RU2005129104A - DOWNLOAD MANAGEMENT IN A WIRELESS DATA NETWORK - Google Patents

Claims (51)

1. A device configured to work with multiple remote stations configured to transmit on a shared resource, comprising a receiver for receiving a plurality of access requests for transmission on a shared resource from a corresponding plurality of remote stations and for measuring the degree of utilization of the shared resource, a scheduler for allocating a part a shared resource to zero or more requesting remote stations in response to multiple access requests, wherein the allocation contains zero or one general access permission for a subset of the requesting remote stations and for generating a busy command in response to the measured degree of use, and a transmitter for transmitting the general access permission to the remaining remote stations via one or more general permission channels and for transmitting a busy signal containing one or more busy commands. 2. The device according to claim 1, in which the scheduler additionally performs the allocation, the allocation additionally contains zero or more individual access permissions to zero or more requesting remote stations, and the transmitter additionally transmits the individual access permissions to the corresponding remote stations via one or more channels individual permission. 3. The device according to claim 1, additionally configured to work with many remote stations equipped for offline transmission over a shared resource using a limited part of the shared resource without requesting access or access permission, and the scheduler calculates the expected value of the shared resource used in autonomous transmissions , and in response to this, allocates part of the shared resource for individual and general access permissions. 4. The device according to claim 1, additionally configured to work with one or more remote stations, transmitting with approval from one or more access permissions, said device further comprising a decoder for decoding one or more received packets and determining whether said one or several received packets without errors, and the receiver further receives one or more data packets from one or more remote stations, respectively, the transmitter to transmits to one or more remote stations an ACK-and-Continue command, respectively, if the corresponding received packet is decoded without errors and the access permission for the corresponding remote station must be renewed and the scheduler determines the allocation of part of the shared resource in accordance with individual and general permissions extended with one or more ACK-and-Continue commands. 5. The device according to claim 1, in which each busy command contains either a first value indicating a decrease or a second value indicating an increase. 6. The device according to claim 5, in which each command "busy" alternatively additionally contains a third value that does not indicate either a decrease or an increase. 7. The device according to claim 1, in which each busy command contains one or more values that indicate one or more decreases, respectively, and the corresponding decreases indicate different values of the decrease or one or more values that indicate one or more, respectively increases, with corresponding increases indicate different magnitudes of the increase. 8. The device according to claim 7, in which each command "busy" alternatively additionally contains a value that does not indicate either a decrease or an increase. 9. A remote station containing a data buffer for receiving data intended for transmission, a message generator for generating an access request message if the data buffer contains data for transmission, a receiver for busy one or more general resolution channels from the base station and for receiving a signal "from the indicated base station, a message decoder for decoding the access permission sent to the remote station, the access permission containing a common resolution in one of the specified one or more channels ax general permission, and a transmitter for transmitting the access request message and for transmitting part of the data from the data buffer in response to the decoded access permissions in accordance with the received busy signal. 10. The remote station according to claim 9, in which the receiver further receives one or more individual resolution channels from the base station and the message decoder further decodes the access permission further comprising an individual resolution directed over one or more individual resolution channels. 11. The remote station according to claim 9, in which the transmitter additionally transmits a limited portion of the data from the data buffer autonomously, regardless of whether or not access permission was received in accordance with the received busy signal. 12. The remote station of claim 9, wherein the receiver further receives an ACK-and-Continue command and the transmitter transmits an additional portion of the data from the data buffer in response to a previously decoded access permission in accordance with the received busy signal. 13. The remote station of claim 9, wherein the transmitter further transmits a limited portion of the data from the data buffer autonomously after receiving the ACK in accordance with a busy signal. 14. The remote station of claim 9, wherein the receiver further receives the NAK and the transmitter retransmits a portion of the data from the data buffer previously transmitted in response to the previously decoded access permission in accordance with the received busy signal. 15. The remote station of claim 9, wherein the transmission rate decreases in response to an acknowledgment of a busy signal in a received signal. 16. The remote station of claim 15, wherein the reduction is deterministic. 