RU96107901A

RU96107901A - METHOD FOR SIMULATING MUTUAL INTERFERENCE OF USER SIGNALS IN COMMUNICATIONS WITH AN EXTENDED SPECTRUM AND A DEVICE FOR ITS IMPLEMENTATION

Info

Publication number: RU96107901A
Application number: RU96107901/09A
Authority: RU
Inventors: С.Солиман Самир
Original assignee: Квэлкомм Инкорпорейтед
Priority date: 1994-07-13
Filing date: 1995-07-13
Publication date: 1998-07-27

Claims

1. A method of simulating an interference signal in a communication system in which information signals are transmitted to a plurality of communication channels, comprising the following operations: generating a first set of simulated users placed in a first area of a communication system that contains the required number of users transmitting signals, determining a first composite power signal corresponding to the sum of signal powers transmitted by the first set of simulated users, determining the first normalized data rate for signals transmitted by the first set of simulated users, generating a first interference signal having power based on the first power of the composite signal and the first normalized data rate.

2. The method according to claim 1, characterized in that it further comprises the steps of: generating a second set of simulated users located in a second area of the communication system that contains the second required number of users transmitting signals, determining a second composite signal power corresponding to the sum of signal powers transmitted by the second set of simulated users, determining a second normalized data rate for signals transmitted by the second set of simulated users, modifiers tion of the first interference signal in response to the second composite signal power and second normalized data rate.

3. The method according to claim 1, characterized in that the operation of generating the first interference signal comprises the steps of: generating electrical noise within a given frequency band, generating a product of the first power of the composite signal and the first normalized data rate, adjusting the power level of electrical noise in response to the meaning of the said work.

4. The method according to claim 1, characterized in that the operation of determining the first power of the composite signal comprises the steps of: determining the number of real users physically present in the first region, determining the equivalent number of users to be simulated in the first region by subtracting the number of real users from the required number of simulated users in the first set, determining the rated power of the first signal based on the equivalent number of users, generating changes in the nominal NOSTA first signal using a random variable function.

5. The method according to claim 1, characterized in that the operation of determining the first normalized data transfer rate comprises the operation of setting a set of data transfer rates for the first set of simulated users.

6. The method according to claim 1, characterized in that the operation of determining the first power of the composite signal comprises the steps of: representing changes in the signal power for signals transmitted by the first set of simulated users, a Gaussian random variable, generating a product of the nominal signal power for the first set of simulated users and a Gaussian random variable.

7. The method according to claim 1, characterized in that the operation of creating the first set of simulated users contains the following operations: determining the required full throughput of the communication system, determining the average individual load of user-connected traffic or the amount of data transferred expected for users in the first cell, selecting the average usage downloads as the number of users, reasonably based on the expected user connected traffic in the area of the first cell.

8. The method according to claim 1, characterized in that it further comprises the step of transmitting at least a second interference signal, which corresponds to simulated transmissions from areas other than the first area.

9. A method for simulating the power of an interference signal received by a base station receiver in a wireless communication system in which users exchange information signals with each other using at least one base station, which includes a base station receiver, as well as multiple access communication signals including operations: determining the first power of the composite signal corresponding to the sum of the powers for the signals transmitted by a predetermined first set of simulated users, we service x first base station, determining a first normalized data rate for signals transmitted by a first set of simulated users, generating a first interference signal having a signal power based on the first composite signal power and first normalized data rate.

10. The method according to claim 9, characterized in that it further comprises the step of supplying a first interference signal to the input of the base station receiver.

11. The method according to claim 9, characterized in that the operation of generating the first interference signal comprises the steps of: generating electrical noise in a given frequency band, adjusting the electrical noise power in accordance with the product of the first composite signal power and the first normalized data rate.

12. The method according to claim 9, characterized in that users communicate using spread spectrum communication signals in code division multiple access mode, and the base station and users are located in a first cell in a communication system, the operation of determining a first composite signal power contains operations: determining the equivalent number of remote users to be simulated, which corresponds to the difference between a predetermined total number of remote users in the first set, and the number ohms real remote users actually located in the first cell, determining a composite signal power by estimating a sum of signal power transmitted by the equivalent number of simulated remote users.

