USRE43630EExpiredUtility

Data transmission method with a lower probability of erroneous rejection of data

53
Assignee: MICHEL JUERGENPriority: Sep 29, 2003Filed: Sep 13, 2004Granted: Sep 4, 2012
Est. expirySep 29, 2023(expired)· nominal 20-yr term from priority
H04W 72/23H04W 48/12H04L 1/0045H04L 1/1829H04L 1/0072
53
PatentIndex Score
2
Cited by
22
References
19
Claims

Abstract

A method transmits data between a base station and a terminal in a communication system. According to said method, data is transmitted subdivided into time segments (Zs,R) from the base station (HS-DSCH) that is jointly used by several terminals via the base station informs the terminals, and the base station informs the terminal via one of at least two control channels method encompasses the following: the at least two control channels (HS-SCCH 1, HS-SCCH 2 ) are monitored by the terminal; the terminal receives the piece of control information on a first of the at least two control channels (HS-SCCH 1 ) within a first time segment (ZS 1, R 1 ); an individual decision parameter is generated for each of the parts (P 1, P 2 ) of control information based on the content of the respective part (P 1, P 2 ) of control information: an overall decision parameter is determined based on the individual decision parameters; data received on the data channel (HS-DSCH) and the piece of information received on the control channel (HS-SCCH 1 ) are rejected in accordance with the overall decision parameter.

Claims

exact text as granted — not AI-modified
1. A method for data transmission between a base station and a terminal in a communication system, comprising;:
 transmitting data divided into time segments subframes and timeslots, whereby a subframe is formed by a plurality of timeslots, from the base station to the terminal over a data channel shared by a plurality of terminals; and 
 notifying the terminal from the base station via one of at least two control channels, the base station notifying the terminal through control information comprising a series of at least two pieces of control information, the control information also being divided into time segments subframes and timeslots, whereby a subframe is formed by a plurality of timselots, the base station notifying the terminal as to when data will be sent on the data channel to the terminal, the method further comprising:
 monitoring the at least two control channels at the terminal; 
 receiving the control information at the terminal on a first control channel of the at least two control channels and in at least a first time segment timeslot of a first subframe; and 
 generating an individual decision parameter for each of the pieces of control information on the basis of the content of the respective piece of control information;, 
 
 wherein the control information transmitted over the first control channel has a first piece and a second piece of control information, the first piece of control information being transmitted two time segments timeslots before any data transmission on the data channel, and the second piece of control information being transmitted in at least one time segment timeslot subsequent to the first time segment; timeslot, 
 a first individual decision parameter is generated for the first piece of control information and a second individual decision parameter is generated for the second piece of control information;, 
 if the first individual decision parameter is negative, the data is not processed further and in the time segment a subframe directly following the first time segment subframe all control channels are monitored;, and 
 if the first individual decision parameter is positive and the second individual decision parameter is negative, the data is not processed further and in a time segment the subframe directly following the time segment of the second individual decision parameter first subframe, only the first control channel is monitored. 
 
     
     
       2. The method according to claim  1  17, further comprising:
 defining which of the control channels should be monitored in the time segment a subframe subsequent to the first time segment subframe depending on an the overall decision parameter. 
 
     
     
       3. The method in accordance with  claim 2 , wherein
 only the first control channel is monitored in the time segment a subframe subsequent to the first time segment subframe if a positive overall decision parameter is determined;, and 
 all control channels are monitored in the time segment subframe subsequent to the first time segment subframe if a negative overall decision parameter is determined. 
 
     
     
       4. The method in accordance with  claim 2 , wherein the subframe subsequent time segment to the first subframe is the time segment subframe directly following the first time segment subframe. 
     
     
       5. The method in accordance with claim  2  1, wherein the data is transmitted over the data channel in packets. 
     
     
       6. The method in accordance with  claim 5 , wherein
 the first piece of control information identifies the terminal, and 
 the second piece of control information contains at least one of data channel configuration information, HARQ information, information about a packet size used for data transmission, and information about modulation and coding schemes used to transmit the data. 
 
     
     
       7. The method in accordance with claim  6  17, wherein if a positive overall decision parameter is determined, data transmission via the data channel is delayed 2 time segments slots relative to the time segment slot in which the control information began. 
     
     
       8. The method in accordance with claim  7  17, wherein, if a negative overall decision parameter is determined, the data is not passed on to layers above the physical layer of the OSI model. 
     
     
       9. The method in accordance with claim  1  17, wherein
 a positive overall decision parameter is generated if the control information is classified as relating to the terminal, and 
 a negative overall decision parameter is generated if the control information is classified as not relating to the terminal. 
 
     
     
       10. The method in accordance with  claim 1 , wherein
 a positive individual decision parameter is generated for the piece of control information if the piece of control information is classified as relating to the terminal, and 
 a negative individual decision parameter is generated for the piece of control information, if the piece of control information is classified as not relating to the terminal. 
 
