RU2008119910A - METHOD, MODULE, TERMINAL AND SYSTEM, ENSURING THE AGREED OPERATION OF THE RADIO FREQUENCY IDENTIFICATION SYSTEM AND WIRELESS COMMUNICATION SYSTEM - Google Patents

Abstract

1. A method for planning communication through a wireless subsystem and a radio frequency identification subsystem, including:! determining one or more periods of activity of the wireless subsystem; ! determining one or more periods of inactivity based on said one or more periods of activity; ! synchronization of the operation of the radio frequency identification subsystem with one or more of the indicated periods of inactivity; and! starting up the radio frequency identification subsystem in accordance with one or more periods of inactivity to provide substantially parallel operation of the wireless communication subsystem and the radio frequency identification subsystem. ! 2. The method according to claim 1, including:! determining the operating mode of the wireless subsystem, where the operating mode includes at least a standby mode and an active mode; and! determination of one or more periods of activity of the wireless subsystem, depending on the operating mode. ! 3. The method according to claim 2, in which the wireless subsystem is in standby mode, and the specified method includes:! obtaining from the wireless communication subsystem information about the time position related to paging operations and information about the time position related to signal measurements; and determining periods of activity, including the length of the periods, based on the obtained position information in time. ! 4. The method according to claim 2, in which the wireless subsystem is in active mode, and the specified method includes:! in the case of a wireless subsystem based on time division multiple access technology:! receive�

Claims (44)

1. A method for scheduling communication through a wireless subsystem and a radio frequency identification subsystem, including: determining one or more periods of activity of the wireless subsystem; determining one or more periods of inactivity based on said one or more periods of activity; synchronization of the operation of the radio frequency identification subsystem with one or more of the indicated periods of inactivity; and starting up the radio frequency identification subsystem in accordance with one or more periods of inactivity to provide substantially parallel operation of the wireless communication subsystem and the radio frequency identification subsystem. 2. The method according to claim 1, including: determining the operating mode of the wireless subsystem, where the operating mode includes at least a standby mode and an active mode; and determination of one or more periods of activity of the wireless subsystem, depending on the operating mode. 3. The method according to claim 2, in which the wireless subsystem is in standby mode, and the specified method includes: obtaining from the wireless communication subsystem information about the time position related to paging operations and information about the time position related to signal measurements; and determining periods of activity, including the length of the periods, based on the obtained position information in time. 4. The method according to claim 2, in which the wireless subsystem is in active mode, and the specified method includes: in the case of a wireless subsystem based on time division multiple access technology: obtaining information about the position in time related to the position of the time intervals in accordance with the time intervals that are currently assigned for uplink and downlink communications and measurement operations; and in the case of a wireless subsystem based on multiple access technology with code division multiplexing: obtaining information about the position in time related to periods of activity, in accordance with the intermittent mode of operation. 5. The method according to claim 4, wherein said wireless subsystem is a wireless communication subsystem based on time division multiple access technology, and said method includes: if applicable and / or necessary: request information about time intervals for uplink and / or downlink, which includes one or more unallocated time intervals in the frame structure. 6. The method according to claim 4, in which the specified wireless subsystem is a wireless subsystem based on technology of broadband multiple access, code-division multiplexing, and the specified method includes: if applicable and / or necessary: request communication mode with frame compression; and obtaining information about the position in time related to interruptions in transmission and their duration in accordance with the communication mode with frame compression. 7. The method according to claim 4, wherein said wireless subsystem is a wireless communication subsystem based on cdma2000 technology, and said method includes: if applicable and / or necessary: intermittent transmission mode request; and obtaining information about the position in time related to discontinuous transmission in the reverse and forward communication lines. 8. The method according to any one of claims 1 to 7, including: starting up the radio frequency identification subsystem in accordance with the time the radio frequency identification subsystem enters the operating mode (Δ _I ) and / or the time the radio frequency identification subsystem exits the operating mode (Δ _III ). 9. The method according to any one of claims 1 to 7, including: obtaining one or more parameters of the radio frequency identification subsystem related to communication and / or application; and determination of the communication period necessary for the operation of the radio frequency identification subsystem in accordance with the obtained parameters related to communication and / or parameters related to the application; and setting up one or more parameters of the radio frequency identification subsystem related to communication and / or the application to adapt the communication period necessary for the operation of the radio frequency identification subsystem to one or more of the indicated periods of inactivity. 10. The method according to claim 9, in which the parameters of the radio frequency identification subsystem related to communication, include one or more of the following parameters: carrier detection period (T _LSB ); type of modulation, including amplitude keying with two side frequency bands, amplitude keying with one side frequency band and amplitude keying with phase reversal; the reference time interval T _ari , data symbol "0"; relative reference time interval (x) of the data symbol "1"; Radio Frequency Pulse Width (PW); carrier frequency; parameter for calculating time intervals (Q); rise time of the radio frequency envelope (T _r ); radio frequency envelope decay time (T _f ); settling time (T _s ); time (T ₁ ) from transmitting a radio frequency identification command to a response of a radio frequency identification transponder; time (T ₂ ) from the response of the transponder of the radio frequency identification to the transmission of the radio frequency identification command; a time (T ₃ ) representing a waiting time in the absence of a response of a radio frequency identification transponder; and minimum time (T ₄ ) between successful transmissions of radio frequency identification commands. 