IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
UP-0252014
(2005-10-17)
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등록번호 |
US-7567826
(2009-08-05)
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우선권정보 |
JP-2004-303474(2004-10-18); JP-2005-119348(2005-04-18); JP-2005-265707(2005-09-13) |
발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Lerner, David, Littenberg, Krumholz & Mentlik, LLP
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인용정보 |
피인용 횟수 :
24 인용 특허 :
1 |
초록
▼
A wireless communication system includes plural wireless communication apparatuses which form an ad-hoc network. In the system, an operating state of each superframe of each wireless communication apparatus is determined from three operating states: an active state in which beacon signal transmissio
A wireless communication system includes plural wireless communication apparatuses which form an ad-hoc network. In the system, an operating state of each superframe of each wireless communication apparatus is determined from three operating states: an active state in which beacon signal transmission/reception and data transmission/reception are performed as necessary; a sleep state in which beacon signal transmission/reception and data transmission/reception are not performed; and a pre-receive state in which a beacon signal is received and afterward beacon signal transmission and data transmission are not performed.
대표청구항
▼
The invention claimed is: 1. A wireless communication system, comprising: a plurality of wireless communication apparatuses forming an ad-hoc network, each wireless communication apparatus having a superframe, wherein an operating state of each superframe of each wireless communication apparatus is
The invention claimed is: 1. A wireless communication system, comprising: a plurality of wireless communication apparatuses forming an ad-hoc network, each wireless communication apparatus having a superframe, wherein an operating state of each superframe of each wireless communication apparatus is determined from three operating states which are an active state in which beacon signal transmission/reception and data transmission/reception are performed as necessary, a sleep state in which beacon signal transmission/reception and data transmission/reception are not performed, and a pre-receive state in which a beacon signal is received and afterward beacon signal transmission and data transmission are not performed. 2. A wireless communication apparatus connectable to an ad-hoc network, the wireless communication apparatus comprising: a superframe, wherein an operating state of the superframe is determined from three operating states which are an active state in which beacon signal transmission/reception and data transmission/reception are performed as necessary, a sleep state in which beacon signal transmission/reception and data transmission/reception are not performed, and a pre-receive state in which a beacon signal is received and afterward beacon signal transmission and data transmission are not performed. 3. The wireless communication apparatus according to claim 2, wherein the wireless communication apparatus transitions from the sleep state to the pre-receive state in a predetermined superframe period and receives a beacon signal from an adjacent wireless communication apparatus, and at the time of transitioning to the active state according to information contained in the beacon signal, according to the beacon signal the wireless communication apparatus sets transmission timing of a beacon signal. 4. The wireless communication apparatus according to claim 3, wherein in the case where the beacon signal received in the pre-receive state contains information concerning an activation request addressed thereto, the wireless communication apparatus transitions to the active state. 5. The wireless communication apparatus according to claim 3, wherein at the time of transitioning to the active state, the wireless communication apparatus grasps a state of another wireless communication apparatus existing in an adjacent area from the beacon signal received in the pre-receive state and announces its own transmission beacon information about a transition to the active state. 6. The wireless communication apparatus according to claim 2, further comprising: a device configured to detect the presence of a wireless communication apparatus in a low power consumption mode of transitioning from the sleep state to the pre-receive state or the active state in a predetermined superframe period, out of adjacent wireless communication apparatuses; and a device configured to add information concerning the presence of the wireless communication apparatus in the low power consumption mode to a beacon signal. 7. The wireless communication apparatus according to claim 6, wherein in the case of changing a position of a beacon slot that the wireless communication apparatus transmits, the wireless communication apparatus receives the beacon signal to which the information concerning the presence of the wireless communication apparatus in the low power consumption mode is added and determines to use a beacon slot other than the beacon slot that the wireless communication apparatus in the low power consumption mode has used, as the beacon slot that the wireless communication apparatus transmits. 8. The wireless communication apparatus according to claim 2, wherein the wireless communication apparatus sets a low power consumption mode of transitioning periodically between the sleep state over a plurality of superframes and the active state over a plurality of superframes. 