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RU2016107020A - Временная шкала harq для tdd-fdd агрегирования несущих - Google Patents

Временная шкала harq для tdd-fdd агрегирования несущих Download PDF

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RU2016107020A
RU2016107020A RU2016107020A RU2016107020A RU2016107020A RU 2016107020 A RU2016107020 A RU 2016107020A RU 2016107020 A RU2016107020 A RU 2016107020A RU 2016107020 A RU2016107020 A RU 2016107020A RU 2016107020 A RU2016107020 A RU 2016107020A
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subframe
harq
pusch
tdd
fdd
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RU2016107020A
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RU2631671C2 (ru
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Хун ХЭ
Цзун-Каэ ФУ
Сонхи ХАН
Ган СЮН
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ИНТЕЛ АйПи КОРПОРЕЙШН
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Claims (36)

1. Пользовательское устройство (UE) для обеспечения совместного функционирования режима дуплексного разделения по времени (TDD) и дуплексного разделения по частоте (FDD), содержащее:
приемник, выполненный с возможностью приема первой передачи по физическому совместно используемому каналу нисходящей линии связи (PDSCH) на FDD составляющей несущей (СС), осуществляемой первым усовершенствованным узлом В универсальной сети наземного радиодоступа (eNB), и приема второй передачи PDSCH на TDD СС, осуществляемой вторым eNB;
схему, выполненную с возможностью:
генерирования первого битового сообщения гибридного автоматического запроса на повторную передачу (HARQ) для первого eNB в ответ на прием первого PDSCH; и
генерирования второго битового сообщения HARQ для второго eNB в ответ на прием второго PDSCH; и
передатчик, выполненный с возможностью передачи первого битового сообщения HARQ в первом субкадре восходящей линии связи FDD СС, в соответствии с заданным временем HARQ для FDD системы долгосрочное развитие (LTE), и передачи второго битового сообщения HARQ во втором субкадре восходящей линии связи на FDD СС, в соответствии с заданным временем HARQ.
2. UE по п. 1, в котором заданное время HARQ указывает, что для передачи PDSCH, принятой в субкадре нисходящей линии связи, имеющем значение n индекса субкадра, соответствующее битовое сообщение HARQ подлежит передаче в течение субкадра восходящей линии связи, имеющего значение n+4 индекса субкадра.
3. UE по п. 1, в котором первый и второй eNBs являются одним и тем же eNB.
4. UE по п. 1, в котором первый eNB и второй eNB являются различными eNBs, соединенными интерфейсом транзитного соединения.
5. UE по п. 1, в котором первый и второй субкадры восходящей линии связи являются одним и тем же субкадром, и передатчик выполнен с возможностью передачи, в одном и том же субкадре, конкатенации первого и второго битовых сообщений HARQ для первого и второго eNBs.
6. UE по п. 1, в котором первое битовое сообщение HARQ содержит битовое подтверждение HARQ (HARQ-ACK).
7. UE по п. 1, в котором первый eNB выполнен с возможностью приема первого и второго битового сообщения HARQ на физическом канале управления восходящей линии связи (PUCCH) или физическом совместно используемом канале восходящей линии связи (PUSCH).
8. Пользовательское устройство (UE) для беспроводной связи в соответствии с конфигурацией дуплексного разделения по времени (TDD) и дуплексного разделения по частоте (FDD) TDD-FDD агрегирования несущих (CA) (TDD-FDD СА), содержащее:
передатчик для передачи первого физического совместно используемого канала восходящей линии связи (PUSCH) на FDD составляющей несущей (СС) TDD-FDD СА конфигурации в течение первого субкадра, в соответствии с первым заданным планируемым временем PUSCH, и передачи второго PUSCH на TDD СС TDD-FDD СА конфигурации во втором субкадре, в соответствии со вторым заданным планируемым временем PUSCH, причем первое заданное планируемое время PUSCH отличается от второго заданного планируемого времени PUSCH; и
схему для обеспечения обнаружения, посредством UE, на FDD СС, в соответствии с первым заданным временем PUSCH гибридного автоматического запроса на повторную передачу (HARQ), первого указателя физического канала HARQ (PHICH), ассоциированного с первым PUSCH, и обнаружения на TDD СС, в соответствии со вторым заданным временем PUSCH HARQ, второго PHICH, ассоциированного со вторым PUSCH, причем первое заданное время PUSCH HARQ отличается от второго заданного времени PUSCH HARQ.
9. UE по п. 8, дополнительно содержащее приемник, выполненный с возможностью приема, на FDD СС и TDD СС, одновременно первого PHICH, ассоциированного с первым PUSCH, и второго PHICH, ассоциированного со вторым PUSCH.
10. UE по п. 8, в котором первое заданное планируемое время HARQ указывает, что, в ответ на прием, посредством UE, FDD СС разрешения восходящей линии связи во время субкадра нисходящей линии связи, имеющего значение n индекса субкадра, передатчик выполнен с возможностью передачи первого PUSCH в FDD субкадре восходящей линии связи, имеющем значение n+4 индекса субкадра.
