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公开(公告)号:US20210028895A1
公开(公告)日:2021-01-28
申请号:US17060581
申请日:2020-10-01
Applicant: Intel Corporation
Inventor: Manasa Raghavan , Qiming Li , Andrey Chervyakov , Hua Li
Abstract: Various embodiments herein provide techniques for preventing radio link failure in ultra-reliable and low latency communication (URLLC). Other embodiments may be described and claimed.
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公开(公告)号:US20210022018A1
公开(公告)日:2021-01-21
申请号:US17061289
申请日:2020-10-01
Applicant: Intel Corporation
Inventor: Dmitry Belov , Andrey Chervyakov , Alexey Khoryaev , Artyom Putilin
IPC: H04W24/06 , H04W72/04 , H04L5/00 , H04B7/0413
Abstract: Embodiments described herein include techniques to select carrier aggregation (CA) configuration for Normal CA requirements. The techniques described herein may define techniques for CA configuration selection taking into account New Radio (NR) radio resource control (RRC) and capability signaling design. Other embodiments may be described and claimed.
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公开(公告)号:US20190273569A1
公开(公告)日:2019-09-05
申请号:US16410562
申请日:2019-05-13
Applicant: INTEL CORPORATION
Inventor: Shuang Tian , Andrey Chervyakov , Dmitry Belov , Jie Cui , Yang Tang
IPC: H04B17/391 , H04B17/21 , H04B7/08 , H04B17/29
Abstract: Systems and methods provide solutions for testing an 8Rx capable UE using test cases for 4Rx capable UEs. An example method establishes a connection from a first Tx source and a second Tx source to each of 8Rx antenna ports. The connection duplicates a fading channel from both the first Tx source and the second Tx source to each of the eight Rx antenna ports, and adds independent noise for each of the 8Rx antenna ports. One test scenario uses 4Rx supported RF bands by connecting four of the Rx ports with data from a system simulator, and the other four Rx ports are connected with zero input. Same requirements specified with 4Rx capable UEs are applied. Another test scenario uses 8Rx supported RF bands and applies lower dB SNR requirements than those specified for 4Rx tests.
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公开(公告)号:US20190246377A1
公开(公告)日:2019-08-08
申请号:US16376990
申请日:2019-04-05
Applicant: INTEL CORPORATION
Inventor: Yuhan Zhou , Jie Cui , Yang Tang , Andrey Chervyakov
Abstract: Systems and methods provide solutions for delay and interruption requirements for vehicle-to-everything (V2X) sidelink carrier aggregation (CA). For example, when any number of component carriers is added for V2X CA, a user equipment (UE) capable of V2X sidelink communication is allowed an interruption of up to two subframes to the cellular network. The interruption may be for both uplink and downlink of a serving cell or primary cell.
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55.
公开(公告)号:US20180376474A1
公开(公告)日:2018-12-27
申请号:US15742406
申请日:2016-03-24
Applicant: INTEL CORPORATION
Inventor: Alexey Khoryaev , Sergey Panteleev , Sergey D. Sosnin , Mikhail Shilov , Andrey Chervyakov
CPC classification number: H04W72/0446 , H04L1/0007 , H04L5/003 , H04L5/0064 , H04L5/0087 , H04L27/2602 , H04W4/46 , H04W72/1215 , H04W76/14
Abstract: Increasing a number of orthogonal time-domain transmission opportunities in a Proximity Services (ProSe) traffic generation period can reduce over-air congestion and collision in long term evolution (LTE) communications. Resource configurations can be adjusted, including providing a new physical layer numerology, reducing transmission time (TTI) interval duration, providing a smaller sidelink control information period, configuring logical sidelink control periods and/or multiplexing of control and data transmissions.
