comprising: receiving a beacon frame at an apparatus, the received beacon frame comprising a timing signal, an associated target beacon transmission time period indication that is associated with a standard beacon period and an associated diluted beacon period indication that is associa
1. A method, comprising: receiving a beacon frame at an apparatus, the received beacon frame comprising a timing signal, an associated target beacon transmission time period indication that is associated with a standard beacon period and an associated diluted beacon period indication that is associated with a diluted beacon period corresponding to a wireless ad hoc network, the diluted beacon period having a lower frequency than a frequency of the standard beacon period;synchronizing at the apparatus, a timing signal function to the received beacon timing signal of the ad hoc network;determining, by the apparatus, whether the apparatus operates with the standard beacon period or the diluted beacon period indicated in the received beacon frame; andpreparing at the apparatus, for transmission of a beacon frame in the ad hoc network according to a time period after the received beacon frame, the time period being selected by the apparatus based on the determination by the apparatus whether the apparatus operates with the standard beacon period or the diluted beacon period, the time period being based on the diluted beacon period indication of the received beacon frame, the beacon frame to be transmitted including the target beacon transmission time indication and the associated diluted beacon period indication. 2. The method of claim 1, wherein the associated diluted beacon period indication is communicated in the beacon frame in a predefined information element. 3. The method of claim 1, wherein the associated diluted beacon period is a beaconing mode operating at a lower frequency than a standard beacon period. 4. The method of claim 1, wherein determining a mode of operation based on the timing signal function, the associated standard beacon period indication and the associated diluted beacon period indication, comprises selecting whether to be active in the network according to the timing signal or the diluted beacon period. 5. The method of claim 4, wherein being active in the network comprises contending for access to a wireless communication medium with other networked apparatuses. 6. The method of claim 1, further comprising communicating a determined mode of operation to other networked apparatuses. 7. A method, comprising: entering an apparatus to a new wireless ad hoc network creation mode;transmitting at the apparatus, one or more beacon frames, the beacon frames including a timing signal, an associated target beacon transmission time period indication that is associated with a standard beacon period and an associated diluted beacon period indication that is associated with a diluted beacon period corresponding to the wireless ad hoc network, the diluted beacon period having a lower frequency than a frequency of the standard beacon period; andreceiving at the apparatus, a beacon frame from a wireless communication device in the ad hoc network, according to a time period after the transmitted one or more beacon frames, the time period being selected by the wireless communication device based on a determination by the wireless communication device whether the wireless communication device operates with the standard beacon period or the diluted beacon period indicated in the transmitted one or more beacon frames, the time period being based on the diluted beacon period indication of the transmitted one or more beacon frames, the received beacon frame including the target beacon transmission time indication and the associated diluted beacon period indication. 8. The method of claim 7, wherein the associated diluted beacon period is a beaconing mode operating at a lower frequency than the standard beacon period. 9. A computer program product comprising computer executable program code recorded on a computer readable non-transient medium, comprising: computer program code configured to receive at an apparatus, a beacon frame comprising a timing signal, an associated target beacon transmission time period indication that is associated with a standard beacon period and an associated diluted beacon period indication that is associated with a diluted beacon period corresponding to a wireless ad hoc network, the diluted beacon period having a lower frequency than a frequency of the standard beacon period;computer program code configured to synchronize at the apparatus, a timing signal function to the received beacon timing signal of the ad hoc network;computer program code configured to determine, by the apparatus, whether the apparatus operates with the standard beacon period or the diluted beacon period indicated in the received beacon frame; andcomputer program code configured to prepare at the apparatus, for transmission of a beacon frame in the ad hoc network according to a time period after the received beacon frame, the time period being selected by the apparatus based on the determination by the apparatus whether the apparatus operates with the standard beacon period or the diluted beacon period, the time period being based on the diluted beacon period indication of the received beacon frame, the beacon frame to be transmitted including the target beacon transmission time indication and the associated diluted beacon period indication. 10. The computer program product of claim 9, wherein the associated diluted beacon period indication is communicated in the beacon frame in a predefined information element. 11. The computer program product of claim 9, wherein the associated diluted beacon period is longer than the standard beacon period. 