RU2000131619A

RU2000131619A - ACCIDENTAL ACCESS IN MOBILE COMMUNICATION SYSTEM

Info

Publication number: RU2000131619A
Application number: RU2000131619/09A
Authority: RU
Inventors: Георг ФРАНК; Вольфганг ГРАНЦОВ; Мария ГУСТАФССОН; Хенрик ОЛОФССОН; Фредрик ОВЕШЕ
Original assignee: Телефонактиеболагет Лм Эрикссон (Пабл)
Priority date: 1998-05-15
Filing date: 1999-05-07
Publication date: 2003-01-27

Claims

1. A frame structure for a random access channel in a mobile communication system comprising a preamble comprising at least one signature and a data part comprising a control section and a data section, said at least one signature indicating a plurality of codes for spreading over the said section the control and said data section, wherein said plurality of codes includes a first code for spreading the said control section and at least one second code for spreading the order yanutogo data section.

2. The frame structure according to claim 1, characterized in that said first code and said at least one second code are orthogonal to each other.

3. A frame structure for a random access channel in a mobile communication system comprising a preamble comprising at least one signature and a data part comprising a control section and a data section, said at least one signature indicating a plurality of codes for spreading over the said section the control and said data section, wherein said plurality of codes includes a second plurality of codes for spreading the spectrum of said data section, each of said second plurality of codes Knit with a plurality of spreading factors for the spectrum or with an appropriate coefficient of expansion over the spectrum.

4. The frame structure according to claim 1, characterized in that each of said first code and at least one second code is associated with a sub-tree of code tree.

5. The frame structure according to claim 3, characterized in that each of said second plurality of codes is associated with the same branch of the sub-tree of the code tree.

6. A frame structure for a random access channel in a mobile communication system comprising a preamble, a data part and a protection part between said preamble and said data part.

7. The frame structure according to claim 6, characterized in that said preamble is modulated by a pre-selected signature combination.

8. The frame structure of claim 6, wherein said preamble is modulated by a signature combination randomly selected from a plurality of orthogonal codes.

9. The frame structure of claim 6, wherein the mobile communication system comprises a code division multiple access (CDMA) system.

10. The frame structure of claim 6, wherein said data portion includes user data and at least one pilot symbol.

11. The frame structure according to claim 6, characterized in that said data part includes user data and does not include pilot symbols.

12. The frame structure according to claim 11, characterized in that said user data is transmitted in-phase (I) or quadrature (Q) channel.

13. The frame structure according to claim 6, characterized in that the signature detection and distribution of the taps of the multi-tap receiver are performed during the time interval associated with the said guard interval.

14. The frame structure of claim 10, wherein said at least one pilot symbol is transmitted on a common mode (I) or quadrature (Q) channel.

15. The frame structure according to claim 6, characterized in that said data part includes a speed indicator.

16. The frame structure of claim 15, wherein said speed indicator is associated with a predetermined data rate and at least one of a pre-selected set of signature combinations.

17. The frame structure according to claim 15, characterized in that said speed indicator is included in the control part of the random access channel.

18. The frame structure of claim 17, wherein said speed indicator is included at the beginning of said control part.

19. The frame structure according to claim 17, characterized in that said speed indicator is distributed within said control part.

20. The frame structure of claim 15, wherein said speed indicator is associated with a data part having a variable or predetermined length.

21. The frame structure according to claim 6, characterized in that the transmission rate for the random access channel is associated with a predefined spectrum spreading factor.

22. The frame structure of claim 6, wherein said data portion is spread over a spectrum using a predetermined code associated with a predetermined mobile station.

23. The frame structure of claim 6, wherein said data portion is spread over a spectrum using a predetermined code associated with a plurality of mobile stations.

24. The frame structure of claim 23, wherein said random access channel control portion is spread out using a first spreading code, and said data portion is spread out using a second spreading code, wherein the first spreading code is orthogonal to the second spreading code.

25. The frame structure of claim 24, wherein each of said first and second extension codes is associated with a sub-tree of code tree.

26. The frame structure according to claim 6, characterized in that the data portion of the random access channel is essentially identical in structure to the specialized physical channel in the mobile communication system.

27. The frame structure according to claim 6, characterized in that said guard interval is zero.

28. A system for use in detecting a random access request in a CDMA system, comprising a random access detection unit (102), at least one search unit (104), the system input being connected to said random access detection unit (102) and to at least one search unit (104), a control unit (106), the output of said random access detection unit and said at least one search unit being connected to said control unit, and a multi-tap receiver unit (108), the output being mentioned of the control unit and the input of the said system are connected to the multi-tap receiver unit, and the output of the control unit includes a serial number for the detected signature combination, a channel delay estimate and a channel estimate value.

