Abstract
A system is provided for transmitting/receiving downlink resource allocation information in a communication system. In the system a base station generates first information including downlink resource allocation information necessary for supporting a first mode supported by the base station generates second information including length information of the first information and transmits the first information and the second information. A mobile station notifies the base station of a second mode supported by the mobile station receives after the notification the first information and the second information from the base station and skips without decoding as much downlink resource allocation information as a length corresponding to the length information without decoding if the first mode is different from the second mode.
| Technology | Declaration Information | Specification Information | Explicitly Disclosed | Patent Type | |||||
|---|---|---|---|---|---|---|---|---|---|
| Declaration Date | Declaration Reference | Declaring Company | Specification Number | ||||||
| 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | Yes | Basis Patent | ||||
Specification Information
Specification Information
Technologies
Family Information
| All Granted Patents In Patent Family : | ---- |
| All Pending Patents In Patent Family : | ---- |
| Publication No | Technology | Declaration Information | Specification Information | Explicitly Disclosed | Patent Type | |||||
|---|---|---|---|---|---|---|---|---|---|---|
| Declaration Date | Declaration Reference | Declaring Company | Specification Number | |||||||
| US2010202396A1 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
Yes | Basis Patent | |||
| US2010202396A1 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| US9462606B2 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
Yes | Basis Patent | |||
| US9462606B2 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| AU2006270616A1 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| AU2006270616A1 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| AU2006270616B2 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| AU2006270616B2 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| CA2614008A1 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| CA2614008A1 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| CA2614008C | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| CA2614008C | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| CN101228731A | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| CN101228731A | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| CN101228731B | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| CN101228731B | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| CN101808413A | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| CN101808413A | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| CN101808413B | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| CN101808413B | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| EP1746855A2 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| EP1746855A2 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| EP1746855A3 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| EP1746855A3 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| EP1746855B1 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| EP1746855B1 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| EP2190250A2 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| EP2190250A2 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| EP2190250A3 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| EP2190250A3 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| EP2190250B1 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| EP2190250B1 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| JP2009502088A | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| JP2009502088A | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| JP4588088B2 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| JP4588088B2 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| KR100703287B1 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| KR100703287B1 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| KR20070011030A | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| KR20070011030A | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| RU2008102123A | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| RU2008102123A | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| RU2378769C2 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| RU2378769C2 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| TW200705924A | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| TW200705924A | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| TWI321015B | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| TWI321015B | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| US2007060146A1 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| US2007060146A1 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | Yes | Basis Patent | ||||
| WO2007011180A1 | 4G | 23/12/2014 | ISLD-201412-008 | SAMSUNG |
S1
S2
|
No | Family Member | |||
| WO2007011180A1 | 5G | 02/05/2018 | ISLD-201805-007 | SAMSUNG | No | Family Member | ||||
| PL1746855T3 | ----- | ----- | ----- | ----- | ----- | ----- | ----- | |||
| Publication No | Technology | Declaration Information | Specification Information | Explicitly Disclosed | Patent Type | Status | National Phase Entries | |||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Declaration Date | Declaration Reference | Declaring Company | Specification Information | |||||||||
| ----- | ----- | ----- | ----- | ----- |
S1
|
----- | ----- | ----- | ----- | |||
Technologies
Resource configuration
Product
User Equipment (UE/Terminal)
Use Cases
Wireless communication
Services
Transmitting/receiving data in downlink
Claim
1. A method for receiving DownLink (DL) resource allocation information by a mobile station in a communication system, the method comprising:
receiving, from a base station, a Hybrid Automatic Repeat reQuest (HARQ) DL MAP message defining one or more data regions and including a sub-burst Information Element (IE) and length information of the sub-burst IE separate from the sub-burst IE, the sub-burst IE indicating DL resource allocation of at least one sub-burst of a data region corresponding to one of HARQ modes supported by the base station; and
if the mobile station does not support the one of the HARQ modes, skipping, by the mobile station, decoding of at least a portion of the sub-burst IE based on the length information,
wherein the sub-burst IE includes an ACK channel parameter indicating a number of ACK channels allocated to one or more mobile stations that will receive one or more HARQ ACK enabled DL bursts in the one or more data regions, and
wherein the method further comprises:
decoding the ACK channel parameter;
determining the ACK channels used for the one or more HARQ ACK enabled DL bursts, based on the decoded ACK channel parameter; and
accumulatively storing a value of the ACK channel parameter, before skipping decoding of the at least the portion of the sub-burst IE based on the length information.', 'receiving, from a base station, a Hybrid Automatic Repeat reQuest (HARQ) DL MAP message defining one or more data regions and including a sub-burst Information Element (IE) and length information of the sub-burst IE separate from the sub-burst IE, the sub-burst IE indicating DL resource allocation of at least one sub-burst of a data region corresponding to one of HARQ modes supported by the base station; and', 'if the mobile station does not support the one of the HARQ modes, skipping, by the mobile station, decoding of at least a portion of the sub-burst IE based on the length information,', 'wherein the sub-burst IE includes an ACK channel parameter indicating a number of ACK channels allocated to one or more mobile stations that will receive one or more HARQ ACK enabled DL bursts in the one or more data regions, and', 'wherein the method further comprises:', 'decoding the ACK channel parameter;', 'determining the ACK channels used for the one or more HARQ ACK enabled DL bursts, based on the decoded ACK channel parameter; and', 'accumulatively storing a value of the ACK channel parameter, before skipping decoding of the at least the portion of the sub-burst IE based on the length information.