12. A computer program product comprising computer executable program code recorded on a computer readable non-transient medium, comprising: computer program code configured to enter an apparatus to a new wireless ad hoc network creation mode;computer program code configured to transmit at the apparatus, one or more beacon frames, the beacon frames including a timing signal, an associated target beacon transmission time period indication that is associated with a standard beacon period and an associated diluted beacon period indication that is associated with a diluted beacon period corresponding to the wireless ad hoc network, the diluted beacon period having a lower frequency than a frequency of the standard beacon period; andcomputer program code configured to receive at the apparatus, a beacon frame from a wireless communication device in the ad hoc network, according to a time period after the transmitted one or more beacon frames, the time period being selected by the wireless communication device based on a determination by the wireless communication device whether the wireless communication device operates with the standard beacon period or the diluted beacon period indicated in the transmitted one or more beacon frames, the time period being based on the diluted beacon period indication of the transmitted one or more beacon frames, the received beacon frame including the target beacon transmission time indication and the associated diluted beacon period indication. 13. The computer program product of claim 12, wherein the associated diluted beacon period is a beaconing mode operating at a lower frequency than the standard beacon period. 14. An apparatus, comprising: a processor;a memory including computer program code;the memory and the computer program code configured to, with the processor, cause the apparatus at least to:receive a beacon frame comprising a timing signal, an associated target beacon transmission time period indication that is associated with a standard beacon period and an associated diluted beacon period indication that is associated with a diluted beacon period, corresponding to a wireless ad hoc network, the diluted beacon period having a lower frequency than a frequency of the standard beacon period;synchronize a timing signal function to the received beacon timing signal of the ad hoc network;determine whether the apparatus operates with the standard beacon period or the diluted beacon period indicated in the received beacon frame; andprepare for transmission of a beacon frame in the ad hoc network according to a time period after the received beacon frame, the time period being selected by the apparatus based on the determination by the apparatus whether the apparatus operates with the standard beacon period or the diluted beacon period, the time period being based on the diluted beacon period indication of the received beacon frame, the beacon frame to be transmitted including the target beacon transmission time indication and the associated diluted beacon period indication. 15. The apparatus of claim 14, wherein the associated diluted beacon period indication is communicated in the beacon frame in a predefined information element. 16. The apparatus of claim 14, wherein the associated diluted beacon period is a beaconing mode operating at a lower frequency than the standard beacon period. 17. The apparatus of claim 14, wherein determining a mode of operation based on the timing signal function, the standard beacon period indication and the diluted beacon period indication comprises selecting whether to be active in the network according to the timing signal or the diluted beacon period. 18. The apparatus of claim 17, wherein being active in the network comprises contending for access to a wireless communication medium with other networked apparatuses. 19. The apparatus of claim 14, further comprising communicating the determined mode of operation to other networked apparatuses. 20. An apparatus, comprising: a processor;a memory including computer program code;the memory and the computer program code configured to, with the processor, cause the apparatus at least to:enter an apparatus to a new wireless ad hoc network creation mode;transmit one or more beacon frames, the beacon frames including a timing signal, an associated target beacon transmission time period indication that is associated with a standard beacon period and an associated diluted beacon period indication that is associated with a diluted beacon period corresponding to the wireless ad hoc network, the diluted beacon period having a lower frequency than a frequency of the standard beacon period; andreceive a beacon frame from a wireless communication device in the ad hoc network, according to a time period after the transmitted one or more beacon frames, the time period being selected by the wireless communication device based on a determination by the wireless communication device whether the wireless communication device operates with the standard beacon period or the diluted beacon period indicated in the transmitted one or more beacon frames, the time period being based on the diluted beacon period indication of the transmitted one or more beacon frames, the received beacon frame including the target beacon transmission time indication and the associated diluted beacon period indication. 21. The apparatus of claim 20, wherein the associated diluted beacon period is a beaconing mode operating at a lower frequency than the standard beacon period.
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이 특허에 인용된 특허 (10)
Fukuzawa, Yasuko; Ishida, Shuichi; Ando, Eriko; Matsui, Susumu, Common key sharing method and wireless communication terminal in ad hoc network.
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