11. The method according to claim 9, in which the application parameters of the radio frequency identification subsystem include one or more of the following parameters: maximum number of calls to the sensor; sensor read time (T _read ); and sensor recording time (T _read ). 12. The method according to any one of claims 1 to 7, including: determining the frequency range currently used by the wireless subsystem; and if the frequency range of the wireless subsystem is so close to the frequency range used by the radio frequency identification subsystem that interference is likely to occur: a request to switch the frequency range of the wireless subsystem to a range in which interference is not expected; and ensuring the parallel operation of the wireless subsystem and the radio frequency identification subsystem. 13. The method according to claim 11, in which the switching of the frequency range allows for the operation of the wireless subsystem in a different frequency range using the same protocol. 14. The method according to claim 11, in which switching the frequency range includes a protocol change. 15. The method according to any one of claims 1 to 7, including: reducing the power level of the radio frequency signal of the radio frequency identification subsystem; and determination of the level of interference; and in case the interference level is below the threshold level, ensuring the parallel operation of the wireless subsystem and the radio frequency identification subsystem. 16. The method according to any one of claims 1 to 7, in which the radio frequency identification subsystem operates in the ultra-high frequency range, in particular in the frequency range from 860 to 960 MHz. 17. The method according to any one of claims 1 to 7, in which the wireless subsystem operates with at least one system from the group including the cellular wireless subsystem based on time division multiple access and the cellular subsystem based on code access multiple access channel separation. 18. The method according to clause 16, in which the wireless subsystem works with at least one system from the group including the cellular subsystem GSM, the cellular subsystem GSM / EDGE, the cellular subsystem based on broadband multi-station access with code division multiplexing and the subsystem cellular communication cdma2000. 19. A computer program product, comprising segments of program code recorded on a computer-readable medium for performing operations according to any one of claims 1 to 13, when said software product is executed in a processor device, terminal device, network device, portable terminal, consumer electronic device or terminal with wireless support. 20. The planning module for providing the planned communication through the wireless communication subsystem and the radio frequency identification subsystem, where the specified planning module works with the wireless communication subsystem and the radio frequency identification subsystem; moreover, the planning module is configured to determine one or more periods of activity of the wireless subsystem and determine one or more periods of inactivity based on the specified one or more periods of activity; wherein the planning module is synchronized with one or more periods of inactivity; and the scheduling module generates a triggering signal to start the operation of the radio frequency identification subsystem in accordance with the indicated one or more periods of inactivity to implement essentially parallel operation of the wireless communication subsystem and the radio frequency identification subsystem. 21. The module according to claim 20, in which the planning module is configured to determine the operating mode of the wireless subsystem, which operates at least in standby mode and in active mode, and the planning module is configured to determine one or more periods of activity of the wireless subsystem in depending on the operating mode. 22. The module according to item 21, where the wireless subsystem is in standby mode; however, the planning module is configured to receive from the wireless communication subsystem information about the position in time related to the operations of the paging call, and information about the position in time related to the signal measurements, and the scheduling module is configured to determine periods of activity, including the duration of the periods, based on the received position information in time. 23. The module according to item 21, where the wireless subsystem is in active mode, in this case, in the case of using a wireless communication subsystem based on time division multiple access, the scheduling module is configured to obtain time position information related to the position of time intervals in accordance with the time intervals that are currently assigned for uplink and downlink communications and measuring operations, and in the case of using a wireless communication subsystem based on code division multiple access, the scheduling module is configured to obtain information on the position in time of activity periods in accordance with the intermittent communication mode. 24. The module according to any one of paragraphs.20-23, where the trigger signal is generated in accordance with the time the radio frequency identification subsystem enters the operating mode (Δ _I ) and / or the time the radio frequency identification subsystem leaves the operating mode (Δ _III ). 25. The module according to any one of paragraphs.20-23, which is configured to obtain one or more parameters of the radio frequency identification subsystem related to communication and / or the application, and determine the communication period necessary for the operation of the radio frequency identification subsystem, in accordance with parameters related to communication and / or application; however, the planning module is configured to configure one or more parameters of the radio frequency identification subsystem related to communication and / or the application, to adapt the communication period necessary for the operation of the radio frequency identification subsystem to one or more of the indicated periods of inactivity. 