Method for transmission power shaping and communications apparatus utilizing the same

A communications apparatus. The RF signal processing device is capable of supporting carrier aggregation and configured to process RF signals. The baseband signal processing device is configured to process baseband signals. The processor is configured to control operations of the RF signal processing device and the baseband signal processing device. The processor further receives a power control signal from a peer communications apparatus, obtains an assigned transmission power which is assigned by the peer communications apparatus for the communications apparatus to transmit a reference signal according to information carried in the power control signal, determines a spectral efficiency estimation value of the communications apparatus and directs the RF signal processing device to transmit the reference signal with a reduced transmission power which is smaller than the assigned transmission power when the spectral efficiency estimation value is smaller than a predetermined threshold.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention relates to a method for transmission power shaping, and more particularly to a method for transmission power shaping in carrier aggregation (CA).

2. Description of the Related Art

Electronic devices (such as cellular telephones, wireless modems, computers, digital music players, Global Positioning System units, Personal Digital Assistants, gaming devices, etc.) have become a part of everyday life. Small computing devices are now placed in everything from automobiles to housing locks. The complexity of electronic devices has increased dramatically in the last few years. For example, many electronic devices have one or more processors that help control the device, as well as a number of digital circuits to support the processor and other parts of the device.

These electronic devices may communicate wirelessly with each other and with a network. As the demand for information by these electronic devices has increased, the throughput has also increased. One way to increase throughput is the use of carrier aggregation (CA). In carrier aggregation, multiple carriers may be aggregated on the physical layer to provide the required bandwidth (and thus the required throughput).

It may be desirable for an electronic device to maximize battery life. Because an electronic device often runs on a battery with a limited operation time, reductions in the power consumption of an electronic device may increase the desirability and functionality of the electronic device.

BRIEF SUMMARY OF THE INVENTION

Communications apparatuses and methods for transmission power shaping of a communications apparatus supporting carrier aggregation are provided. An exemplary embodiment of a communications apparatus comprises an RF signal processing device, at least a baseband signal processing device, and a processor. The RF signal processing device is capable of supporting carrier aggregation and configured to process RF signals. The baseband signal processing device is configured to process baseband signals. The processor is configured to control operations of the RF signal processing device and the baseband signal processing device. The processor further receives a power control signal from a peer communications apparatus, obtains an assigned transmission power which is assigned by the peer communications apparatus for the communications apparatus to transmit a reference signal according to information carried in the power control signal, determines a spectral efficiency estimation value of the communications apparatus and directs the RF signal processing device to transmit the reference signal with a reduced transmission power which is smaller than the assigned transmission power when the spectral efficiency estimation value is smaller than a predetermined threshold.

An exemplary embodiment of a method for transmission power shaping of a communications apparatus supporting carrier aggregation comprises: receiving a power control signal from a peer communications apparatus; obtaining an assigned transmission power which is assigned by the peer communications apparatus for the communications apparatus to transmit a reference signal according to information carried in the power control signal; determining a spectral efficiency estimation value of the communications apparatus; and transmitting the reference signal with a reduced transmission power which is smaller than the assigned transmission power when the spectral efficiency estimation value is smaller than a predetermined threshold.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1is an exemplary block diagram of a communications apparatus according to an embodiment of the invention. The communications apparatus100may comprise one or more antennas, such as the antennas ANT1and ANT2as shown, for transmitting and receiving radio frequency (RF) signals to and from an air interface, an RF signal processing device120, a baseband signal processing module110, a memory device140and a processor130. The RF signal processing device120may be a Carrier Aggregation (CA) RF signal processing device that is capable of supporting the processing, transmitting and receiving of RF signals on multiple frequency bands. The baseband signal processing module110may comprise one or more baseband signal processing devices, such as the baseband signal processing devices150and160, for supporting CA and processing the baseband signals transmitted by different carriers on multiple frequency bands.

The RF signal processing device120is configured to receive RF signals from the air interface via one or more antennas, and process the received RF signals to convert the received RF signals to baseband signals to be processed by the baseband signal processing device150or160. The RF signal processing device120is further configured to receive baseband signals from the baseband signal processing devices150and160, convert the received baseband signals to RF signals, and transmit the RF signals to a peer communication apparatus, such as a base station or an evolved node-B (eNB). The RF signal processing device120may comprise a plurality of hardware elements. For example, one or more power amplifiers, such as the power amplifiers170and180, one or more mixers (not shown), one or more filters (not shown), or others.

