The present invention relates to a base station, a device to device (D2D) user equipment (UE), a transmission method, a report method and a resource adjustment method for a wireless communication system. More particularly, the D2D UE of the present invention can, when operating as a transmitting end, decide a transmission mode according to a transmission condition and, when operating as a receiving end, can transmit a report message to a base station so that the base station adjusts a D2D resource configuration according to the report message.
As a result of advancement of the wireless communication technologies in recent years, many kinds of wireless communication systems have been derived and applied to various circumstances. For example, in order to provide emergency communication services (e.g., to call the police, the fire station or the ambulance) or inter-group communication services in the public safety network framework, there is a need for direct communication between neighboring UEs to make communications therebetween more efficient.
According to the 3rd Generation Partnership Project Long Term Evolution (3GPP LTE) communication system specification, a device to device (D2D) UE within signal coverage of a base station can perform D2D data transmission with other D2D UEs by requesting a specific radio resource from the base station or by being informed of a radio resource that it can contend for. However, the 3GPP LTE communication system specification currently available does not plan for various scenarios that the D2D UE experiences (e.g., when the D2D UE is in a region having a poor signal strength) so as to provide a resource configuration adjustment or transmission mode adjustment mechanism.
Accordingly, an urgent need exists in the art to provide a resource configuration adjustment or transmission mode adjustment mechanism that allows a D2D UE to dynamically adjust the transmission mode automatically and allows a base station to dynamically adjust the resource configuration or to instruct the D2D UE to adjust the transmission mode.
An objective of the present invention includes providing a resource configuration adjustment or transmission mode adjustment mechanism. With the transmission mode adjustment mechanism of the present invention, a D2D UE can decide a transmission mode according to a transmission condition when operating as a transmitting end. With the resource configuration adjustment and transmission mode adjustment mechanism, when the D2D UE operates as a receiving end, the D2D UE can transmit a report message carrying a received signal quality to the base station so that the base station adjusts the D2D resource configuration or adjusts the transmission mode of the corresponding transmitting end according to the report message.
Disclosed is a device to device (D2D) user equipment (UE) for a wireless communication system. The D2D UE comprises a storage, a transceiver and a processor. The storage is configured to store a piece of first transmission mode information and a piece of second transmission mode information. The first transmission mode information indicates a first transmission mode resource and the second transmission mode information indicates a second transmission mode resource. The processor is electrically connected to the storage and the transceiver, and is configured to execute the following operations when the D2D UE operates as a transmitting end: utilizing the first transmission mode resource to perform a D2D data transmission via the transceiver in a first transmission mode; determining whether a radio link failure (RLF) occurs between the D2D UE and a base station; and utilizing the first transmission mode resource and the second transmission mode resource to perform the D2D data transmission via the transceiver when the RLF occurs between the D2D UE and the base station.
Further disclosed is a transmission method for use in a D2D UE. The D2D UE operates as a transmitting end and comprises a storage, a transceiver and a processor. The storage stores a piece of first transmission mode information and a piece of second transmission mode information. The first transmission mode information indicates a first transmission mode resource, and the second transmission mode information indicates a second transmission mode resource. The processor is electrically connected to the storage and the transceiver. The D2D data transmission method is executed by the processor and comprises the following steps of: utilizing the first transmission mode resource to perform a D2D data transmission via the transceiver in a first transmission mode; determining whether an RLF occurs between the D2D UE and a base station; and utilizing the first transmission mode resource and the second transmission mode resource to perform the D2D data transmission via the transceiver when the RLF occurs between the D2D UE and the base station.
Also, disclosed is a base station for a wireless communication system. The base station comprises a transceiver, a storage and a processor. The storage is configured to store a D2D resource configuration. The processor is electrically connected to the storage and the transceiver, and is configured to execute the following operations: receiving a plurality of first report messages from a plurality of receiving ends via the transceiver, each of the first report messages indicating a first received signal quality of one of the receiving ends, and each of the receiving ends being a D2D UE; evaluating a first configuration result of the D2D resource configuration according to the first received signal qualities; determining whether the first configuration result is consistent with an expected result; and adjusting the D2D resource configuration or transmitting a D2D data transmission mode switching message to a transmitting end when the first configuration result is inconsistent with the expected result, wherein the transmitting end is a D2D UE and transmits D2D data to one of the receiving ends.
Further disclosed is a resource adjustment method for a base station. The base station comprises a storage, a transceiver and a processor. The storage is configured to store a D2D resource configuration. The processor is electrically connected to the storage and the transceiver. The resource adjustment method is executed by the processor and comprises the following steps of: receiving a plurality of first report messages from a plurality of receiving ends via the transceiver, each of the first report messages indicating a first received signal quality of one of the receiving ends, and each of the receiving ends being a D2D UE; evaluating a first configuration result of the D2D resource configuration according to the first receiving signal qualities; determining whether the first configuration result is consistent with an expected result; and adjusting the D2D resource configuration or transmitting a D2D data transmission mode switching message to a transmitting end when the first configuration result is inconsistent with the expected result, wherein the transmitting end is a D2D UE and transmits a piece of D2D data to one of the receiving ends.
Additionally disclosed is a device to device (D2D) user equipment (UE). The D2D UE comprises a transceiver and a processor. The processor is electrically connected to the transceiver. The processor is configured to execute the following operations when the D2D UE operates as a receiving end: receiving D2D data from a transmitting end via the transceiver, wherein the transmitting end is another D2D UE; and measuring a received signal quality of the D2D data and generating a report message according to the received signal quality to transmit the report message to a base station via the transceiver.
