Spread spectrum communication device and spread spectrum communication method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-007/216
H04Q-007/00
H04J-003/16
H04J-003/22
H04K-001/02
출원번호
US-0424611
(2000-02-14)
우선권정보
JP-0080031 (1998-03-26)
국제출원번호
PCT/JP99/01073
(1999-03-05)
국제공개번호
WO99/49609
(1999-09-30)
발명자
/ 주소
Yano, Yasuhiro
Murai, Hideshi
출원인 / 주소
Mitsubishi Denki Kabushiki Kaisha
대리인 / 주소
Oblon, Spivak, McClelland, Maier & Neustadt, P.C.
인용정보
피인용 횟수 :
11인용 특허 :
24
초록▼
In a compressed mode, a spread spectrum communication device interleaves bit units across multiple frames using an interleaver, reduces the spreading factor using a framing/spreading unit, outputs the compressed mode frames at a predetermined compressed mode frame timing, and increases the average t
In a compressed mode, a spread spectrum communication device interleaves bit units across multiple frames using an interleaver, reduces the spreading factor using a framing/spreading unit, outputs the compressed mode frames at a predetermined compressed mode frame timing, and increases the average transmission power in the compressed mode at a radio frequency transmitter. Furthermore, a handover between different frequencies is carried out by establishing synchronization to another frequency carrier, based on a first search code and a second search code which have been detected, and moreover, a handover between different communication systems is carried out by establishing synchronization to a GSM, based on an FCCH and a SCH which have been detected.
대표청구항▼
In a compressed mode, a spread spectrum communication device interleaves bit units across multiple frames using an interleaver, reduces the spreading factor using a framing/spreading unit, outputs the compressed mode frames at a predetermined compressed mode frame timing, and increases the average t
In a compressed mode, a spread spectrum communication device interleaves bit units across multiple frames using an interleaver, reduces the spreading factor using a framing/spreading unit, outputs the compressed mode frames at a predetermined compressed mode frame timing, and increases the average transmission power in the compressed mode at a radio frequency transmitter. Furthermore, a handover between different frequencies is carried out by establishing synchronization to another frequency carrier, based on a first search code and a second search code which have been detected, and moreover, a handover between different communication systems is carried out by establishing synchronization to a GSM, based on an FCCH and a SCH which have been detected. he step of starting said reserved time period at the latest at a time interval after transmission of said permit corresponding to a processing delay in said terminal for receiving said permit and starting transmission of a data packet in response to said permit. 4. The method of claim 3, further comprising the steps of: when the time interval corresponding to said processing delay elapses before all data in the frame containing said permit is transmitted, determining the priority between a data packet destined for said terminal and a transmission permit destined for said terminal, wherein if said transmission permit takes priority, delaying transmission of said data packet. 5. The method of claim 1, further comprising the step of: when a frame of downstream data contains a permit for one terminal, sending the remaining data to at least one other terminal. 6. The method of claim 1, further comprising the step of setting the duration of said served time period to correspond at least to the maximum delay in said terminal for transmitting a data packet in response to saidpermit. 7. The method of claim 1, wherein some timeslots in said downstream data stream are designated for transmitting scheduled transmission permits to at least one terminal, said method further comprising the step of: for each permit scheduled for a terminal, reserving a further time period in said downstream data stream as blocked for data transmission destined for said terminal, said further reserved time period terminating prior to the timeslot for said scheduled permit and having a duration such that said scheduled permit arrives at said terminal after said terminal has terminated transmission of a data packet in response to a previously received permit. 8. The method of claim 7, wherein the duration of said further time period corresponds essentially to the maximum transmission time for a data packet and the transmission time for the permit. 9. The method of claim 7, further comprising the step of commencing said further blocked time period at a time prior to the timeslot for said scheduled permit that corresponds to the sum of a processing delay in said terminal for commencing transmission of a data packet after receipt of a permit and the maximum transmission time of a data packet. 10. A method of controlling data communication between a central node and a plurality of terminals connected to said central node through at least one transmission medium, wherein said central node transmits frames of data downstream to said terminals in timeslots and said terminals transmit data upstream in timeslots allocated by said central node, said downstream data including transmission permits allocating timeslots in said upstream data stream, said method comprising the steps of: sending delay requests to said terminals; receiving responses from said terminals and determining delays indicative of the time required for each terminal to commence transmitting data after receipt of a transmission permit, for each terminal recording said processing time as a first delay; noting a second delay corresponding to the maximum transmission time of a data packet; and upon transmitting a permit to each terminal, reserving a time period in the future downstream data during which no data is transmitted to said terminal, said time period terminating after the sum of said first and second delays. 11. The method of claim 10, further comprising the step of commencing said time period at the latest after said first delay after transmitting said permit. 12. An arrangement for controlling communication between a central node and multiple terminals connected to said central node via a transmission medium, wherein said central node transmits frames of data downstream to said terminals in timeslots and said terminals transmit data packets upstream to said central node in timeslots allocated by transmission permits contained in said downstream data, said arrangement comprising : means for selecting transmission permits and data packets for transmission in each timeslot to said terminals; means for storing a schedule of said downstream transmission timeslots, wherein for each terminal, said schedule is blocked for a time period after transmission of a permit to said terminal, said time period terminating at an interval after transmission of said permit corresponding to the delay in said terminal for receiving said permit and outputting a data packet in response to said permit, and wherein said selecting means are adapted to consult said storage means and select transmission permits and data packets for terminals that are not blocked for a current time slot. 13. The arrangement of claim 12, wherein said time period has a duration that corresponds at least to the maximum time required by said terminal to transmit a data packet in response to said transmission permit. 14. The arrangement of claim 12, further comprising: means for storing a processing delay for each terminal, said processing delay corresponding essentially to the time required by a terminal to commence transmission of a data packet after receipt of a transmission permit, wherein said blocked time period commences at the latest after a delay corresponding essentially to the processing delay for said terminal. 15. The arrangement of claim 12, wherein said schedule storage means designates at least some time slots for scheduled permits, and further comprising the step of means for blocking a second time period from transmission of data to a terminal prior to a timeslot containing a scheduled permit for said terminal. 16. The arrangement of claim 15, wherein for each terminal said second time period corresponds essentially to the transmission delay of a data packet. 17. The arrangement of claim 15, wherein for each terminal said second time period commences at a time prior to the timeslot for said scheduled permit that corresponds essentially to the processing delay in said terminal for commencing transmission of a data packet after receipt of a permit. 18. A packet-switched network having a central node and multiple terminals connected to said central node via a transmission medium, wherein said central node transmits frames of data downstream to said terminals in timeslots and said terminals transmit data packets upstream to said central node in timeslots allocated by transmission permits contained in said downstream data, said network being wherein said central node includes means for storing a schedule of said downstream transmission timeslots for at least one terminal and means for blocking a time period in said schedule for transmission of data to at least one terminal when sending a transmission permit to said terminal, said time period corresponding at least to the time required by said terminal to transmit a data packet in response to said transmission permit.
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