公开(公告)号：US20210345395A1

公开(公告)日：2021-11-04

申请号：US17265764

申请日：2019-08-09

Applicant: INTEL CORPORATION

Inventor： Debdeep Chatterjee ,  Gregory V. Morozov ,  Qiaoyang Ye

IPC: H04W72/14 ,  H04W76/27 ,  H04W56/00 ,  H04W4/80

Abstract: Technology for a low mobility user equipment (UE) operable to perform uplink (UL) transmissions using configured grant (CG) physical uplink shared channel (PUSCH) resources is disclosed. The UE can decode a CG PUSCH resource configuration from an eNodeB while the low mobility UE is in a radio resource control (RRC) connected state. The CG PUSCH resource configuration can indicate CG PUSCH resources for the low mobility UE after the low mobility UE transitions from the RRC connected state to an RRC idle state. The UE can transition from the RRC connected state to the RRC idle state. The UE can encode data packets for transmission over a PUSCH to the eNodeB using the CG PUSCH resources while the low mobility UE is in the RRC idle state.

公开(公告)号：US20210203449A1

公开(公告)日：2021-07-01

申请号：US17200770

申请日：2021-03-13

Applicant: Intel Corporation

Inventor： Debdeep Chatterjee ,  Gregory V. Morozov ,  Sudeep Palat ,  Sergey D. Sosnin ,  Gang Xiong

IPC: H04L1/18 ,  H04W72/04 ,  H04W76/27

Abstract: Provided herein are mechanisms on response of pre-allocated resource based PUSCH transmission. The disclosure provides an apparatus including processor circuitry. The processor circuitry is to: encode data, for transmission to an access node (AN) over a pre-allocated uplink (UL) resource (PUR) based physical uplink shared channel (PUSCH); start a timer once the data is transmitted; and monitor, based on the timer, a physical downlink control channel (PDCCH) to obtain a response of the AN to the transmission of the data. Other embodiments may also be disclosed and claimed.

公开(公告)号：US20190239283A1

公开(公告)日：2019-08-01

申请号：US16376333

申请日：2019-04-05

Applicant: Intel Corporation

Inventor： Yongjun Kwak ,  Dae Won Lee ,  Gregory V. Morozov ,  Seunghee Han ,  Hong He ,  Candy Yiu ,  Kyeongin Jeong

IPC: H04W88/02 ,  H04W74/08 ,  H04W72/12 ,  H04W72/04 ,  H04W80/02 ,  H04L1/00 ,  H04W56/00 ,  H04W76/27 ,  H04L1/18 ,  H04L5/00

CPC classification number: H04W88/023 ,  H04L1/0026 ,  H04L1/1819 ,  H04L5/0055 ,  H04W56/001 ,  H04W56/005 ,  H04W72/0413 ,  H04W72/0446 ,  H04W72/1242 ,  H04W74/0833 ,  H04W76/27 ,  H04W80/02

Abstract: An apparatus is configured for a user equipment (UE) device. The apparatus comprises baseband circuitry and/or application circuitry which includes a radio frequency (RF) interface and one or more processors. The one or more processors are configured to generate a physical random access channel (PRACH) within a slot at a medium access control (MAC) layer, generate a scheduling request (SR) within the slot at the MAC layer, determine a PRACH prioritization and an SR prioritization at a physical layer according to a prioritization rule; and provide the PRACH and the SR to the RF interface for transmission according to the prioritization rule.

公开(公告)号：US10211960B2

公开(公告)日：2019-02-19

申请号：US15791047

申请日：2017-10-23

Applicant: Intel Corporation

Inventor： Alexei Davydov ,  Gi Wan Choi ,  Alexander Maltsev ,  Gregory V. Morozov

IPC: H04L5/00 ,  H04B1/10 ,  H04L27/34 ,  H04W52/16 ,  H04W52/36 ,  H04L27/18

Abstract: Power offset signaling techniques for network-assisted interference cancellation and suppression (NAICS) receivers are described. In one embodiment, for example, user equipment (UE) may comprise at least one radio frequency (RF) transceiver, at least one RF antenna, and logic, at least a portion of which is in hardware, the logic to receive a radio resource control (RRC) connection control message comprising a RadioResourceConfigDedicated field and perform a radio resource configuration procedure in response to receipt of the RRC connection control message, the RRC connection control message to comprise network-assisted interference cancellation and suppression (NAICS) assistance information that identifies a power offset value for one or more transmissions to the UE over a physical downlink shared channel (PDSCH) of a serving cell of the UE. Other embodiments are described and claimed.

