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Data transmission method and device

A data transmission method and data technology, applied in the field of communication, can solve problems such as low frequency diversity gain and small data transmission coverage, and achieve the effect of increasing frequency diversity gain and improving coverage

Inactive Publication Date: 2017-09-29
ZTE CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008] Aiming at the problem in the related art that the frequency diversity gain of the data transmission method is relatively low and the coverage of the data transmission is relatively small, the present invention provides a data transmission method and device to at least solve the problem

Method used

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  • Data transmission method and device

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0087] This preferred embodiment provides a data transmission method. In this preferred embodiment, the transmitting end determines the frequency domain position of the physical resource block used to transmit data by frequency hopping, and the frequency domain position is at least based on the number of subbands and the data transmission The number of times is determined.

[0088] In this preferred embodiment, the first frequency domain position of the physical resource block is determined as follows: or,

[0089] Among them, n VRB Grant position for resource, specified by resource scheduling grant, N sb is the number of sub-bands, is the number of RBs in a subband, Number of uplink resource blocks used for frequency hopping: in, is the frequency hopping offset, if is an odd number, otherwise

[0090] Preferably, n VRB Specified by resource scheduling grant, N sb and Configured through RRC layer signaling.

[0091] In this preferred embodiment, the se...

Embodiment 2

[0099] This preferred embodiment provides a data transmission method, such as figure 1 As shown, subframe 0, subframe 8, and subframe 16 are the resource positions occupied by the first transmission and retransmission of data. When frequency hopping between subframes of type 1 is used, there are only two frequency hopping positions and two frequency hopping positions It is used alternately according to the number of transmissions. Obviously, the resource position of the second retransmission is the same as that of the first retransmission. If there is a third retransmission, it will use the resource position of the first retransmission.

[0100] When using the enhanced type 1 inter-subframe frequency hopping, such as Image 6 As shown, by setting the number of subbands, the number of frequency hopping positions can be increased. Different frequency hopping positions may be used for different times of transmission.

[0101] In this preferred embodiment, the frequency hopping ...

Embodiment 3

[0118] The conditions of this preferred embodiment are the same as those of preferred embodiment 2, but the difference is that the frequency hopping position of the first Slot in the subframe of the first transmission or retransmission is determined according to formula 3:

[0119] Formula 3

[0120] It should be noted that the frequency hopping position of the first Slot in the first transmission or retransmission subframe changes as the number of transmissions increases under a specific number of subbands.

[0121] The frequency hopping position of the second Slot in the first transmission or retransmission subframe is the same as that in the second preferred embodiment.

[0122] Specific as Image 6 shown.

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Abstract

The present invention discloses a data transmission method and device, the method comprising: determining the frequency domain position of a physical resource block used to send data by means of frequency hopping, wherein the frequency domain position is determined at least according to the number of subbands and the number of times of data transmission ; Transmit data on the time-frequency resource corresponding to the determined frequency-domain position of the physical resource block. Through the present invention, the frequency gain of data transmission is improved.

Description

technical field [0001] The present invention relates to the communication field, in particular, to a data transmission method and device. Background technique [0002] In the Long Term Evolution (LTE for short) system, the Orthogonal Frequency Division Multiple Access (OFDMA) technology is used for the downlink, and the single carrier-frequency division multiple access is used for the uplink. Single Carrier-Frequency Division Multiple Access (Single Carrier-Frequency Division Multiple Access, referred to as SC-FDMA) technology, but due to the general use of the same frequency network, inter-cell interference (Inter-CellInterference, referred to as ICI) increases significantly. In order to reduce the ICI, LTE adopts some anti-interference technologies, for example, downlink inter-cell interference cancellation (Inter-Cell Interference Cancellation, ICIC for short). The downlink ICIC technology is based on the relative narrowband transmit power (Relative Narrowband TX Power, ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04B1/713H04L1/00
CPCH04B1/713
Inventor 关艳峰陈宪明罗薇袁弋非张峻峰
Owner ZTE CORP