Information transmission method and device
First Claim
1. An information transmission method, comprising:
- receiving, by a second device, M signals that are from the first device through N ports, wherein N and M are integers, and M≥
N≥
2;
receiving, by the second device, instruction information from the first device, wherein the instruction information is used to instruct the second device to send the measurement information to the first device;
measuring, by the second device, the M signals to obtain measurement information, wherein the measurement information is used to indicate a relationship between the N ports, wherein the measuring, by the second device, the M signals to obtain measurement information comprises;
determining, by the second device, group numbers of the N ports based on receive information of a side of the second device; and
determining, by the second device, the measurement information based on the group numbers of the N ports, wherein the measurement information comprises at least one of the following;
the group numbers of the N ports, a maximum group number difference in differences between each two group numbers in the group numbers of the N ports, a minimum group number difference in the differences between each two group numbers in the group numbers of the N ports, and an average value of the differences between each two group numbers in the group numbers of the N ports; and
sending, by the second device, the measurement information to the first device.
1 Assignment
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Accused Products
Abstract
Embodiments of this application provide an information transmission method and a device. The method includes: sending, by a first device, M signals to a second device through N ports, where N and M are integers, and M≥N≥2; and receiving, by the first device, measurement information sent by the second device, where the measurement information is determined by the second device based on the M signals, and the measurement information is used to indicate a relationship between the N ports. Therefore, in the embodiments of this application, the relationship between the ports is determined by using characteristics of the ports on a side of the second device, so that the first device can relatively accurately determine the relationship between the ports, and the first device can perform appropriate communication management on the plurality of ports. This improves performance of transmission between the first device and the second device.
9 Citations
6 Claims
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1. An information transmission method, comprising:
-
receiving, by a second device, M signals that are from the first device through N ports, wherein N and M are integers, and M≥
N≥
2;receiving, by the second device, instruction information from the first device, wherein the instruction information is used to instruct the second device to send the measurement information to the first device; measuring, by the second device, the M signals to obtain measurement information, wherein the measurement information is used to indicate a relationship between the N ports, wherein the measuring, by the second device, the M signals to obtain measurement information comprises; determining, by the second device, group numbers of the N ports based on receive information of a side of the second device; and determining, by the second device, the measurement information based on the group numbers of the N ports, wherein the measurement information comprises at least one of the following;
the group numbers of the N ports, a maximum group number difference in differences between each two group numbers in the group numbers of the N ports, a minimum group number difference in the differences between each two group numbers in the group numbers of the N ports, and an average value of the differences between each two group numbers in the group numbers of the N ports; andsending, by the second device, the measurement information to the first device. - View Dependent Claims (2)
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3. A first device, comprising:
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a transmitter, configured to send M signals to a second device through N ports, wherein N and M are integers, and M≥
N≥
2; anda receiver, configured to receive measurement information from the second device, wherein the measurement information is determined by the second device based on the M signals, and the measurement information is used to indicate a relationship between the N ports, wherein the transmitter is further configured to send instruction information to the second device before the receiver receives the measurement information from the second device, wherein the instruction information is used to indicate a reporting type, and the reporting type stipulates the measurement information; wherein the instruction information is further used to instruct the second device to determine a correlation degree of measurement results of a parameter set of every two signals in the M signals, the correlation degree of the measurement results of the parameter set of every two signals is determined based on a difference between the measurement results of the parameter set of every two signals, and the parameter set comprises at least one type of the following parameters;
a received delay spread, a Doppler spread, a Doppler frequency shift, an average delay, a gain, an average gain, a gain spread, an angle of arrival AoA, an average AoA, an AoA spread, uplink angles of departure AoDs of the second device that are corresponding to the signals, an average AoD, and an AoD spread; andwherein the measurement information comprises a correlation degree of the N ports that is measured by the second device, the correlation degree of the N ports is determined based on the difference between the measurement results of the parameter set of every two signals in the M signals, and the correlation degree of the N ports indicates at least one of the following;
quantized differences between measurement results of parameters of each two signals in the M signals, a maximum value in the quantized differences between the measurement results of the parameters of each two signals in the M signals, a minimum value in the quantized differences between the measurement results of the parameters of each two signals in the M signals, and an average value of the quantized differences between the measurement results of the parameters of each two signals in the M signals. - View Dependent Claims (4)
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5. A second device, comprising:
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a receiver, configured to receive M signals from a first device through N ports, wherein N and M are integers, and M≥
N≥
2;a processor, configured to measure the M signals to obtain measurement information, wherein the measurement information is used to indicate a relationship between the N ports; and a transmitter, configured to send the measurement information to the first device; wherein before the processor measures the M signals to obtain the measurement information, the receiver receives instruction information from the first device, wherein the instruction information is used to indicate a reporting type, and the reporting type stipulates the measurement information; wherein the processor is further configured to; determine group numbers of the N ports based on receive information of a side of the second device; and determine the measurement information based on the group numbers of the N ports, wherein the measurement information comprises at least one of the following;
the group numbers of the N ports, a maximum group number difference in differences between each two group numbers in the group numbers of the N ports, a minimum group number difference in the differences between each two group numbers in the group numbers of the N ports, and an average value of the differences between each two group numbers in the group numbers of the N ports. - View Dependent Claims (6)
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Specification