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A method for coding control data with user data repetition is disclosed. Bits in user data may be removed. Bits in control data may be repeated to increase a number of bits in the control data. A number of bits in the user data that is the same as the number of bits in the control data may be copied

A method for coding control data with user data repetition is disclosed. Bits in user data may be removed. Bits in control data may be repeated to increase a number of bits in the control data. A number of bits in the user data that is the same as the number of bits in the control data may be copied. The copied user data bits may be added to the control data. The user data and the control data may be multiplexed.

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1. A method for coding control data with user data repetition, comprising: removing bits in user data;repeating bits in control data to increase a number of bits in the control data, wherein the repeating comprises copying bits in the control data k*m times, wherein k is based on a type and size of

1. A method for coding control data with user data repetition, comprising: removing bits in user data;repeating bits in control data to increase a number of bits in the control data, wherein the repeating comprises copying bits in the control data k*m times, wherein k is based on a type and size of the control data, a resource allocation offset, β-offset, sent from a base station, and a modulation and coding scheme (MCS), and m is a repetition scalar;copying a number of bits in the user data that is the same as the number of bits in the control data that was increased during repeating;adding the copied user data bits to the control data; andmultiplexing the user data and the control data. 2. The method of claim 1, further comprising encoding the user data using a 1/3 Turbo code, low-density parity-check (LDPC) code, or a convolutional code. 3. The method of claim 1, further comprising encoding the control data using a Reed-Muller code or a 1/3 tail biting convolutional code. 4. The method of claim 1, wherein m is based on the resource allocation offset, β-offset. 5. The method of claim 1, wherein the control data and user data are transmitted on a physical uplink shared channel (PUSCH) in a long term evolution (LTE) system. 6. The method of claim 1, wherein the adding comprises a bitwise exclusive or (XOR) operation. 7. The method of claim 1, wherein the control data is a channel quality indicator (CQI), acknowledgment/non-acknowledgment data (ACK/NACK), or a rank indicator (RI). 8. The method of claim 1, wherein the multiplexing comprises time division multiplexing (TDM) and channel multiplexing. 9. A wireless device for coding control data with user data repetition, comprising: a processor;memory in electronic communication with the processor; andinstructions stored in the memory, the instructions being executable by the processor to: remove bits in user data;repeat bits in control data to increase a number of bits in the control data, wherein the repeating comprises copying bits in the control data k*m times, wherein k is based on a type and size of the control data, a resource allocation offset, β-offset, sent from a base station, and a modulation and coding scheme (MCS), and m is a repetition scalar;copy a number of bits in the user data that is the same as the number of bits in the control data that was increased during repeating;add the copied user data bits to the control data; andmultiplex the user data and the control data. 10. The wireless device of claim 9, further comprising instructions executable to encode the user data using a 1/3 Turbo code. 11. The wireless device of claim 9, further comprising instructions executable to encode the control data using a Reed-Muller code or a 1/3 tail biting convolutional code. 12. The wireless device of claim 9, wherein m is based on the resource allocation offset, β-offset. 13. The wireless device of claim 9, wherein the control data and user data are transmitted on a physical uplink shared channel (PUSCH) in a long term evolution (LTE) system. 14. The wireless device of claim 9, wherein the instructions executable to add comprise a bitwise exclusive or (XOR) operation. 15. The wireless device of claim 9, wherein the control data is a channel quality indicator (CQI), acknowledgment/non-acknowledgment data (ACK/NACK), or a rank indicator (RI). 16. The wireless device of claim 9, wherein the instructions executable to multiplex use time division multiplexing (TDM) and channel multiplexing. 17. A non-transitory computer-readable medium comprising executable instructions for: removing bits in user data;repeating bits in control data to increase a number of bits in the control data, wherein the repeating comprises copying bits in the control data k*m times, wherein k is based on a type and size of the control data, a resource allocation offset, β-offset, sent from a base station, and a modulation and coding scheme (MCS), and m is a repetition scalar;copying a number of bits in the user data that is the same as the number of bits in the control data that was increased during repeating;adding the copied user data bits to the control data; andmultiplexing the user data and the control data. 18. The computer-readable medium of claim 17, further comprising executable instructions for encoding the user data using a 1/3 Turbo code. 19. The computer-readable medium of claim 17, further comprising executable instructions for encoding the control data using a Reed-Muller code or a 1/3 tail biting convolutional code. 20. The computer-readable medium of claim 17, wherein m is based on the resource allocation offset, β-offset.