17. The remote station of claim 15, wherein the decrease is probabilistic. 18. The remote station of claim 9, wherein the transmission rate increases in response to an acknowledgment of a busy signal in a received signal. 19. The remote station of claim 18, wherein the increase is deterministic. 20. The remote station of claim 18, wherein the increase is probabilistic. 21. The remote station according to claim 9, in which the transmission rate increases or decreases in response to the received signal "busy", and the amount of increase or decrease is determined in accordance with the level of quality of service QoS services. 22. A wireless communication system comprising a plurality of remote stations, each of a subset of the plurality of remote stations transmitting an access request message, generating a plurality of access request messages, a base station for receiving a plurality of messages and an access request, measuring a degree of utilization of a shared resource, allocating a shared system resource multiple remote stations, transmitting zero or more individual access permissions to a subset of ud requesting ennyh stations and zero or more common grants access to the remaining requesting remote stations and transmitting a signal "busy" if the measured utilization exceeds a predetermined threshold. 23. The wireless communication system according to claim 22, wherein the requesting remote stations receive transmitted individual or general access permissions and a busy signal and, in accordance with the received busy signal, transmit data to the base station, respectively, in accordance with them. 24. The wireless communication system of claim 22, wherein the subset of the plurality of remote stations transmits data autonomously in accordance with the transmitted busy signal. 25. A method of controlling access to a shared resource, comprising receiving a plurality of transmission requests on a shared resource from a corresponding plurality of remote stations, allocating a portion of the shared resource to zero or more requesting remote stations in response to a plurality of access requests, the allocation containing zero or one common resolution access for a subset of requesting remote stations, the transfer of general access permissions to the remaining remote stations through one or more channels of the common about resolution, measuring the degree of use of a shared resource and transmitting a busy signal if the measured degree of use exceeds a predetermined threshold. 26. The method according A.25, in which the allocation further comprises zero or more individual access permissions to zero or more requesting remote stations and which further comprises transmitting individual access permissions to the respective remote stations via one or more individual permission channels. 27. The method according A.25, implemented with the ability to work with many remote stations equipped for offline transmission over a shared resource, using a limited part of the shared resource without an access request or access permission, the method further comprising calculating the expected value of the shared resource used in autonomous transmissions , and in response to this allocation of a part of the shared resource for individual and general access permissions. 28. The method according A.25, implemented with the ability to work with one or more remote stations, transmitting with approval from one or more access permissions, further comprising decoding one or more received packets, determining whether said one or more received packets are decoded without errors transmitting an acknowledgment and renewal command (ACK-and-Continue) to one or more remote stations, respectively, if the corresponding received packet is decoded without errors, and access permission for appropriate remote station should be extended and however, the allocation of part of the shared resource is performed in accordance with individual and general permissions renewed using one or more ACK-and-Continue commands. 29. The method of claim 25, wherein the busy signal comprises a sequence of commands, each command indicating either a first value indicating a decrease or a second value indicating an increase. 30. The method according to clause 29, in which the sequence of commands further comprises a third value that does not indicate either a decrease or an increase. 31. The method according A.25, in which the busy signal contains a sequence of commands, each command denoting one or more values that indicate one or more decreases, respectively, and the corresponding decreases indicate different values of the reduction or one or more values, indicating respectively one or more magnifications, the corresponding magnifications indicate different magnifications. 32. The method according to p, in which the sequence of commands further comprises a value that does not indicate either a decrease or an increase. 33. A transmission method comprising receiving data for transmission, storing data in a data buffer, generating an access request message, transmitting an access request message, receiving one or more general permission channels from a base station, decoding an access permission containing a general permission in one of these one or multiple shared channels, busy signal reception from the base station and transmitting a portion of the data from the data buffer in response to decoding an access permission adapted in accordance with the received busy signal. 34. The method according to claim 33, further comprising receiving one or more individual permission channels and wherein the access permission alternatively comprises an individual permission directed through one of the one or more individual permission channels. 