11. UE по п. 8, в котором второе заданное планируемое время PUSCH указывает, что, в ответ на прием, посредством UE, TDD СС разрешения восходящей линии связи в течение субкадра нисходящей линии связи, имеющего значение n индекса субкадра, передатчик выполнен с возможностью передачи второго PUSCH в субкадре TDD восходящей линии связи, имеющем значение n+k индекса субкадра, где k≥4, и k основан на сконфигурированном TDD типе конфигурации TDD СС.
12. UE по п. 8, в котором первое заданное время PUSCH HARQ указывает, что PUSCH на FDD СС в течение субкадра со значением n индекса субкадра имеет ассоциированное HARQ сообщение на первом PHICH в течение субкадра со значением n+4 индекса субкадра.
13. UE по п. 8, в котором второе заданное время PUSCH HARQ указывает, что PUSCH на FDD СС во время субкадра со значением n индекса субкадра имеет ассоциированное HARQ сообщение на втором PHICH в течение субкадра со значением n+k индекса субкадра, где k≥4, и k основано на сконфигурированном TDD типе конфигурации TDD СС.
14. UE по п. 8, в котором FDD и TDD CCs предоставляются совместно расположенными усовершенствованными узлами Bs универсальной сети наземного радиодоступа.
15. Пользовательское устройство (UE), сконфигурированное для планируемого агрегирования несущих пересекающихся несущих, содержащее:
схему, выполненную с возможностью:
декодирования указателя физического канала с гибридным автоматическим запросом на повторную передачу (HARQ) (PHICH) или физического канала управления нисходящей линии связи (PDCCH) в планируемой соте, имеющей первый дуплексный режим, для получения информации планирования последующих PUSCHs, при этом последующее PUSCHs включают в себя первый PUSCH в планируемой соте и второй PUSCH в планируемой соте, имеющей второй дуплексный режим, отличающийся от первого дуплексного режима;
обнаружения из PHICH первого HARQ в ответ на первый PUSCH, причем первый HARQ обнаруживается в соответствии с первым заданным временем HARQ, соответствующим первому дуплексному режиму; и
обнаружения из PHICH второго HARQ в ответ на второй PUSCH, в котором второй HARQ обнаруживается в соответствии со вторым заданным временем HARQ, соответствующим первому дуплексному режиму или второму дуплексному режиму.
16. UE по п. 15, в котором первый дуплексный режим является FDD режимом, а второй дуплексный режим является TDD режимом.
17. UE по п. 16, в котором, в ответ на прием, посредством UE, в течение субкадра со значением n индекса субкадра, PDCCH или PHICH передачи, ассоциированной с запланированной сотой, второй PUSCH выполнен с возможностью его передачи в соответствии с заданным планируемым временем FDD PUSCH в течение субкадра со значением индекса n+4.
18. UE по п. 16, в котором, в ответ на прием, посредством UE, в течение субкадра со значением n индекса субкадра, PDCCH или PHICH, ассоциированного с запланированной сотой, второй PUSCH выполнен с возможностью его передачи в течение субкадра со значением n+k индекса, где k≥4 и k основан на сконфигурированном TDD типе конфигурации.
19. UE по п. 16, в котором второе заданное время HARQ соответствует FDD режиму, при этом второе заданное время HARQ указывает, что второй PUSCH, переданный в течение субкадра со значением n индекса субкадра, имеет ассоциированное HARQ сообщение, переданное в PHICH в субкадре со значением n+4 индекса субкадра.
20. UE по п. 16, в котором второе заданное время HARQ соответствует режиму TDD, при этом второе заданное время HARQ указывает, что второй PUSCH, переданный в течение субкадра со значением n индекса, имеет ассоциированное HARQ сообщение, переданное в PHICH в течение субкадра со значением n+k индекса субкадра, где k≥4, и k основано на сконфигурированной TDD конфигурации.
21. UE по п. 15, в котором первый дуплексный режим представляет собой TDD режим, а и второй дуплексный режим является FDD режимом.
22. UE по п. 21, в котором, в ответ на прием, посредством UE, в течение субкадра со значением n индекса субкадра PDCCH или PHICH, ассоциированного с запланированной сотой, второй PUSCH выполнен с возможностью его передачи в течение субкадра со значением n+k индекса субкадра, где k≥4, и k основано на сконфигурированном TDD типе конфигурации.
23. UE по п. 21, в котором второе заданное время HARQ соответствует режиму TDD, при этом второе заданное время HARQ указывает, что второй PUSCH, переданный в течение субкадра со значением n индекса субкадра, имеет ассоциированное HARQ сообщение, передаваемое в PHICH в течение субкадра со значением n+k индекса субкадра, где k≥4, и где k основано на сконфигурированном TDD типе конфигурации.
24. UE по п. 15, в котором, в ответ на прием, UE, во время субкадра со значением n индекса субкадра PDCCH или PHICH, ассоциированного с запланированной сотой, второй PUSCH выполнен с возможностью его передачи в течение субкадра со значением n+k индекса субкадра, где k≥4, и k основано на сконфигурированном TDD типе конфигурации.
25. UE по п. 15, в котором второе заданное время HARQ соответствует режиму TDD, при этом второе заданное время HARQ указывает, что второй PUSCH, переданный в течение субкадра со значением n индекса субкадра, имеет ассоциированное HARQ сообщение, переданное в PHICH в течение субкадра со значением n+k индекса субкадра, где k≥4, и k основано на сконфигурированной TDD конфигурации.
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