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公开(公告)号:US09998858B2
公开(公告)日:2018-06-12
申请号:US14771269
申请日:2014-04-03
Applicant: Intel Corporation
Inventor: Alexey Khoryaev , Sergey Panteleev , Mikhail Shilov , Andrey Chervyakov , Jong-Kae Fwu
CPC classification number: H04W4/021 , H04L67/16 , H04L67/28 , H04W4/00 , H04W4/80 , H04W52/10 , H04W52/244 , H04W72/0413 , H04W72/042 , H04W72/0473 , H04W76/11 , H04W76/14 , H04W84/12
Abstract: Techniques for adjacent channel interference mitigation are described. In one embodiment, for example, a user equipment (UE) may comprise logic, at least a portion of which is in hardware, the logic to associate the UE with a pico evolved node B (eNB) in a time-division duplex (TDD) picocell, identify an incongruent uplink (UL) sub-frame for the picocell, and select an enhanced UL transmit power for the incongruent UL sub-frame. Other embodiments are described and claimed.
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公开(公告)号:US09736861B2
公开(公告)日:2017-08-15
申请号:US14823818
申请日:2015-08-11
Applicant: INTEL CORPORATION
Inventor: Debdeep Chatterjee , Jong-Kae Fwu , Alexey Khoryaev , Hong He , Mikhail A. Shilov , Andrey Chervyakov , Sergey Panteleev
IPC: H04J3/16 , H04W74/08 , H04W28/08 , H04W76/02 , H04W4/06 , H04L5/14 , H04L5/00 , H04W28/02 , H04W72/04 , H04W24/10 , H04W36/08 , H04W24/02 , H04W4/00 , H04W72/08 , H04L12/18 , H04W36/00
CPC classification number: H04W74/0808 , H04L5/0001 , H04L5/0023 , H04L5/0037 , H04L5/0044 , H04L5/0048 , H04L5/0053 , H04L5/0064 , H04L5/0094 , H04L5/14 , H04L12/189 , H04W4/06 , H04W4/70 , H04W24/02 , H04W24/10 , H04W28/02 , H04W28/0268 , H04W28/08 , H04W36/0016 , H04W36/08 , H04W72/04 , H04W72/0406 , H04W72/042 , H04W72/085 , H04W74/0833 , H04W76/10 , H04W76/19 , Y02D70/00 , Y02D70/1224 , Y02D70/1242 , Y02D70/1262 , Y02D70/1264 , Y02D70/142 , Y02D70/144 , Y02D70/146 , Y02D70/164 , Y02D70/21 , Y02D70/24
Abstract: Technology for adapting uplink-downlink (UL-DL) time-division duplexing (TDD) subframe configurations in a heterogeneous network (HetNet) is disclosed. One method can include a reference enhanced Node B (eNB) determining a preferred adaptive UL-DL configuration. The eNB can receive node configuration information for at least one neighboring node. The eNB can reconfigure an adaptive UL-DL configuration for at least one of the reference eNB and the at least one neighboring node based on the node configuration information and sounding reference signal (SRS) subframe scheduling of the reference eNB and the at least one neighboring eNB.
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58.