The baseband signal processing devices150and160further process the baseband signals to convert the baseband signals to a plurality of digital signals, and process the digital signals, and vice versa. The baseband signal processing devices150and160may also comprise a plurality of hardware elements to perform baseband signal processing. The baseband signal processing may comprise analog-to-digital conversion (ADC)/digital-to-analog conversion (DAC), gain adjustment, modulation/demodulation, encoding/decoding, and so on.

The memory device140may store program codes, system data and user data. The processor130may control the operations of the baseband signal processing devices150and160and the RF signal processing device120. According to an embodiment of the invention, the processor130may also be configured to execute the program codes of the software module(s) of the corresponding baseband signal processing device and/or the RF signal processing device. The program codes accompanied with specific data in a data structure may also be referred to as a processor logic unit or a stack instance when being executed. Therefore, the processor may be regarded as comprising a plurality of processor logic units, each for executing one or more specific functions or tasks of the corresponding software module(s).

Note that, in some embodiments of the invention, the processor may also be configured inside of the baseband signal processing module110, or the communications apparatus100may comprise another processor configured inside of the baseband signal processing module110. Thus the invention should not be limited to the architecture as shown inFIG. 1. In addition, note that, in order to clarify the concept of the invention,FIG. 1presents a simplified block diagram, in which only the elements relevant to the invention are shown. However, the invention should not be limited to what is shown inFIG. 1.

Note further that in some embodiments of the invention, the communications apparatus100may also comprise one antenna (as long as the antenna can support multi-band transceiving) or more than two antennas, and the baseband signal processing module110may also comprise one (as long as the baseband signal processing device can support CA) or more than two baseband signal processing devices. Therefore,FIG. 1merely shows an exemplary block diagram of the proposed communications apparatus, and the invention should not be limited to what is shown inFIG. 1.

Generally, carrier aggregation (CA) can be applied in both the uplink transmission and downlink transmission of the communications apparatus100. For the uplink transmission, the communications apparatus100is configured to transmit signal and data to a peer communications apparatus at the network side, such as the base station or the eNB as discussed above. For the downlink transmission, the communications apparatus100is configured to receive signal and data from the peer communications apparatus. The communications apparatus100may report the channel state information (CSI) for providing the downlink channel information to the network, and may transmit a reference signal to the network for uplink channel sounding. The peer communications apparatus in the network may perform carrier selection based on the received CSI report and the reference signal. However, both the uplink and downlink scheduling is the responsibility of the network, and the communications apparatus100has no right to actively select a preferred carrier. This becomes a problem when the peer communications apparatus keep scheduling uplink data on a carrier with a bad channel condition, causing the uplink performance to be downgraded. This is even worse when the communications apparatus100has to use more and more transmission power to transmit uplink data on a carrier with a bad channel condition. Therefore, methods for transmission power shaping of a communications apparatus supporting carrier aggregation are proposed. With the proposed methods for transmission power shaping, both the uplink transmission performance and power consumption of the communications apparatus100can be improved.

According to an embodiment of the invention, after receiving a power control signal from a peer communications apparatus (e.g. an eNB, hereinafter using the eNB as an example) in the network, the processor130may obtain an assigned transmission power which is assigned by the eNB for the communications apparatus100to transmit a reference signal according to information carried in the power control signal. According to an embodiment of the invention, the reference signal is transmitted by the communications apparatus100for the eNB to perform channel estimation and uplink carrier selection. For example, the reference signal may be the sounding reference signal (SRS).

Next, the processor130may determine a spectral efficiency estimation value of the communications apparatus100, and determine whether the spectral efficiency estimation value is smaller than a predetermined threshold. According to an embodiment of the invention, the spectral efficiency estimation value may be determined based on a transmission throughput of the communications apparatus100. For example, the spectral efficiency estimation value may be determined based on an expected transport block size (TBS), a modulation and coding scheme (MCS), a physical resource block size, or others. According to another embodiment of the invention, the spectral efficiency estimation value may be determined based on observed transmission power per bit. The observed transmission power per bit may be a ratio of an observed transmission power to the throughput per transmission. According to yet another embodiment of the invention, the spectral efficiency estimation value may be determined based on an estimated channel power gain. According to still another embodiment of the invention, the spectral efficiency estimation value may be determined based on a signal to noise plus interference ratio.

Next, the processor130may direct the RF signal processing device120to transmit the reference signal with reduced transmission power, which is smaller than the assigned transmission power when the spectral efficiency estimation value is smaller than a predetermined threshold.

