Apparatus and method for low power local area communication using event signal control
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04W-004/00
H04L-012/66
G06F-003/00
G01S-013/00
출원번호
US-0716970
(2010-03-03)
등록번호
US-8605693
(2013-12-10)
우선권정보
KR-10-2010-0000456 (2010-01-05)
발명자
/ 주소
So, Won Wook
Park, Jong Heum
Park, Young Kyu
출원인 / 주소
Samsung Electro-Mechanics Co., Ltd.
대리인 / 주소
Blakely Sokoloff Taylor & Zafman LLP
인용정보
피인용 횟수 :
5인용 특허 :
8
초록▼
Disclosed herein is an apparatus and method for low power local area communication using event signal control. The low power local area communication apparatus includes at least one coordinator and a plurality of network device. The network coordinator transmits a periodic beacon signal based on the
Disclosed herein is an apparatus and method for low power local area communication using event signal control. The low power local area communication apparatus includes at least one coordinator and a plurality of network device. The network coordinator transmits a periodic beacon signal based on the preset beacon period of a superframe and a continuous RF event signal, receives a first signal including a Service Set Identifier (SSID) and a second signal including the SSID and an event detection code, and performs the transmission or reception of data when authentication has been completed. Each of the network devices generates and transmits the first and second signals, performs the transmission and reception of data after authentication has been completed, and is thereafter switched to power saving mode or OFF mode. Accordingly, the construction of the system is simplified, and the cost of the system is reduced.
대표청구항▼
1. An apparatus for low power local area communication using event signal control, comprising: at least one network coordinator for transmitting a periodic beacon signal based on a preset beacon period of a superframe, and a continuous Radio Frequency (RF) event signal, receiving a first signal incl
1. An apparatus for low power local area communication using event signal control, comprising: at least one network coordinator for transmitting a periodic beacon signal based on a preset beacon period of a superframe, and a continuous Radio Frequency (RF) event signal, receiving a first signal including a Service Set Identifier (SSID), and a second signal including both the SSID and an event detection code, and performing transmission and reception of data when authentication has been completed; anda plurality of network devices, each being configured such that the network device detects a structure of the superframe of the received beacon signal and then generates and transmits the first signal, and such that the network device is awakened by the received RF event signal, generates and transmits the second signal, performs transmission and reception of data when authentication has been completed, and is thereafter switched to power saving mode or OFF mode;a ZigBee communication unit for receiving the periodic beacon signal based on the preset beacon period of the superframe and the continuous RF event signal, and transmitting the first signal and the second signal;a power detection unit for detecting power of the received RF event signal, and converting the RF event signal into a wake-up signal;an application interface for interfacing with an application used in the network device; anda micro control unit (MCU) configured such that the network device detects the structure of the superframe of the received beacon signal, generates and transmits the first signal, and then performs transmission and reception of data when authentication has been completed, and such that the network device is awakened by the RF event signal, generates and transmits the second signal by encoding the event detection code required to detect the RF event signal, performs transmission and reception of data when authentication has been completed, sets a wake-up time according to the beacon period of the superframe after the transmission and reception of data, and is thereafter switched to the power saving mode or OFF mode. 2. The apparatus as set forth in claim 1, wherein the network coordinator comprises: the ZigBee communication unit for periodically transmitting the beacon signal according to the preset beacon period of the superframe, and receiving the first signal and the second signal;an RF signal generation unit for continuously transmitting the RF event signal;an application interface for interfacing with an application used in the network coordinator; andthe (MCU) further configured to perform control such that the beacon signal and the RF event signal are transmitted, the first signal and the second signal are received, and authentication is performed by performing comparison and analysis on the SSID, with a result that transmission and reception of data is performed, and such that the application is operated in response to only the second signal including the event detection code. 3. The apparatus as set forth in claim 2, wherein the RF signal generation unit is an oscillator. 4. The apparatus as set forth in claim 1, wherein the network device further comprises a charging unit, the charging unit comprising: a charging circuit for charging power detected by the power detection unit; anda battery for storing the power charged by the charging circuit. 5. A method for low power local area communication using event signal control, comprising: (A) a network coordinator transmitting a periodic beacon signal based on a preset beacon period of a superframe, and a continuous RF event signal, receiving a first signal including a Service Set Identifier (SSID) and a second signal including both the SSID and an event detection code, and performing transmission and reception of data when authentication has been completed; and(B) a network device detecting a structure of the superframe of the received beacon signal and then generating and transmitting the first signal, and the network device being awakened by the received RF event signal, generating and transmitting the second signal, performing transmission and reception of data when authentication has been completed, and being thereafter switched to power saving mode or OFF mode;wherein (B) comprises:(B-1) detecting the structure of the superframe of the received beacon signal, and then generating and transmitting the first signal,(B-2) when authentication of the first signal has been completed, transmitting and receiving data through an allocated ZigBee channel,(B-3) when the transmission and reception of the data has been completed, setting a wake-up time according to the beacon period of the superframe, and performing switching to the power saving mode or OFF mode,(B-4), after (B-3), determining whether the RF event signal has been received,(B-5) if it is determined that the RF event signal has been received, converting the RF event signal into a wake-up signal, encoding the event detection code required to detect the RF event signal, and then generating and transmitting the second signal, and(B-6) when authentication of the second signal has been completed, transmitting and receiving data through the allocated ZigBee channel, and performing switching to the power saving mode or OFF mode. 6. The method as set forth in claim 5, wherein (A) comprises: (A-1) transmitting the periodic beacon signal based on the preset beacon period of the superframe and the continuous RF event signal;(A-2) receiving the first signal or the second signal, and performing authentication by performing comparison and analysis on the SSID; and(A-3) when authentication has been completed, allocating a ZigBee communication channel, and transmitting and receiving data through the channel. 7. The method as set forth in claim 6, wherein (A) further comprises (A-4) determining whether the event detection code required to detect the RF event signal has been received. 8. The method as set forth in claim 5, wherein (B) further comprises, after (B-4), (B-7) if it is determined that the RF event signal has been received, detecting power of the RF event signal and charging the power. 9. The method as set forth in claim 5, wherein (B) further comprises: (B-8), after (B-3), determining whether the set wake-up time has been reached; and(B-9) if it is determined that the set wake-up time has been reached, releasing the power saving mode or OFF mode, being awakened and receiving the beacon signal.
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