公开(公告)号:US09673928B2
公开(公告)日:2017-06-06
申请号:US14532570
申请日:2014-11-04
Applicant: Intel Corporation
Inventor: Alexander Sirotkin , Alexey Khoryaev , Andrey Chervyakov , Mikhail A. Shilov , Sergey Panteleev
IPC: H04J3/16 , H04B7/26 , H04W36/00 , H04W24/10 , H04W72/04 , H04W72/08 , H04J3/00 , H04B1/56 , H04W56/00 , H04W52/02 , H04W76/02 , H04W4/22 , H04W36/22 , H04B15/00 , H04W76/04 , H04B7/024 , H04B7/0456 , H04B7/06 , H04W24/02 , H04W72/12 , H04L29/02 , H04W4/00 , H04W4/06 , H04W48/20 , H04W16/14 , H04B7/04 , H04L29/06 , H04W4/02 , H04J3/26 , H04L27/26 , H04W72/10 , H04L5/00 , H04L5/14 , H04W36/32 , H04W4/16 , H04W36/04 , H04W36/16 , H04W72/00 , H04B7/0417 , H04W36/30 , H04W36/18 , H04W88/06 , H04W72/02 , H04L1/00 , H04L1/18 , H04W88/02 , H04W88/08
CPC classification number: H04W52/0235 , H04B1/56 , H04B7/024 , H04B7/0417 , H04B7/0456 , H04B7/0473 , H04B7/0486 , H04B7/0626 , H04B7/063 , H04B7/0632 , H04B7/0639 , H04B7/0647 , H04B7/065 , H04B7/26 , H04B15/00 , H04J3/00 , H04J3/1694 , H04J3/26 , H04L1/0026 , H04L1/1803 , H04L1/1822 , H04L5/0007 , H04L5/001 , H04L5/0035 , H04L5/0053 , H04L5/0073 , H04L5/0096 , H04L5/14 , H04L5/1469 , H04L27/2627 , H04L29/02 , H04L69/22 , H04L69/324 , H04W4/02 , H04W4/023 , H04W4/06 , H04W4/16 , H04W4/70 , H04W4/90 , H04W16/14 , H04W24/02 , H04W24/10 , H04W36/00 , H04W36/0055 , H04W36/0061 , H04W36/0088 , H04W36/04 , H04W36/16 , H04W36/18 , H04W36/22 , H04W36/30 , H04W36/32 , H04W48/20 , H04W52/0209 , H04W52/0212 , H04W52/0216 , H04W52/0225 , H04W52/0229 , H04W52/0251 , H04W56/00 , H04W56/001 , H04W72/005 , H04W72/02 , H04W72/0413 , H04W72/042 , H04W72/0426 , H04W72/044 , H04W72/048 , H04W72/082 , H04W72/085 , H04W72/10 , H04W72/12 , H04W72/1215 , H04W72/1226 , H04W76/14 , H04W76/18 , H04W76/27 , H04W76/28 , H04W88/02 , H04W88/06 , H04W88/08 , Y02D70/00 , Y02D70/1222 , Y02D70/1224 , Y02D70/1242 , Y02D70/1244 , Y02D70/1246 , Y02D70/1262 , Y02D70/1264 , Y02D70/142 , Y02D70/144 , Y02D70/146 , Y02D70/162 , Y02D70/164 , Y02D70/166 , Y02D70/168 , Y02D70/21 , Y02D70/22 , Y02D70/23 , Y02D70/24 , Y02D70/40 , Y02D70/442 , Y02D70/444
Abstract: Some demonstrative embodiments include devices, systems and/or methods of Time-Division Duplexing (TDD) Uplink-Downlink (UL-DL) configuration management. For example, a node may communicate a message including a cell identifier identifying a first cell controlled by the node, and a TDD configuration update to update at least one other node, which controls at least one second cell, with a TDD UL-DL configuration allocated by the node for communication within the first cell.
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59.