公开(公告)号：US10009881B2

公开(公告)日：2018-06-26

申请号：US14716846

申请日：2015-05-19

Applicant: Intel Corporation

Inventor： Alexei Davydov ,  Hwan-Joon Kwon ,  Gregory V. Morozov

IPC: H04L1/00 ,  H04W72/04 ,  H04W76/27 ,  H04L27/34 ,  H04B7/02 ,  H04L27/36 ,  H04W76/04 ,  H04L27/00 ,  H04L27/38 ,  H04W84/04 ,  H04W88/02

CPC classification number: H04W72/042 ,  H04B7/028 ,  H04L1/0003 ,  H04L1/0009 ,  H04L1/0013 ,  H04L1/0025 ,  H04L1/0061 ,  H04L27/0008 ,  H04L27/34 ,  H04L27/36 ,  H04L27/362 ,  H04L27/38 ,  H04W76/27 ,  H04W84/042 ,  H04W88/02

Abstract: Described is a UE to communicate with an eNB on a network, the UE comprising: an antenna to receive messaging from eNB indicating switching to 256-QAM scheme from an existing non-256-QAM scheme; and a table component for storing soft channel bits based on Nsoft such that the number and value of the soft channel bits for using the 256-QAM scheme is substantially equal to the number and value of the soft channel bits when the UE is not using the 256-QAM scheme. Described is an eNB comprising: an antenna to transmit messaging to a UE indicating switching to 256-QAM scheme from an existing non-256-QAM scheme; and an encoder to encode data using memory usage size based on Nsoft such that the number and value of the Nsoft for using the 256-QAM scheme is substantially equal to the number and value of the Nsoft when the eNB is not using the 256-QAM scheme.

公开(公告)号：US20190326959A1

公开(公告)日：2019-10-24

申请号：US16476537

申请日：2017-12-27

Applicant: INTEL CORPORATION

Inventor： Alexei Davydov ,  Gregory V. Morozov ,  Victor Sergeev ,  Wook Bong Lee

IPC: H04B7/0417 ,  H04B7/0456 ,  H04B7/06 ,  H04L5/00 ,  H04W88/02

Abstract: Technology for a user equipment (UE) operable to assist a Next Generation NodeB (gNB) for beamforming is disclosed. The UE can determine a covariance matrix for a channel between the UE and the gNB. The UE can quantize the covariance matrix to obtain a quantized covariance matrix. The quantized covariance matrix can include M best diagonal entries that are selected from the covariance matrix, wherein M is an integer. The UE can encode the quantized covariance matrix as feedback for transmission to the gNB.

公开(公告)号：US20160227485A1

公开(公告)日：2016-08-04

申请号：US14863665

申请日：2015-09-24

Applicant: Intel Corporation

Inventor： Alexei Davydov ,  Seunghee Han ,  Gregory V. Morozov

IPC: H04W52/14 ,  H04L5/00

CPC classification number: H04W52/146 ,  H04L5/0048 ,  H04L5/0053 ,  H04W52/242

Abstract: Apparatus, systems, and methods to implement DRS-based power control in communication systems are described. In one example, a network entity comprises processing circuitry to configure at least one discovery reference signal (DRS) for path loss measurement, determine a discovery reference signal power setting and transmit the discovery reference signal (DRS) via a wireless communication link. Other examples are also disclosed and claimed.

Abstract translation: 描述了在通信系统中实现基于DRS的功率控制的装置，系统和方法。 在一个示例中，网络实体包括处理电路以配置用于路径损耗测量的至少一个发现参考信号（DRS），确定发现参考信号功率设置并且经由无线通信链路发送发现参考信号（DRS）。 还公开并要求保护其他实例。

公开(公告)号：US09231723B2

公开(公告)日：2016-01-05

申请号：US13725370

申请日：2012-12-21

Applicant: Intel Corporation

Inventor： Yuan Zhu ,  Alexei Davydov ,  Gregory V. Morozov ,  Debdeep Chatterjee ,  Xiaogang Chen ,  Qinghua Li ,  Huaning Niu ,  Jong-Kae Fwu