9. The wireless communication apparatus according to claim 8, wherein the wireless communication apparatus transitions to the pre-receive state at the time of transitioning from the sleep state to the active state, and at the time of having transitioned to the pre-receive state, the wireless communication apparatus receives a beacon signal and adjusts a superframe period with an adjacent wireless communication apparatus. 10. The wireless communication apparatus according to claim 9, wherein in the pre-receive state, the wireless communication apparatus receives a beacon signal from an adjacent wireless communication apparatus, and in the case of detecting a request addressed thereto in the received beacon signal, the wireless communication apparatus transmits a response to the request with a first beacon signal after a transition to the active state. 11. The wireless communication apparatus according to claim 8, wherein the wireless communication apparatus communicates with an adjacent wireless communication apparatus operating in the low power consumption mode, and in the case of detecting that the adjacent wireless communication apparatus is in the pre-receive state, the wireless communication apparatus describes a request to the adjacent wireless communication apparatus in a beacon signal and transmits the beacon signal prior to a transition to the active state. 12. A wireless communication apparatus connectable to an ad-hoc network, the wireless communication apparatus comprising: a superframe; an operating mode setting device configured to set an operating mode allowing an operating state of each superframe to transition at a predetermined period, wherein the operating state is determined from three operating states which are an active state in which beacon signal transmission/reception and data transmission/reception are performed as necessary, a sleep state in which beacon signal transmission/reception and data transmission/reception are not performed, and a pre-receive state in which a beacon signal is received and afterward beacon signal transmission and data transmission are not performed, and the operating mode setting device sets a low power consumption mode of transitioning from the sleep state to the pre-receive state in a predetermined superframe period. 13. A computer-readable medium storing a computer-readable program, the program being operable to implement a method for allowing a computer to function as a wireless communication apparatus connectable to an ad-hoc network, the wireless communication apparatus having a superframe, the method comprising: determining an operating state of each superframe of the wireless communication apparatus from three operating states which are an active state in which beacon signal transmission/reception and data transmission/reception are performed as necessary, a sleep state in which beacon signal transmission/reception and data transmission/reception are not performed, and a pre-receive state in which a beacon signal is received and afterward beacon signal transmission and data transmission are not performed. 14. A computer-readable medium storing a computer-readable program, the program being operable to implement a method for allowing a computer to function as a wireless communication apparatus connectable to an ad-hoc network, the wireless communication apparatus having a superframe and an operating mode setting device configured to set an operating mode allowing an operating state of the superframe to transition at a predetermined period, the method comprising: determining the operating state of each superframe from three operating states which are an active state in which beacon signal transmission/reception and data transmission/reception are performed as necessary, a sleep state in which beacon signal transmission/reception and data transmission/reception are not performed; and a pre-receive state in which a beacon signal is received and afterward beacon signal transmission and data transmission are not performed; and setting a low power consumption mode of transitioning from the sleep state to the pre-receive state in a predetermined superframe period. 15. A wireless communication apparatus constituting an ad-hoc network, the wireless communication apparatus comprising: a superframe, wherein the wireless communication apparatus sets a hibernation mode allowing a periodic transition of an operating state of each superframe between an active state in which beacon signal transmission/reception and data transmission/reception are performed as necessary, a sleep state in which beacon signal transmission/reception and data transmission/reception are not performed, and a pre-receive state in which a beacon signal is received and afterward beacon signal transmission and data transmission are not performed, the sleep state over a plurality of superframes, and the active state over a plurality of superframes. 16. A computer-readable medium storing a computer-readable program, the program being operable to implement a method for allowing a computer to function as a wireless communication apparatus connectable to an ad-hoc network, the method comprising: setting a hibernation mode allowing a periodic transition of an operating state of each superframe of the wireless communication apparatus between an active state in which beacon signal transmission/reception and data transmission/reception are performed as necessary, a sleep state in which beacon signal transmission/reception and data transmission/reception are not performed, and a pre-receive state in which a beacon signal is received and afterward beacon signal transmission and data transmission are not performed, the sleep state over a plurality of superframes, and the active state over a plurality of superframes.
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