IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0123181
(2008-05-19)
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등록번호 |
US-8155017
(2012-04-10)
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발명자
/ 주소 |
- Bolgiano, Duane Ridgely
- LaVean, Gilbert E.
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출원인 / 주소 |
- InterDigital Technology Corporation
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
93 |
초록
▼
A plurality of antennas transmit a first spread spectrum signal having an associated code. The first spread spectrum signal is received at the wireless user. For each received first spread spectrum signal, a second spread spectrum signal is transmitted having an associated code having a same phase a
A plurality of antennas transmit a first spread spectrum signal having an associated code. The first spread spectrum signal is received at the wireless user. For each received first spread spectrum signal, a second spread spectrum signal is transmitted having an associated code having a same phase as that received first spread spectrum signal. The second spread spectrum signals are received at the plurality of antennas. A distance measurement is determined between each antenna and the wireless user based on in part a received timing of the second signals. The wireless user's location is determined based on in part the distance determinations.
대표청구항
▼
1. A method for use in a subscriber unit, the method comprising: receiving, at the subscriber unit, at a first time of arrival, a first signal from a first antenna;receiving, at the subscriber unit, at a second time of arrival, a second signal from a second antenna;determining, at the subscriber uni
1. A method for use in a subscriber unit, the method comprising: receiving, at the subscriber unit, at a first time of arrival, a first signal from a first antenna;receiving, at the subscriber unit, at a second time of arrival, a second signal from a second antenna;determining, at the subscriber unit, a difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna; andtransmitting, by the subscriber unit, to the first antenna or the second antenna, a third signal carrying information indicating the determined difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna, wherein the third signal is spread coded. 2. The method of claim 1, wherein the first signal from the first antenna is encoded with a first pseudorandom code and the second signal from the second antenna is encoded with a second pseudorandom code. 3. The method of claim 2, wherein a portion of the first signal from the first antenna encoded with the first pseudorandom code arrives at the subscriber unit a number of chips before a portion of the second signal from the second antenna encoded with the second pseudorandom code, wherein the number of chips corresponds to the difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna. 4. The method of claim 1, wherein the first signal from the first antenna carries data and the second signal from the second antenna carries data. 5. The method of claim 1, further comprising: determining a location of the subscriber unit in response to determining the difference between the first time of arrival of the first signal and the second time of arrival of the second signal;displaying the location of the subscriber unit, wherein the location of the subscriber unit is based on the determined difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna. 6. The method of claim 1, further comprising: determining a location of the subscriber unit in response to determining the difference between the first time of arrival of the first signal and the second time of arrival of the second signal;generating an audible signal, wherein the audible signal indicates the location of the subscriber unit that is based on the determined difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna. 7. The method of claim 1, further comprising: determining a location of the subscriber unit in response to determining the difference between the first time of arrival of the first signal and the second time of arrival of the second signal;displaying directions for reaching a destination address based on the determined difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna. 8. The method of claim 7, further comprising modifying the directions in response to changes in traffic congestion. 9. The method of claim 1, further comprising: determining a location of the subscriber unit in response to determining the difference between the first time of arrival of the first signal and the second time of arrival of the second signal;displaying a destination address based on the determined difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna. 10. A code division multiple access (CDMA) subscriber unit comprising: a subscriber unit antenna configured to receive a first signal from a first antenna at a first time of arrival, and to receive a second signal from a second antenna at a second time of arrival; anda receiver, coupled to the subscriber unit antenna and a circuit, configured to receive and forward both the first signal from the first antenna and the second signal from the second antenna to the circuit;wherein the circuit is configured to determine a difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna;wherein the circuit is further configured to transmit, via the subscriber unit antenna, to the first base antenna or the second antenna, a spread coded third signal carrying information indicating the determined difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna. 11. The CDMA subscriber unit of claim 10, wherein the first signal from the first antenna is encoded with a first pseudorandom code and the second signal from the second antenna is encoded with a second pseudorandom code. 12. The CDMA subscriber of claim 11, wherein a portion of the first signal from the first antenna encoded with the first pseudorandom code arrives at the subscriber unit a number of chips before a portion of the second signal from the second antenna encoded with the second pseudorandom code, wherein the number of chips corresponds to the difference between the first time of arrival of the first signal from the first antenna and the second times of arrival of the second signal from the second antenna. 