IPC: H04J3/26 ,  H04B7/26 ,  H04W36/00 ,  H04J3/16 ,  H04W24/10 ,  H04W72/04 ,  H04W72/08 ,  H04J3/00 ,  H04B1/56 ,  H04W56/00 ,  H04W52/02 ,  H04W76/02 ,  H04W4/22 ,  H04W36/22 ,  H04B15/00 ,  H04W76/04 ,  H04B7/02 ,  H04B7/04 ,  H04B7/06 ,  H04W24/02 ,  H04W72/12 ,  H04L29/02 ,  H04W4/00 ,  H04W4/06 ,  H04W48/20 ,  H04L29/06 ,  H04W4/02 ,  H04L27/26 ,  H04W72/10 ,  H04W36/30 ,  H04W36/18 ,  H04W88/06 ,  H04W72/02 ,  H04W16/14

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: Technology for mitigating edge effect interference in a Coordinated MultiPoint (CoMP) system having multiple CoMP clusters is disclosed. In an example, a method can include a macro node transmitting a cell range expansion request to user equipments (UEs) within a cell. A CoMP cluster for nodes within the cell that includes UEs operating with the cell range expansion can be generated. Blanked resources between a plurality of macro nodes for the CoMP clusters in the CoMP system can be coordinated using a muting preference including a blanked resource.

Abstract translation: 披露了具有多个CoMP簇的协调多点（CoMP）系统中减轻边缘效应干扰的技术。 在一个示例中，方法可以包括将小区范围扩展请求发送到小区内的用户设备（UE）的宏节点。 可以生成包括小区范围扩展操作的小区内的节点的CoMP簇。 可以使用包含空白资源的静默偏好来协调CoMP系统中的CoMP群集的多个宏节点之间的空白资源。

公开(公告)号：US20150245366A1

公开(公告)日：2015-08-27

申请号：US14582346

申请日：2014-12-24

Applicant: INTEL CORPORATION

Inventor： Alexei Davydov ,  Gregory V. Morozov ,  Gi Wan Choi

IPC: H04W72/08 ,  H04B15/00 ,  H04B1/10

CPC classification number: H04J11/0056 ,  H04B1/10 ,  H04B15/00 ,  H04L1/0038 ,  H04L5/0053 ,  H04L5/0073 ,  H04L5/0091 ,  H04W72/082

Abstract: Technology for reducing signal interference is disclosed. Semi-static signaling can be received at a user equipment (UE) from a neighboring evolved node (eNB). The semi-static signaling can include potential configurations of signal parameters used at the neighboring eNB. The UE can receive dynamic signaling from the neighboring eNB that includes a subset of the potential configurations of signal parameters used at the neighboring eNB. Signal interference that is caused by the neighboring eNB can be reduced using the semi-static signaling and the dynamic signaling.

Abstract translation: 公开了用于减少信号干扰的技术。 可以在来自相邻演进节点（eNB）的用户设备（UE）处接收半静态信令。 半静态信令可以包括在相邻eNB处使用的信号参数的潜在配置。 UE可以从相邻eNB接收包括在相邻eNB处使用的信号参数的潜在配置的子集的动态信令。 可以使用半静态信令和动态信令来减少由相邻eNB引起的信号干扰。

公开(公告)号：US11563610B2

公开(公告)日：2023-01-24

申请号：US17252959

申请日：2019-09-20

Applicant: Intel Corporation

Inventor： Gang Xiong ,  Gregory V. Morozov ,  Jie Zhu ,  Yushu Zhang ,  Dae Won Lee

IPC: H04L27/26 ,  H04J11/00 ,  H04J13/00 ,  H04L5/00 ,  H04W72/00 ,  H04W56/00

Abstract: A device of a New Radio (NR) User Equipment (UE), a method and a machine readable medium to implement the method. The device includes a Radio Frequency (RF) interface, and processing circuitry coupled to the RF interface, the processing circuitry to: encode for transmission, to a User Equipment (UE), a Synchronization Signal Block (SSB) including a Physical Broadcast Channel (PBCH) and a channel estimation signal that is time division multiplexed with the PBCH, the channel estimation signal to allow the UE to estimate a channel for the PBCH and including one of a Secondary Synchronization Signal (SSS), a Demodulation Reference Signal (DMRS) or a Phase Tracking Reference Signal (PT-RS); and apply Discrete Fourier Transform-spread-Orthogonal Frequency Division Multiplexing (DFT-s-OFDM) to the PBCH prior to sending the SSB to the RF interface for transmission.