Abstract
Enhanced MAC-es PDUs are created by concatenating enhanced MAC-es service data units (SDUs) based on higher layer PDUs and segments thereof where segmentation information is included in the enhanced MAC-es headers. An enhanced MAC-e header is generated for each enhanced MAC-es PDU to describe information about the enhanced MAC-es PDU. An enhanced MAC-e PDU is created by concatenating enhanced MAC-es PDUs and enhanced MAC-e headers. An enhanced MAC-es header may include a Transmit Sequence Number (TSN) field a Segmentation Description (SD) field length (L) fields to indicate the length of each enhanced MAC-es SDU and/or logical channel indicator (LCH-ID) fields. An enhanced MAC-e header may include one or more logical channel indicator (LCH-ID) fields for corresponding enhanced MAC-es PDUs or MAC-s SDUs and length (L) fields.
Technology | Declaration Information | Specification Information | Explicitly Disclosed | Patent Type | |||||
---|---|---|---|---|---|---|---|---|---|
Declaration Date | Declaration Reference | Declaring Company | Specification Information | ||||||
3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member |
Specification Information
Specification Information
Technologies
Family Information
All Granted Patents In Patent Family : | ---- |
Publication No | Technology | Declaration Information | Specification Information | Explicitly Disclosed | Patent Type | |||||
---|---|---|---|---|---|---|---|---|---|---|
Declaration Date | Declaration Reference | Declaring Company | Specification Information | |||||||
US2009086659A1 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
Yes | Basis Patent | |||
US8199757B2 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
Yes | Basis Patent | |||
AU2008308980A1 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
Yes | Family Member | |||
AU2008308980B2 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
Yes | Family Member | |||
KR101108396B1 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
Yes | Family Member | |||
KR20100057904A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
Yes | Family Member | |||
MX2010002654A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
Yes | Family Member | |||
KR20100061762A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
Yes | Family Member | |||
EP2201698A2 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
Yes | Family Member | |||
AR068577A1 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
CN201499313U | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
CN101939940A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
CN101939940B | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
JP2010541417A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
WO2009045893A2 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
WO2009045893A3 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
TWM354954U | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
TW200917767A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
TWI484802B | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
JP2012253812A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
JP5460794B2 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
TW201304478A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
TWI484805B | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
US2013121242A1 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
US9030996B2 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
BRPI0816546A2 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
CN103929780A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
IL204071A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
JP2014112896A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
JP5830550B2 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
KR20140023450A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
MY152345A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
US2015230132A1 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
JP2016029837A | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
JP6224673B2 | 3G | 16/09/2010 | ISLD-201010-010 | INTERDIGITAL INC |
S1
S2
|
No | Family Member | |||
EP2201698B1 | ----- | ----- | ----- | ----- | ----- | ----- | ----- | |||
BRPI0816546B1 | ----- | ----- | ----- | ----- | ----- | ----- | ----- | |||
CN103929780B | ----- | ----- | ----- | ----- | ----- | ----- | ----- |
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
![](https://www.frandavenue.com/assets/frontend/images/bullet.png)
Product
Use Cases
![](https://www.frandavenue.com/assets/frontend/images/bullet.png)
Services
Claim
1. A method for wireless communications, the method comprising:
generating an enhanced medium access control (MAC-es) protocol data unit (PDU), the enhanced MAC-es PDU comprising a plurality of enhanced MAC-es service data units (SDUs), wherein at least one of the enhanced MAC-es SDUs comprises a segment of a higher layer PDU;
generating an enhanced MAC-e header associated with the enhanced MAC-es PDU;
adding a first logical channel identification (LCH-ID) field and a second LCH-ID field to the enhanced MAC-e header, wherein the first LCH-ID field identifies a first logical channel for a first enhanced MAC-es SDU in the enhanced MAC-es PDU, and wherein the second LCH-ID field identifies a second logical channel for a second enhanced MAC-es SDU in the enhanced MAC-es PDU; and
concatenating the enhanced MAC-e header and the enhanced MAC-es PDU to form an enhanced MAC-e PDU.
2. The method of claim 1, further comprising:
generating a plurality of enhanced MAC-es PDUs; and
generating a plurality of enhanced MAC-e headers, each of the plurality of enhanced MAC-e headers being associated with a corresponding enhanced MAC-es PDU.
3. The method of claim 2, further comprising concatenating the plurality of enhanced MAC-e headers and the plurality of enhanced MAC-es PDUs to form the enhanced MAC-e PDU.
4. The method of claim 1, further comprising adding
a first length (L) field and a second L field to the enhanced MAC-e header, wherein the first L field indicates a first length of the first enhanced MAC-es SDU in the enhanced MAC-es PDU, and wherein the second L field indicates a second length of the second enhanced MAC-es SDU in the enhanced MAC-es PDU.
5. The method of claim 1, further comprising generating, for the enhanced MAC-es PDU, an enhanced MAC-es header with a segmentation field that indicates whether one or more of the enhanced MAC-es SDUs of the enhanced MAC-es PDU is a segmented higher layer PDU.