35. The method according to claim 33, further comprising transmitting a limited portion of the data from the data buffer autonomously, regardless of whether or not access permission was received in accordance with the received busy signal. 36. The method according to claim 33, further comprising receiving an ACK-and-Continue command and transmitting an additional portion of the data from the data buffer in response to a previously decoded access permission adapted to the received busy signal. 37. The method of claim 33, further comprising transmitting a limited portion of the data from the data buffer autonomously after receiving the ACK in accordance with a busy signal. 38. The method of claim 33, further comprising receiving a NAK command and retransmitting a portion of the data from the data buffer previously transmitted in response to a previously decoded access permission in accordance with the received busy signal. 39. The method of claim 33, wherein the transmission rate decreases in response to an acknowledgment of a busy signal in a received signal. 40. The method according to § 39, in which the reduction is deterministic. 41. The method according to § 39, in which the decrease is probabilistic. 42. The method of claim 33, wherein the transmission rate is increased in response to an acknowledgment of a busy signal in a received signal. 43. The method according to § 42, in which the increase is deterministic. 44. The method according to § 42, in which the increase is probabilistic. 45. The method according to clause 33, in which the transmission rate increases or decreases in response to the received signal "busy", and the amount of increase or decrease is determined in accordance with the level of quality of service QoS services. 46. An apparatus comprising means for receiving a plurality of transmission requests on a shared resource from a corresponding plurality of remote stations, means for allocating a portion of a shared resource to zero or more requesting remote stations in response to a plurality of access requests, wherein the allocation contains zero or one common access permission for a subset of requesting remote stations, means for transmitting a general access permission to the remaining remote stations via one or more public channels a resolution means for measuring the degree of utilization of the shared resource signal, and means for transmitting the "busy" if the measured utilization exceeds a predetermined threshold. 47. An apparatus comprising means for receiving data for transmission, means for storing data in a data buffer, means for generating an access request message, means for transmitting an access request message, means for receiving one or more general resolution channels from a base station, means for decoding access permissions, containing general permission in one of the indicated one or several shared access channels, means for receiving a busy signal from the base station and means for transmitting part of the data from the buffer Data measure in response to decoding an access permission adapted in accordance with a received busy signal. 48. A wireless communication system comprising: means for receiving a plurality of transmission requests on a shared resource from a corresponding plurality of remote stations; means for allocating a portion of a shared resource to zero or more requesting remote stations in response to a plurality of access requests, the allocation comprising zero or one common access authorization for a subset of requesting remote stations, a means for transmitting a general access authorization to the remaining remote stations one at a time or several channels of general resolution, means for measuring the degree of use of the shared resource and means for transmitting the signal "busy" if the measured degree of use exceeds a predetermined threshold. 49. A wireless communication system comprising means for receiving data for transmission, means for storing data in a data buffer, means for generating an access request message, means for transmitting an access request message, means for receiving one or more general resolution channels from a base station, means for decoding an access permission, comprising general permission in one of the indicated one or more shared access channels, means for receiving a busy signal from the base station and means for transmitting a portion of the data from the data buffer in response to decoding an access permission adapted in accordance with the received busy signal. 50. A computer-readable storage medium implemented with the following steps: receiving a plurality of transmission requests on a shared resource from a corresponding plurality of remote stations, allocating a portion of the shared resource to zero or more requesting remote stations in response to the plurality of access requests, wherein the allocation contains zero or one common access permission for a subset of requesting remote stations, transmitting a common access permission to the remaining remote stations one at a time or more common grant channels, measuring the extent of use of the shared resource and transmitting a signal "busy" if the measured utilization exceeds a predetermined threshold. 51. A computer-readable storage medium implemented with the following steps: receiving data for transmission, storing data in a data buffer, generating an access request message, transmitting an access request message, receiving one or more general permission channels from a base station, decoding an access permission, comprising general resolution in one of the indicated one or more shared channels, receiving a busy signal from the base station and transmitting a portion of the data from the data buffer in response to decoding access permissions adapted in accordance with the received busy signal.