2. The method of claim 1, further comprising:
if the mobile station supports the one of the HARQ modes, decoding the sub-burst IE corresponding to the one of the HARQ modes; and
if there is an HARQ ACK enabled DL burst that the mobile station will receive, adding up accumulatively stored values of the ACK channel parameter and an order of the HARQ ACK enabled DL burst allocated to the mobile station in the one of the HARQ modes, and detecting a position of an ACK channel allocated to the mobile station depending on a result of the adding up.', 'if the mobile station supports the one of the HARQ modes, decoding the sub-burst IE corresponding to the one of the HARQ modes; and', 'if there is an HARQ ACK enabled DL burst that the mobile station will receive, adding up accumulatively stored values of the ACK channel parameter and an order of the HARQ ACK enabled DL burst allocated to the mobile station in the one of the HARQ modes, and detecting a position of an ACK channel allocated to the mobile station depending on a result of the adding up.
3. A system for transmitting and receiving DownLink (DL) resource allocation information in a communication system, the system comprising:
a base station for generating a sub-burst Information Element (IE) indicating DL resource allocation of at least one sub-burst of a data region corresponding to one of Hybrid Automatic Repeat reQuest (HARQ) modes supported by the base station, generating length information of the sub-burst IE, and transmitting a HARQ DL MAP message to one or more mobile stations, wherein the HARQ DL MAP message defines one or more data regions, and includes the sub-burst IE and the length information of the sub-burst IE separate from the sub- burst IE; and
a mobile station for receiving the HARQ DL MAP message,
wherein the mobile station skips decoding of at least a portion of the sub-burst IE based on the length information, if the mobile station does not support the one of the HARQ modes,
wherein the sub-burst IE includes ACK channel parameter indicating a number of ACK channels allocated to the one or more mobile stations that will receive one or more HARQ ACK enabled DL bursts in the one or more data regions, and
wherein the mobile station decodes the ACK channel parameter, determines the ACK channels used for one or more HARQ ACK enabled DL bursts, based on the decoded ACK channel parameter, and accumulatively stores a value of the ACK channel parameter, before skipping the decoding of the at least the portion of the sub-burst IE based on the length information.', 'a base station for generating a sub-burst Information Element (IE) indicating DL resource allocation of at least one sub-burst of a data region corresponding to one of Hybrid Automatic Repeat reQuest (HARQ) modes supported by the base station, generating length information of the sub-burst IE, and transmitting a HARQ DL MAP message to one or more mobile stations, wherein the HARQ DL MAP message defines one or more data regions, and includes the sub-burst IE and the length information of the sub-burst IE separate from the sub- burst IE; and', 'a mobile station for receiving the HARQ DL MAP message,', 'wherein the mobile station skips decoding of at least a portion of the sub-burst IE based on the length information, if the mobile station does not support the one of the HARQ modes,', 'wherein the sub-burst IE includes ACK channel parameter indicating a number of ACK channels allocated to the one or more mobile stations that will receive one or more HARQ ACK enabled DL bursts in the one or more data regions, and', 'wherein the mobile station decodes the ACK channel parameter, determines the ACK channels used for one or more HARQ ACK enabled DL bursts, based on the decoded ACK channel parameter, and accumulatively stores a value of the ACK channel parameter, before skipping the decoding of the at least the portion of the sub-burst IE based on the length information.
4. The system of claim 3, wherein the mobile station decodes the sub-burst IE corresponding to the one of the HARQ modes, if the mobile station supports the one of the HARQ modes, and
wherein, if there is an HARQ ACK enabled DL burst that the mobile station will receive, the mobile station adds tip accumulatively stored values of the ACK channel parameter and an order of the HARQ ACK enabled DL burst allocated to the mobile station in the one of the HARQ modes, and detects a position of an ACK channel allocated to the mobile station, based on a result of the adding up.', 'wherein, if there is an HARQ ACK enabled DL burst that the mobile station will receive, the mobile station adds tip accumulatively stored values of the ACK channel parameter and an order of the HARQ ACK enabled DL burst allocated to the mobile station in the one of the HARQ modes, and detects a position of an ACK channel allocated to the mobile station, based on a result of the adding up.']
Associated Portfolios
Licensor Claim Chart
 Claim Chart |
 Technology |
 Creation Date |
 Download |
|---|---|---|---|
|
Claim charts will soon be available!
|
|||
SUMMARY
ClaimChart-US7751364B2-STO
Patent number:US7751364B2
Claim Chart Type : SEP Claim Chart
Price: 200 €
To view claim charts you must become a Gold or Platinum Member.
Upgrade your subscriptionYou have reached the maximum number of patents which can be associated to your account per your subscription. If you wish to associate more patents
Please upgrade your subscription.Note:
The information in blue was extracted from the third parties (Standard Setting Organisation, Espacenet)
The information in grey was provided by the patent holder
The information in purple was extracted from the FrandAvenue
Explicitly disclosed patent:openly and comprehensibly describes all details of the invention in the patent document.
Implicitly disclosed patent:does not explicitly state certain aspects of the invention, but still allows for these to be inferred from the information provided.
Basis patent:The core patent in a family, outlining the fundamental invention from which related patents or applications originate.
Family member:related patents or applications that share a common priority or original filing.