6. The method of claim 5, wherein the enhanced MAC-es header comprises a transmit sequence number (TSN) field for providing a TSN for the enhanced MAC-es PDU.
7. A wireless transmit/receive unit (WTRU) comprising:
a processor configured to:
generate an enhanced medium access control (MAC-es) protocol data unit (PDU), wherein the enhanced MAC-es PDU comprises a plurality of enhanced MAC-es service data units (SDUs), and wherein at least one of the enhanced MAC-es SDUs comprises a segment of a higher layer PDU;
generate an enhanced MAC-e header associated with the enhanced MAC-es PDU;
add a first logical channel identification (LCH-ID) field and a second LCH-ID field to the enhanced MAC-e header, wherein the first LCH-ID field identifies a first logical channel for a first enhanced MAC-es SDU in the enhanced MAC-es PDU, and wherein the second LCH-ID field identifies a second logical channel for a second enhanced MAC-es SDU in the enhanced MAC-es PDU; and
concatenate the enhanced MAC-e header and the enhanced MAC-es PDU to form an enhanced MAC-e PDU.
8. The WTRU of claim 7, wherein the processor is further configured to:
generate a plurality of enhanced MAC-es PDUs; and
generate a plurality of enhanced MAC-e headers, wherein each of the plurality of enhanced MAC-e headers is associated with a corresponding enhanced MAC-es PDU.
9. The WTRU of claim 8, wherein the processor is further configured to concatenate the plurality of enhanced MAC-e headers and the plurality of enhanced MAC-es PDUs to form the enhanced MAC-e PDU.
10. The WTRU of claim 7, wherein the processor is further configured to add
a first length (L) field and a second L field to the enhanced MAC-e header, wherein the first L field indicates a first length of the first enhanced MAC-es SDU in the enhanced MAC-es PDU, and wherein the second L field indicates a second length of the second enhanced MAC-es SDU in the enhanced MAC-es PDU.
11. The WTRU of claim 7, wherein the processor is further configured to generate, for the enhanced MAC-es PDU, an enhanced MAC-es header with a segmentation field that indicates whether one or more of the enhanced MAC-es SDUs of the enhanced MAC-es PDU is a segmented higher layer PDU.
12. The WTRU of claim 11, wherein the enhanced MAC-es header comprises a transmit sequence number (TSN) field for providing a TSN for the enhanced MAC-es PDU.
13. A method for communicating an Iub enhanced dedicated channel (E-DCH) data frame, the method comprising:
inserting an enhanced medium access control (MAC-es) protocol data unit (PDU) into the Iub E-DCH data frame, the enhanced MAC-es PDU comprising a plurality of enhanced MAC-es service data units (SDUs), at least one of the enhanced MAC-es SDUs comprising a segment of a higher layer PDU; and
inserting a first descriptor and a second descriptor into the Iub E-DCH data frame, the first descriptor configured to identify a first logic channel associated with a first enhanced MAC-es SDU in the enhanced MAC-es PDU, and wherein the second descriptor is configured to identify a second logic channel associated with a second enhanced MAC-es SDU in the enhanced MAC-es PDU.
14. The method of claim 13, further comprising transmitting the Iub E-DCH data frame.
15. The method of claim 13, wherein the first descriptor is configured to identify an end of the first descriptor via a first finish flag and a first length associated with the first enhanced MAC-es SDU in the enhanced MAC-es PDU, and wherein the second descriptor is configured to identify an end of the second descriptor via a second finish flag and a second length associated with the second enhanced MAC-es SDU in the enhanced MAC-es PDU.
16. A Node B comprising:
a processor configured to:
insert an enhanced medium access control (MAC-es) protocol data unit (PDU) into an Iub enhanced dedicated channel (E-DCH) data frame, each enhanced MAC-es PDU comprising a plurality of enhanced MAC-es service data units (SDUs), at least one of the enhanced MAC-es SDUs comprising a segment of a higher layer PDU; and
insert a first descriptor and a second descriptor into the Iub E-DCH data frame, wherein the first descriptor is configured to identify a first logic channel associated with a first enhanced MAC-es SDU in the enhanced MAC-es PDU, and wherein the second descriptor is configured to identify a second logic channel associated with a second enhanced MAC-es SDU in the enhanced MAC-es PDU.
17. The Node B of claim 16, wherein the processor is further configured to transmit the Iub E-DCH data frame.
18. The Node B of claim 16, wherein the first descriptor is further configured to identify an end of the first descriptor via a first finish flag and a first length associated with the first enhanced MAC-es SDU, in the enhanced MAC-es PDU, and wherein the second descriptor is configured to identify an end of the second descriptor via a second finish flag and a second length associated with the second enhanced MAC-es SDU in the enhanced MAC-es PDU.
Associated Portfolios
![](https://www.frandavenue.com/assets/frontend/images/licensor_claim_chart.png)
![]() |
![]() |
![]() |
![]() |
---|---|---|---|
Claim charts will soon be available!
|
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.