公开(公告)号:US20160164656A1
公开(公告)日:2016-06-09
申请号:US15014770
申请日:2016-02-03
Applicant: INTEL CORPORATION
Inventor: Alexey Khoryaev , Mikhail Shilov , Sergey Panteleev , Andrey Chervyakov , Artyom Lomayev
CPC classification number: H04L5/1446 , H04J11/0073 , H04L1/0033 , H04L1/1635 , H04L1/1812 , H04L1/1819 , H04L1/1825 , H04L1/1854 , H04L1/1864 , H04L1/1877 , H04L1/1887 , H04L1/189 , H04L1/1896 , H04L5/001 , H04L5/0053 , H04L5/0055 , H04L5/0073 , H04L5/14 , H04L5/1438 , H04L5/1469 , H04L12/189 , H04L12/2854 , H04L47/283 , H04L65/601 , H04L67/02 , H04L67/2842 , H04N21/25841 , H04N21/41407 , H04N21/6405 , H04N21/6408 , H04W4/06 , H04W24/00 , H04W24/02 , H04W28/0236 , H04W28/0268 , H04W28/0278 , H04W52/02 , H04W52/0206 , H04W52/0209 , H04W52/0229 , H04W52/0235 , H04W52/143 , H04W52/243 , H04W72/04 , H04W72/0406 , H04W72/0413 , H04W72/042 , H04W72/0426 , H04W72/0446 , H04W72/048 , H04W72/082 , H04W72/1205 , H04W72/1242 , H04W72/1268 , H04W72/1273 , H04W72/1284 , H04W74/085 , H04W76/27 , H04W76/28 , Y02D70/00 , Y02D70/1224 , Y02D70/1242 , Y02D70/1244 , Y02D70/1246 , Y02D70/1262 , Y02D70/1264 , Y02D70/142 , Y02D70/144 , Y02D70/146 , Y02D70/164 , Y02D70/21 , Y02D70/22 , Y02D70/23 , Y02D70/24
Abstract: Technology is discussed to allow transmission points within a Wireless Wide Area Network (WWAN) to adapt to Up Link (UL) and Down Link (DL) traffic demands independently. To mitigate potential interference arising from transmission points scheduled for conflicting UL and DL transmissions, measurements between transmission points can be made to indicate a level of coupling. Based on the various levels of coupling between transmission points, clusters can be formed. Where a high level of coupling is present, transmission points can be included in a common cluster. Where a low level of coupling is present, they can be isolated. Transmission points within the same cluster are scheduled with a common pattern of UL and DL transmissions to avoid interference. Transmission points in different clusters can have different patterns of UL and DL transmission to independently adapt to the relative demands for UL and DL transmissions experienced within these different clusters.
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公开(公告)号:US20160157216A1
公开(公告)日:2016-06-02
申请号:US14926418
申请日:2015-10-29
Applicant: Intel Corporation
Inventor: Jong-Kae Fwu , Alexey Vladimirovich Khoryaev , Debdeep Chatterjee , Mikhail Shilov , Andrey Chervyakov , Sergey Panteleev , Hong He
IPC: H04W72/04
CPC classification number: H04W72/044 , H04B1/69 , H04B7/024 , H04B7/0413 , H04B7/0456 , H04B7/0617 , H04B7/0623 , H04B7/0626 , H04B7/0639 , H04L1/0026 , H04L1/0027 , H04L1/0031 , H04L1/1864 , H04L1/1887 , H04L1/1896 , H04L5/0035 , H04L5/0048 , H04L5/005 , H04L5/0053 , H04L5/1469 , H04L12/189 , H04L27/2607 , H04L65/4076 , H04L65/608 , H04W4/08 , H04W4/70 , H04W36/0094 , H04W36/04 , H04W48/16 , H04W52/0216 , H04W72/04 , H04W72/0406 , H04W72/042 , H04W72/0493 , H04W72/082 , H04W72/085 , H04W76/27 , H04W76/28 , Y02D70/00 , Y02D70/1222 , Y02D70/1224 , Y02D70/1242 , Y02D70/1244 , Y02D70/1246 , Y02D70/1262 , Y02D70/1264 , Y02D70/142 , Y02D70/144 , Y02D70/146 , Y02D70/162 , Y02D70/164 , Y02D70/166 , Y02D70/168 , Y02D70/21 , Y02D70/22 , Y02D70/23 , Y02D70/24 , Y02D70/442 , Y02D70/444
Abstract: An apparatus and method for managing interference to facilitate allocation of a dynamic uplink and downlink configuration are disclosed herein. Determining whether a first cell causes interference less than a pre-determined threshold level to one or more neighboring cells or whether flexible subframes of radio frames associated with the one or more neighboring cells operate as downlink subframes. In response to the determining condition being met, allocating a first flexible subframe of a first radio frame associated with the first cell to operate as a downlink subframe at normal transmit power level. In response to the determining condition not being met, allocating the first flexible subframe of the first radio frame associated with the first cell as one of a downlink subframe operating in a reduced transmit power level or as an uplink subframe.
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