For example, in one embodiment of the invention, the spectral efficiency estimation value may be determined based on the observed transmission power per bit as calculated below:

μi=E⁡[PTXTP]Eq.⁢(1)
where i is the index of the ithcomponent carrier (CC) CCi, PTXis the observed transmission power, and the TP is the throughput per transmission.

Note that since the spectral efficiency decreases as the transmission power per bit increases, the spectral efficiency estimation value is inversely proportional to the observed transmission power per bit. Suppose that the assigned transmission power assigned by the eNB for the ithcomponent carrier CCiis Passigned,i, the reduced transmission power for the ithcomponent carrier CCiis Preduced,iand the predetermined threshold for the observed transmission power per bit is μthreshold, the processor130may determine whether to use the assigned transmission power or the reduced transmission power for transmitting the reference signal on the ithcomponent carrier CCias calculated below:

Pi={Passigned,i,μi≤μthresholdPreduced,i,μi>μthresholdEq.⁢(2)
Note that since the spectral efficiency estimation value is inversely proportional to the observed transmission power per bit, the processor130may determine to use the reduced transmission power for transmitting the reference signal on the ithcomponent carrier CCiwhen the observed transmission power per bit μiis greater than the predetermined threshold for the observed transmission power per bit μthreshold. As an example, the predetermined threshold μthresholdmay be determined based on system requirement and the reduced transmission power for the ithcomponent carrier CCiis Preduced,imay be zero.

In another embodiment of the invention, when there are two CCs, Eq. (2) may be changed as shown below:

In another embodiment of the invention, the spectral efficiency estimation value may be determined based on an estimated channel power gain. According to the embodiments of the invention, the estimated channel power gain may be obtained according to the channel impulse response, the signal to noise ratio, the signal to noise plus interference ratio, or others. Suppose that the estimated channel power gain for the ithcomponent carrier CCiis gi, and the predetermined threshold for the estimated channel power gain is gtheshold, the processor130may determine whether to use the assigned transmission power or the reduced transmission power for transmitting the reference signal on the ithcomponent carrier CCias below:

Note that since the spectral efficiency decreases as the channel power gain decreases, the spectral efficiency estimation value is proportional to the estimated channel power gain.

According to an embodiment of the invention, the RF signal processing device120may transmit the reference signal with the reduced transmission power in a physical uplink shared channel (PUSCH) and transmit the reference signal with the assigned transmission power in a physical uplink control channel (PUCCH). Since the important control signals are transmitted in the PUCCH, it is preferable for the communications apparatus100to transmit the reference signal with the assigned transmission power in the PUCCH.

FIG. 2shows an exemplary power spectrum of the ithcomponent carrier CCiaccording to an embodiment of the invention, where the X axis represents frequency and the Y axis represents transmission power of the reference signal. As shown inFIG. 2, the reference signal is transmitted with the assigned transmission power Passigned,iin PUCCH and transmitted with the reduced transmission power Preduced,iin PUSCH. In this manner, the transmission power is shaped as shown inFIG. 2.

Once the eNB receives the reference signal with reduced power which is lower than the assigned transmission power determined based on its power control rule, the eNB may regard the uplink channel as poor and may trigger a handover procedure to select another carrier or trigger a removal procedure to remove the ithcomponent carrier CCifrom the CA. When the amount of CCs is reduced (for example, when CCiis removed), one or more of the power amplifiers in the RF signal processing device120can be turned off. Therefore, the power consumption of the communications apparatus100can be reduced.

FIG. 3shows a flow chart of a method for transmission power shaping in CA according to an embodiment of the invention. First of all, the communications apparatus100may receive a power control signal from a peer communications apparatus (Step S302). Next, the communications apparatus100may obtain an assigned transmission power which is assigned by the peer communications apparatus for the communications apparatus to transmit a reference signal according to information carried in the power control signal (Step S304). Next, the communications apparatus100may determine a spectral efficiency estimation value and determine whether the spectral efficiency estimation value is smaller than a predetermined threshold (Step S306). If so, the communications apparatus100may transmit the reference signal with a reduced transmission power which is smaller than the assigned transmission power (Step S308). If not, the communications apparatus100may transmit the reference signal with the assigned transmission power (Step S310).

As previously described, with the proposed methods for transmission power shaping, a subsequent handover procedure or CC removal procedure may be triggered. The communications apparatus100may apply the proposed methods for transmission power shaping when the communications apparatus100determines that the uplink transmission performance is not good enough, the uplink power consumption is huge or when the communications apparatus100wants to save more battery power. Once the communications apparatus100applies the proposed methods for transmission power shaping, both the uplink transmission performance and power consumption of the communications apparatus100can be improved.