13. The method according to p. 12, characterized in that the operation of determining the first normalized data rate contains the operation of determining the first normalized data rate at which the signal power is transmitted to the equivalent numbers of simulated remote users.

14. The method of operation of a wireless communication system having a plurality of cells in which remote users transmit connected information signals using at least one base station and spread spectrum communication signals in code division multiple access mode in which one base station is located in the first cell and is equipped with a base station receiver, including operations: tracking the number of users in the first cell, determining the power level of the interference signal received the receiver of the base station, when the predetermined number of users is in the first cell, determining the equivalent number of simulated users, the corresponding difference between the predetermined number and the number of users in the first cell, supplying the first interference signal to the receiver of the base station, and the power of the interference signal depends equivalent number of simulated users.

15. The method according to 14, characterized in that the operation of supplying the first interference signal comprises the steps of: setting the power of the composite signal by estimating the power of the composite signal associated with an equivalent number of simulated users, setting the normalized data rate of the power of the composite signal.

16. The method according to claim 1, characterized in that the nominal power of the transmitted signal corresponds to the power of the transmitted signal generated in response to the average coefficient of speech activity of simulated users.

17. A system for simulating signal interference between communication channels in a communication system in which users exchange information signals with other users through a plurality of such communication channels, comprising means for receiving an electrical noise signal, control means for generating a signal controlled by noise intensity, based on the determination signal power transmitted by simulated users located in the first area of the communication system, means for adjusting the noise signal power in t to the signal noise intensity controlled.

18. The system of claim 17, wherein the control means further comprises means for determining a first normalized data rate at which signal power could be transmitted by simulated users, and the control means is configured to partially generate a signal controlled by noise intensity based on this definition.

19. The system according to 17, characterized in that the control means comprises means for determining the signal power transmitted by other simulated users located elsewhere in the communication system and the control means is designed so that the generation of a signal controlled by noise intensity is partially based on signal strength transmitted by other simulated users.

20. The system according to claim 19, characterized in that it further comprises means for transmitting a second interference signal to simulate transmissions made from areas other than the first area.

21. The system according to 17, characterized in that the communication system comprises a wireless telephone / information communication system, in which remote users are located in many cells and transmit information signals to at least one base station, which is equipped with a receiver and is located in the first cell using the spread spectrum communication signals in code division multiple access mode.

22. The system of claim 17, wherein the means for generating electrical noise comprises means for generating noise with a relatively uniform spectral density within a given frequency band.

23. The system according to 17, characterized in that the control means is configured to generate a signal controlled by the noise intensity using random variables with a Gaussian distribution generated at predetermined speeds.

24. The system of claim 23, wherein the control means comprises first means for generating a first binary sequence corresponding to a Gaussian random variable at one predetermined speed, means for filtering the first binary sequence based on an estimate of the correlation time of data signals carried by power transmitted signals.

25. The system of claim 23, wherein the control means comprises second means for generating a second binary sequence corresponding to a Gaussian random variable, at a second predetermined speed, means for filtering the second binary sequence based on average power fluctuations.

26. A system for simulating the power of an interference signal received by a base station in a cellular communication system in which users in a plurality of cells transmit information signals to each other using at least one base station in a first cell equipped with a base station receiver comprising means for receiving electrical noise signal, a control means for generating a signal controlled by noise intensity, based on the determination of the first power of the composite signal transmitted by the first set of simulated zovatele served by the base station, means for adjusting the power of electrical noise signal in accordance with a signal noise intensity controlled.

27. The system of claim 26, wherein the first set of simulated users is located in the first cell.

28. The system of claim 26, further comprising a means for determining a second composite signal power by determining the sum of signal powers transmitted by a second set of simulated users served by other base stations, means for determining a second normalized data rate at which power the signal is transmitted by a second set of users, means for generating a second interference signal based on the second composite signal power and normalized transmission rate data.

29. The system of claim 28, wherein the second set of simulated users works in cells other than the first cell.

30. The system according to p. 26, characterized in that the control means comprises a control circuit that generates a signal controlled by the noise intensity, based on the first power of the composite signal and the first normalized data rate, to which the signal power is supplied, and the means for regulation contains a transmitter control circuit connected to a noise source and a control circuit that controls the power level of electrical noise in response to a signal controlled by the noise intensity.