     
     
       11. The method in accordance with claim  10  17, wherein the overall decision parameter is determined to be positive if all individual decision parameters are positive. 
     
     
       12. The method in accordance with  claim 1 , wherein the data is transmitted over the data channel in fixed size packets. 
     
     
       13. The method in accordance with  claim 1 , wherein
 the first piece of control information identifies the terminal and 
 the second piece of control information contains at least one of data channel configuration information, HARQ information, information about a packet size used for data transmission, and information about modulation and coding schemes used to transmit the data. 
 
     
     
       14. The method in accordance with claim  1  17, wherein if a positive overall decision parameter is determined, data transmission via the data channel is delayed in time relative to the time segment in which the control information began. 
     
     
       15. The method in accordance with  claim 1 , wherein if a positive overall decision parameter is determined, data transmission via the data channel is delayed 2 time segments relative to the time segment in which the control information began. 
     
     
       16. The method in accordance with claim  1  17, wherein, if a negative overall decision parameter is determined, the data is not passed on to layers above the physical layer of the OSI model processed further. 
     
     
       17. The method according to  claim 1 , further comprising:
 determining an overall decision parameter based on the generated individual decision parameters; and 
 selectively rejecting data received on the data channel and the control information received on the first control channel depending on the overall decision parameter. 
 
     
     
       18. A terminal comprising:
 a receiver device to receive data; and 
 a processor unit configured to execute a method for data transmission between a base station and a terminal in a communication system, the method comprising: 
 transmitting data divided into time segments subframes and timeslots, whereby a subframe is formed by a plurality of timeslots, from the base station to the terminal over a data channel shared by a plurality of terminals; and 
 notifying the terminal from the base station via one of at least two control channels, the base station notifying the terminal through control information comprising a series of at least two pieces of control information, the control information also being divided into time segments subframes and timeslots, whereby a subframe is formed by a plurality of timeslots, the base station notifying the terminal as to when the data will be sent on the data channel to the terminal, the method further comprising:
 monitoring the at least two control channels at the terminal; 
 receiving the control information at the terminal on a first control channel of the at least two control channels and in at least a first time segment timeslot of a first subframe; and 
 generating an individual decision parameter for each of the pieces of control information on the basis of the content of the respective piece of control information, wherein 
 
 the control information transmitted over the first control channel has a first piece and a second piece of control information, the first piece of control information being transmitted two time segments timeslots before any data transmission on the data shared channel, and the second piece of control information being transmitted in at least one time segment timeslot subsequent to the first time segment; timeslot, 
 a first individual decision parameter is generated for the first piece of control information and a second individual decision parameter is generated for the second piece of control information;, 
 if the first individual decision parameter is negative, the data is not processed further and in the time segment a subframe directly following the first time segment subframe all control channels are monitored;, and 
 if the first individual decision parameter is positive and the second individual decision parameter is negative, the data is not processed further and in a time segment the subframe directly following the time segment of the second individual decision parameter first subframe, only the first control channel is monitored. 
 
     
     
       19. A cellular mobile radio communication network comprising:
 a base station; and 
 a terminal for data transmission with the base station, the terminal comprising a receiver device to receive data and a processor unit configured to execute a method for data transmission between the base station and the terminal, the method comprising:
 transmitting data divided into time segments subframes and timeslots, whereby a subframe is formed by a plurality of timeslots, from the base station to the terminal over a data channel shared by a plurality of terminals; and 
 notifying the terminal from the base station via one of at least two control channels, the base station notifying the terminal through control information comprising a series of at least two pieces of control information, the control information also being divided into time segments subframes and timeslots, whereby a subframe is formed by a plurality of timeslots, the base station notifying the terminal as to when the data will be sent on the data channel to the terminal, the method further comprising:
 monitoring the at least two control channels at the terminal; 
 receiving the control information at the terminal on a first control channel of the at least two control channels and in at least a first time segment timeslot of a first subframe; and 
 generating an individual decision parameter for each of the pieces of control information on the basis of the content of the respective piece of control information, wherein 
 
 
 the control information transmitted over the first control channel has first and second pieces of control information, the first piece of control information being transmitted two time segments timeslots before any data transmission on the data channel, and the second piece of control information being transmitted in at least one time segment timeslot subsequent to the first time segment; timeslot, 
 a first individual decision parameter is generated for the first piece of control information and a second individual decision parameter is generated for the second piece of control information;, 
 if the first individual decision parameter is negative, the data is not processed further and in the time segment subframe directly following the first time segment subframe all control channels are monitored;, and 
 if the first individual decision parameter is positive and the second individual decision parameter is negative, the data is not processed further and in a time segment the subframe directly following the time segment of the second individual decision parameter first subframe, only the first control channel is monitored.

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