29. The system of claim 28, wherein said multi-tap receiver unit comprises a plurality of components (108a - 108n) of the multi-tap receiver.

30. A method for use in detecting a random access request in a CDMA system, comprising the steps of detecting (102) a random access request in a random access channel, searching for (104) propagation delay in a traffic channel associated with said random access channel, and providing a result obtained on the detection step and the search step, in the control unit (106), assigning, in response to the supplying step, the said control unit at least one component (108) of the multi-tap receiver unit to demodulate the request luchaynogo access, wherein the assigning step comprises feeding at least one RAKE receiver unit component control signal including a sequence number for a detected signature combination, the delay estimation in the channel and channel estimation value.

31. A random access frame structure transmitted over a random access channel from a mobile device to a mobile communication system, said random access frame structure comprising a preamble, a data part and a protection part between said preamble and said data part, the protection part providing for interruption of transmissions between the mobile device and mobile communication system.

32. The structure of the random access frame according to p. 31, characterized in that the said protective part additionally provides synchronization of the structure of the random access frame to match the time frame diagram of the frame of the mobile communication system.

33. The structure of the random access frame according to p. 32, characterized in that the preamble is made with multiplexing in-phase (I) and quadrature (Q) channels.

34. The structure of the random access frame according to p. 31, characterized in that the data part includes user data and at least one pilot symbol.

35. The structure of the random access frame according to p. 31, characterized in that the data part includes a speed indicator associated with a predetermined data rate and at least one of a pre-selected set of signature combinations.

36. The structure of the random access frame according to p. 31, characterized in that said random access channel control part is spread out using a first spreading code, and said data part is spread out using a second spreading code, and the first spreading code is orthogonal to the second code extensions.

37. A random access frame structure transmitted over a random access channel from a mobile device to a mobile communication system, said random access frame structure comprising an I / Q multiplexed preamble modulated by a preselected signature combination, a data part and a protection part between said I / Q a multiplexed preamble and said data part, wherein the protective part allows the I / Q multiplexed preamble to be detected by the mobile communication system before the receipt of the part yes GOVERNMENTAL for less buffering and minimizing random access delay.

38. The structure of the random access frame according to claim 37, wherein said data part is essentially identical in structure to the portion of the specialized physical uplink channel in the mobile communication system, wherein the frame structures for the random access channel and the specialized physical uplink channel are compatible .

39. A mobile communication system comprising a mobile device for transmitting a random access frame structure on a random access channel and a base station for receiving a random access frame structure, said random access frame structure including a preamble, a data part and a protection part between said preamble and said part of the data, and the protective part provides interruption of transmissions between the mobile device and the mobile communication system.

40. The mobile communication system according to claim 39, characterized in that said protective part provides detection of the preamble by the base station before receipt of said data part to provide less buffering and minimize random access delay.

41. The mobile communication system according to claim 40, characterized in that the preamble is I / Q-multiplexed and ensures compatibility of the frame structure of the random access scheme and the uplink channel scheme in a mobile communication system.

42. The mobile communication system according to claim 39, wherein said data part includes a speed indicator associated with a predetermined transmission rate and at least one of a pre-selected set of signature combinations.

43. The mobile communication system of claim 39, wherein said random access channel control portion is spread out using a first spreading code, and said data portion is spread out using a second spreading code, wherein the first spreading code is orthogonal to the second spreading code .

44. A random access frame structure transmitted over a random access channel from a mobile device to a mobile communication system, said random access frame structure comprising a preamble, a data part and a protective part between said preamble and said data part, with an interval corresponding to the protective part, no data is transferred between the mobile device and the mobile communication system.

45. The structure of the random access frame according to claim 39 or 44, characterized in that the said protective part additionally provides synchronization of the structure of the random access frame for combining it with the time frame diagram of the frame of the mobile communication system.

46. The structure of the random access frame according to claim 39 or 44, characterized in that the preamble is I / Q-multiplexed.

47. The structure of the random access frame according to claim 44, wherein said data part includes user data and at least one pilot symbol.

48. The structure of the random access frame according to claim 44, wherein said data part includes a speed indicator associated with a predetermined data rate and at least one of a pre-selected set of signature combinations.

49. The structure of the random access frame according to claim 44, wherein said random access channel control portion is spread out using a first spreading code, and said data portion is spread out using a second spreading code, wherein the first spreading code is orthogonal to the second code extensions.