31. The system of claim 30, wherein the control means comprises an electronic processor element that determines the power of the composite signal.

32. The system of claim 30, wherein the control means further comprises an electronic processor element for determining a second composite signal power, which is the sum of the signal powers transmitted by the second set of simulated users not located in the first region, and the transmitter control circuit also provides generating a second interference signal based on a second composite signal power and a second normalized data rate.

33. A device for simulating an interference signal between communication channels in a communication system in which information signals are transmitted between users via a plurality of communication channels, comprising means for determining a first composite signal power corresponding to the sum of signal powers transmitted by the first set of the required number of simulated users located in the first area of the communication system, means for determining the first normalized data rate for signals transmitted by the first set are simulated user, means for generating a first interference signal with a signal power determined by the first composite signal power and the first normalized data rate.

34. The device according to p. 33, characterized in that it further comprises means for determining the second power of the composite signal corresponding to the sum of the powers of the signals transmitted by the second set of simulated users, means for determining the second normalized data rate for signals transmitted by the second set of simulated users, means for changing the first interference signal in response to a second composite signal power and a second normalized data rate.

35. The device according to p. 33, characterized in that the means for generating the first interference signal comprises an electric noise source operating in a given frequency band, means for generating a product of the first power of the composite signal and the first normalized data rate, means for adjusting the electric noise power level in response to the meaning of the work.

36. The device according to p, characterized in that the means for determining the first power of the composite signal comprises means for determining the number of valid users in the first region, means for determining the equivalent number of users to be simulated in the first region by subtracting the number of valid users from the required number of simulated users in the first set, means for determining the nominal first signal power based on an equivalent number of users, means for obtaining changes in the normalized first signal power using a random variable function.

37. A device for simulating an interference signal between communication channels in a communication system in which information signals are transmitted between users over a plurality of communication channels, comprising a power selector that provides a first composite signal power corresponding to the sum of the signal powers transmitted by the first set of the required number of simulated users, located in a communication system, a data rate generator configured to provide a first normalized data rate for signals transmitted In a first set of simulated users, a first interference signal generator connected to a power selector and a data rate generator that generates a signal with a signal power based on the first composite signal power and the first normalized data rate.

38. The device according to clause 37, wherein the first interference signal generator contains at least one electric noise generator, the output power density of which is regulated in response to the input of the control signal, at least one noise intensity controller, the output of the control signal of which is connected with the control input of the noise generator, and the inputs are connected to a power selector and a data rate generator, and the magnitude of the control signal changes in response to changes in the signal power and soon Data transfer capabilities for simulated users.

39. The device according to § 38, characterized in that it further comprises at least a second power selector that provides a second composite signal power corresponding to the sum of the signal powers transmitted by the second set of the required number of simulated users in the communication system, and a noise intensity controller configured to also receive input signals from a second power selector, and that signal generation is partially based on the power of the signal transmitted by other simulated users E.

40. The device according to § 39, wherein the second set of users is placed in an area other than the area of the first set of users.

41. The device according to claim 37, wherein the communication system is a cellular communication system in which users in a plurality of cells transmit information signals to each other using at least one base station located in the first of the cells and equipped with a base station receiver.

42. The device according to p. 37, wherein the communication system comprises a wireless telephone / information communication system in which remote users are in multiple cells and transmit information signals to at least one base station equipped with a receiver and located in the first cell, using spread-spectrum communication signals in code division multiple access mode.

43. The device according to clause 37, wherein the power and speed of the signal are generated using random variables with a Gaussian distribution generated at given speeds.

44. The device according to item 43, wherein the noise intensity controller comprises a first binary sequence generator that generates a random variable with a Gaussian distribution at one given speed, a first sequence filter connected to receive and filter the first binary sequence based on the calculated signal correlation time data carried by the power of the transmitted signals.

45. The device according to item 43, wherein the noise intensity controller comprises a second binary sequence generator generating a random variable with a Gaussian distribution at a second predetermined speed, a second sequence filter connected to receive and filter a second binary sequence based on average power fluctuations.