Last Updated: May 11, 2026

Claims for Patent: 10,812,238

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Summary for Patent: 10,812,238

Title:	Configurable reference signals
Abstract:	It is recognized herein that current LTE reference signals may be inadequate for future cellular (e.g., New Radio) systems. Configurable reference signals are described herein. The configurable reference signals can support mixed numerologies and different reference signal (RS) functions. Further, reference signals can be configured so as to support beam sweeping and beamforming training.
Inventor(s):	Qian Zhang, Qing Li, Allan Y. Tsai, Guodong Zhang, Lakshmi R. Iyer, Tianyi Xu, Pascal M. Adjakple, Ahmed ElSamadouny, Salman Khan, Yifan Li
Assignee:	InterDigital Patent Holdings Inc
Application Number:	US16/093,287
Patent Claims:	1. An apparatus comprising a processor, a memory, and communication circuitry, the apparatus being connected to a network via its communication circuitry, the apparatus further comprising computer-executable instructions stored in the memory of the apparatus which, when executed by the processor of the apparatus, cause the apparatus to perform operations comprising: obtaining a first reference signal configuration and a second reference signal configuration, the first and second reference signal configurations being for a New Radio (NR) system; transmitting a first reference signal on uplink in accordance with the reference signal configuration; and receiving a second reference signal on downlink in accordance with the second reference signal configuration, wherein, the first and second reference signal configurations comprise: start time information indicating start time of reference signal allocations in time domain; time allocation pattern information indicating relation between Orthogonal Frequency Division Multiplexing (OFDM) symbol numbers and reference signal allocation numbers in time domain; start frequency information indicating start frequency of reference signal allocations in frequency domain; frequency allocation information indicating number of resource allocation for reference signals in frequency domain; frequency allocation pattern information indicating relation between subcarrier numbers and reference signal allocation numbers in frequency domain; and periodicity information indicating periodicity of reference signal. 2. The apparatus of claim 1, wherein the second reference signal configuration is allocated for multiple devices, such that the multiple devices obtain information from the second reference signal. 3. The apparatus of claim 1, wherein the second reference signal configuration is allocated for the apparatus, such that only the apparatus obtains information from the second reference signal. 4. The apparatus of claim 1, wherein the first reference signal is configured to be allocated in the beginning of a first interval in uplink according to the first reference signal configuration, and the second reference signal is configured to be allocated in the beginning of a second interval in downlink according to the second reference signal configuration, the first interval and the second interval having a length X. 5. The apparatus of claim 1, wherein the second reference signal are configured to serve a plurality of functions, the plurality of functions comprising at least one of: interference measurement, Channel State Information (CSI) measurement, Radio Resource Management (RRM) measurement, beam sweeping, beamforming training, time and frequency offset tracking and synchronization. 6. An apparatus comprising a processor, a memory, and communication circuitry, the apparatus being connected to a network via its communication circuitry, the apparatus further comprising computer-executable instructions stored in the memory of the apparatus which, when executed by the processor of the apparatus, cause the apparatus to perform operations comprising: transmitting a first reference signal configuration for a New Radio (NR) system and a second reference signal configuration for the NR system; receiving a first reference signal on uplink in accordance with the first reference signal configuration; and transmitting a second reference signal on downlink in accordance with the second reference signal configuration, wherein the first and second reference signal configurations comprise: start time information indicating start time of reference signal allocations in time domain, time allocation pattern information indicating relation between Orthogonal Frequency Division Multiplexing (OFDM) symbol numbers and reference signal allocation numbers in time domain, start frequency information indicating start frequency of reference signal allocations in frequency domain, frequency allocation information indicating number of resource allocation for reference signals in frequency domain, frequency allocation pattern information indicating relation between subcarrier numbers and reference signal allocation numbers in frequency domain, and periodicity information indicating periodicity of reference signal. 7. The apparatus of claim 6, wherein the first reference signal is configured to be allocated in the beginning of a first interval in uplink according to the first reference signal configuration, and the second reference signal is configured to be allocated in the beginning of a second interval in downlink according to the second reference signal configuration, the first interval and the second interval having a length X. 8. The apparatus of claim 6, wherein the second reference signal are configured to serve a plurality of functions, the plurality of functions comprising at least one of: interference measurement, Channel State Information (CSI) measurement, Radio Resource Management (RRM) measurement, beam sweeping, beamforming training, time and frequency offset tracking, and synchronization. 9. The apparatus of claim 6, wherein the second reference signal configuration is allocated for multiple devices, such that multiple devices obtain information from the second reference signal. 10. The apparatus of claim 6, wherein the second reference signal configuration is allocated for the apparatus, such that only the apparatus obtains information from the second reference signal. 11. A wireless communication method comprising: transmitting a first reference signal configuration for a New Radio (NR) system and a second reference signal configuration for the NR system, receiving a first reference signal on uplink in accordance with the first reference signal configuration; and transmitting a second reference signal on downlink in accordance with the second reference signal configuration, wherein the first and second reference signal configurations comprise: start time information indicating start time of reference signal allocations in time domain; time allocation pattern information indicating relation between Orthogonal Frequency Division Multiplexing (OFDM) symbol numbers and reference signal allocation numbers in time domain; start frequency information indicating start frequency of reference signal allocations in frequency domain; frequency allocation information indicating number of resource allocation for reference signals in frequency domain; frequency allocation pattern information indicating relation between subcarrier numbers and reference signal allocation numbers in frequency domain; and periodicity information indicating periodicity of reference signal. 12. The method of claim 11, wherein the first reference signal is configured to be allocated in the beginning of a first interval in uplink according to the first reference signal configuration, and the second reference signal is configured to be allocated in the beginning of a second interval in downlink according to the second reference signal configuration, the first interval and the second interval having a length X. 13. The apparatus of claim 11, wherein the second reference signal are configured to serve a plurality of functions, the plurality of functions comprising at least one of: interference measurement, Channel State Information (CSI) measurement, Radio Resource Management (RRM) measurement, beam sweeping, beamforming training, time and frequency offset tracking, and synchronization. 14. The apparatus of claim 11, wherein the second reference signal configuration is allocated for multiple devices, such that the multiple devices obtain information from the second reference signal. 15. The apparatus of claim 11, wherein the second reference signal configuration is allocated for the apparatus, such that only the apparatus obtains information from the second reference signal.

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