26. The module of claim 25, wherein the parameters of the radio frequency identification subsystem related to communication include one or more of the following parameters: carrier detection period (T _LSB ); type of modulation, including amplitude keying with two side frequency bands, amplitude keying with one side frequency band and amplitude keying with phase reversal; the reference time interval T _ari data symbol "0"; relative reference time interval (x) of the data symbol "1"; radio frequency pulse width (PW); carrier frequency; parameter for calculating time intervals (Q); rise time of the radio frequency envelope (T _r ); radio frequency envelope decay time (T _f ); settling time (T _s ); time (T ₁ ) from transmitting a radio frequency identification command to a response of a radio frequency identification transponder; time (T ₂ ) from the response of the transponder of the radio frequency identification to the transmission of the radio frequency identification command; a time (T ₃ ) representing a waiting time in the absence of a response of a radio frequency identification transponder; and minimum time (T ₄ ) between successful transmissions of radio frequency identification commands. 27. The module according A.25, in which the parameters of the radio frequency identification subsystem related to the application include one or more of the following parameters: maximum number of calls to the sensor; sensor read time (T _read ); and sensor recording time (T _read ). 28. The module according to any one of paragraphs.20-23, which is configured to determine the frequency range currently used by the wireless communication subsystem, while if the frequency range of the wireless communication subsystem is so close to the frequency range used by the radio frequency identification subsystem, that interference is likely, the scheduling module is configured to request switching the frequency range of the wireless subsystem to a frequency range in which interference is not expected, while switching the frequency range allows for parallel operation of the wireless subsystem and the radio frequency identification subsystem. 29. The module according to any one of claims 20-23, which is configured to lower the power level of the radio frequency signal of the radio frequency identification subsystem and determine the level of interference, so that if the noise level is below the threshold level, the wireless communication subsystem and the radio frequency identification subsystem can work in parallel. 30. A terminal device with support for planned communication through a wireless communication subsystem and a radio frequency identification subsystem of a terminal device, wherein the terminal device includes a scheduling module operating with a wireless communication subsystem and a radio frequency identification subsystem, moreover, the planning module is configured to determine one or more periods of activity of the wireless subsystem and determine one or more periods of inactivity based on the specified one or more periods of activity; the planning module synchronizes with one or more periods of inactivity; and the planning module generates a trigger signal to start the operation of the radio frequency identification subsystem in accordance with one or more of the indicated periods of inactivity to implement essentially parallel operation of the wireless communication subsystem and the radio frequency identification subsystem. 31. The device according to item 30, in which the planning module is a planning module in accordance with paragraphs.20-29. 32. The device according to item 30 or 31, in which the wireless subsystem and the radio frequency identification subsystem operate with a common antenna, the radio frequency characteristics of which are adapted to the operating frequencies of these subsystems. 33. The device according to item 30 or 31, in which the triggering signal is generated upon signaling from an application running on the device and / or upon receipt of an input signal that occurs upon user input. 34. The device according to item 30 or 31, which is a cellular terminal device with cellular support in several frequency bands and / or several cellular systems. 35. The device according to clause 34, in which the wireless subsystem operates with at least one system from the group including a cellular wireless subsystem based on time division multiple access and a cellular subsystem based on code division multiple access. 36. The device according to clause 35, in which the wireless subsystem works with at least one system from the group including the GSM cellular subsystem, the GSM / EDGE cellular subsystem, the cellular subsystem based on broadband code division multiple access, the subsystem UMTS cellular and cdma2000 cellular subsystem. 37. The device according to item 30 or 31, in which the wireless subsystem is a subsystem of the wireless communication interface, where the subsystem of the wireless communication interface works with at least one system from the group including IEEE 802.xx wireless network communication technology, Bluetooth wireless technology and ultra-wideband wireless network technology. 38. The system that provides the planned communication through the cellular subsystem and the radio frequency identification subsystem, while this system includes a planning module that works with the cellular communication subsystem and the radio frequency identification subsystem; and the planning module is configured to determine one or more periods of activity of the cellular subsystem and determine one or more periods of inactivity based on the specified one or more periods of activity; wherein the planning module is synchronized with one or more periods of inactivity; and the planning module generates a trigger signal to start the operation of the radio frequency identification subsystem in accordance with one or more of the indicated periods of inactivity to implement essentially parallel operation of the wireless communication subsystem and the radio frequency identification subsystem. 39. The system of claim 38, wherein the planning module is a planning module in accordance with paragraphs 20-29. 40. The system of claim 38 or 39, wherein the terminal device is a terminal device in accordance with paragraphs 30-37. 41. The system of claim 38 or 39, wherein the wireless subsystem and the radio frequency identification subsystem operate with a common antenna, the radio frequency characteristics of which are adapted to the operating frequencies of the subsystems. 42. The system of claim 38 or 39, wherein the radio frequency identification subsystem operates in at least the ultra-high frequency range (UHF), in particular in the frequency range from 860 to 960 MHz. 43. The system of claim 42, wherein the radio frequency identification subsystem operates in accordance with the EPC Global standard. 44. The system of claim 38 or 39, wherein the radio frequency identification subsystem operates in the ISM frequency band, in particular in the 2.4 GHz ISM band.