13. The CDMA subscriber unit of claim 10, wherein the first signal from the first antenna carries data and the second signal from the second antenna carries data. 14. The CDMA subscriber unit of claim 10 further comprising: wherein the circuit is further configured to determine a location of the subscriber unit in response to determining the difference between the first time of arrival of the first signal and the second time of arrival of the second signal; anda display configured to display a location of the subscriber unit, wherein the location of the subscriber unit is based on the determined difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna. 15. The CDMA subscriber unit of claim 10 further comprising: wherein the circuit is further configured to determine a location of the subscriber unit in response to determining the difference between the first time of arrival of the first signal and the second time of arrival of the second signal; anda speaker configured to generate an audible signal, wherein the audible signal indicates the location of the subscriber unit that is based on the determined difference between the first time of arrival of the first signal from the first antenna and the second time of arrival of the second signal from the second antenna. 16. The CDMA subscriber unit of claim 10 further comprising: wherein the circuit is further configured to determine a location of the subscriber unit in response to determining the difference between the first time of arrival of the first signal and the second time of arrival of the second signal; anda display configured to display directions for reaching a destination address based on the determined difference between the first time of arrival of the first signal and the second time of arrival of the second signal. 17. The CDMA subscriber unit of claim 16, wherein the display is configured to modify the directions in response to changes in traffic congestion. 18. The CDMA subscriber unit of claim 10 further comprising: wherein the circuit is further configured to determine a location of the subscriber unit in response to determining the difference between the first time of arrival of the first signal and the second time of arrival of the second signal; anda display configured to display directions for reaching a destination address based on the determined difference between the first time of arrival of the first signal and the second time of arrival of the second signal. 19. A code division multiple access (CDMA) subscriber unit comprising: a subscriber unit antenna configured to receive a first signal from a first antenna which has been spread coded via a first pseudorandom code and a second signal from a second antenna which has been spread coded via a second pseudorandom code; anda receiver, coupled to the subscriber unit antenna and a circuit, configured to receive and forward both the first signal from the first antenna which has been spread coded via a first pseudorandom code and the second signal from the second antenna which has been spread coded via the second pseudorandom code;wherein the circuit is configured to determine a difference in chips between a first arrival time of a portion of the first signal and a second arrival time of a portion of the second signal;wherein the circuit is further configured to transmit, via the subscriber unit antenna, to the first antenna or the second antenna, a spread coded third signal carrying information indicating the determined difference between the first arrival time of the portion of the first signal from the first antenna and the second arrival time of the second signal from the second antenna. 20. The CDMA subscriber unit of claim 19 further comprising: wherein the circuit is further configured to determine a location of the subscriber unit in response to determining the difference in chips between the first time of arrival of the portion of the first signal from the first antenna and the second time of the portion of the second signal from the second antenna; anda display configured to display a location of the subscriber unit, wherein the location is based on the determined difference between the first time of arrival of the portion of the first signal from the first antenna and the second time of arrival of the portion of the second signal from the second antenna. 21. The CDMA subscriber unit of claim 19 further comprising: wherein the circuit is further configured to determine a location of the subscriber unit in response to determining the difference in chips between the first time of arrival of the portion of the first signal from the first antenna and the second time of arrival of the portion of the second signal from the second antenna; anda speaker configured to generate an audible signal, wherein the audible signal indicates a location of the subscriber unit that is based on the determined difference between the first time of arrival of the portion of the first signal from the first antenna and the second time of arrival of the portion of the second signal from the second antenna. 22. The CDMA subscriber unit of claim 19 further comprising: wherein the circuit is further configured to determine a location of the subscriber unit in response to determining the difference in chips between the first time of arrival of the portion of the first signal from the first antenna and the second time of arrival of the portion of the second signal from the second antenna; anda display configured to display directions for reaching a destination address based on the determined difference between the first time of arrival of the portion of the first signal from the first antenna and the second time of arrival of the portion of the second signal from the second antenna. 23. The CDMA subscriber unit of claim 22, wherein the display is configured to modify the directions in response to changes in traffic congestion. 24. The CDMA subscriber unit of claim 19 further comprising: wherein the circuit is further configured to determine a location of the subscriber unit in response to determining the difference in chips between the first time of arrival of the portion of the first signal from the first antenna and the second time of the portion of the second signal from the second antenna; anda display configured to display a destination address based on the determined difference between the first time of arrival of the portion of the first signal from the first antenna and the second time of arrival of the portion of the second signal from the second antenna. 25. The CDMA subscriber unit of claim 19, wherein the first signal from the first antenna carries data and the second signal from the second antenna carries data.
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