The disclosure further includes a report method for use in a D2D UE. The D2D UE operates as a receiving end and comprises a transceiver and a processor. The processor is electrically connected to the transceiver. The report method is executed by the processor and comprises the following steps of: receiving D2D data from a transmitting end via the transceiver, wherein the transmitting end is another UE; measuring a received signal quality of the D2D data and generating a report signal according to the received signal quality; and transmitting the report message to a base station via the transceiver.
Disclosed is a device to device (D2D) user equipment (UE). The D2D UE comprises a transceiver and a processor. The processor is electrically connected to the transceiver. The processor is configured to execute the following operations when the D2D UE operates as a transmitting end: receiving a piece of first transmission mode information and a piece of second transmission mode information from a base station via the transceiver, the first transmission mode information indicating a first transmission mode resource and the second transmission mode information indicating a second transmission mode resource; and selecting one of the first transmission mode resource and the second transmission mode resource to transmit D2D data to another D2D UE via the transceiver.
Also disclosed is a D2D data transmission method for use in a D2D UE. The D2D UE operates as a transmitting end and comprises a transceiver and a processor. The processor is electrically connected to the transceiver. The D2D data transmission method is executed by the processor and comprises the following steps of: receiving a piece of first transmission mode information and a piece of second transmission mode information from a base station via the transceiver, the first transmission mode information indicating a first transmission mode resource and the second transmission mode information indicating a second transmission mode resource; and selecting one of the first transmission mode resource and the second transmission mode resource to transmit D2D data to another D2D UE via the transceiver.
The detailed technology and preferred embodiments implemented for the subject invention are described in the following paragraphs accompanying the appended drawings for people skilled in this field to well appreciate the features of the claimed invention.
The invention will now be explained with reference to certain example embodiments thereof. However, these example embodiments are not intended to limit the present invention to any specific examples, embodiments, environment, applications or particular implementations described in these example embodiments. Therefore, description of these example embodiments is only for purpose of illustration rather than to limit the present invention, and the scope of this application shall be governed by the claims.
In the following embodiments and the attached drawings, elements unnecessary to explain the invention are omitted from depiction; and dimensional relationships among individual elements in the attached drawings are illustrated only for ease of understanding, but not to limit the actual scale.
Please refer to
The D2D UE 2 is for use in a wireless communication system (e.g., a 3rd Generation Partnership Project Long Term Evolution (3GPP LTE) communication system), and can perform direct communication (i.e., D2D data transmission) with other D2D UEs. For example, the D2D UE 2 may be a smartphone, a tablet computer or some other equipment compatible with the 3GPP LTE communication system and having a direct communication function. The D2D UE 2 comprises a storage 21, a transceiver 23 and a processor 25. The storage 21 is configured to store a piece of first transmission mode information M1 and a piece of second transmission mode information M2. It shall be appreciated that, the first transmission mode information M1 is configured to indicate a first transmission mode resource, and the second transmission mode information M2 is configured to indicate a second transmission mode resource. Additionally in an implementation, the first transmission mode resource may be a licensed band resource, and the second transmission mode resource may be an unlicensed band resource, although they are not limited thereto.
In detail, the first transmission mode resource and the second transmission mode resource in this embodiment are just as defined in the 3GPP Specification 36.843. The first transmission mode resource is a specific resource scheduled by the base station 4 for specific D2D UEs, and the second transmission mode resource is a pre-configured and/or quasi-statically configured resource pool which allows a plurality of D2D UEs to contend for D2D data transmissions.
Specifically, as shown in
On the other hand, the D2D UE 2 may also transmit a request message 104 to the base station 4 so that the base station 4 schedules a specific D2D resource block for the D2D UE 2 according to the D2D resource requested by the D2D UE 2 in the request message 104 and transmits a resource configuration message 106 carrying the first transmission mode information M1 back to the D2D UE 2. In this way, the D2D UE 2 can use the specific resource (i.e., the first transmission mode resource) scheduled by the base station 4 to perform D2D data transmission according to the first transmission mode resource indicated by the first transmission mode information M1. In other words, the first transmission mode resource of this embodiment refers to a resource scheduled by the base station 4 according to the D2D resource requested by the UEs, and the second transmission mode resource refers to a pre-configured and/or quasi-statically configured D2D resource notified by the base station 4 through broadcasting.
It is assumed in this embodiment that, in normal conditions of the radio link between the D2D UE 2 and the base station 4, the D2D UE 2 preferentially operates in the first transmission mode, i.e., preferentially utilizes the first transmission mode resource to perform a D2D data transmission. In other words, the D2D UE 2 performs the D2D data transmission with the base station 4 in the first transmission mode when the link between the D2D UE 2 and the base station 4 is in a stable state. As shown in
Firstly, step S201 is executed by the processor 25 to utilize the first transmission mode resource to perform a D2D data transmission via the transceiver 23 in the first transmission mode. Next, step S203 is executed by the processor 25 to determine whether a radio link failure (RLF) occurs between the D2D UE 2 and the base station 4. For example, if the synchronization signal transmitted by the base station 4 cannot be received by the D2D UE 2, the processor 25 determines that an RLF occurs between the D2D UE 2 and the base station 4.
If it is determined that the RLF occurs between the D2D UE 2 and the base station 4, step S205 is executed by the processor 25 to utilize the first transmission mode resource and the second transmission mode resource to perform the D2D data transmission via the transceiver 23. Conversely, if no RLF occurs between the D2D UE 2 and the base station 4, step S201 is executed again by the processor 25 to still utilize the first transmission mode resource to perform a D2D data transmission via the transceiver 23 in the first transmission mode. In other words, the D2D UE 2 determines a resource to be used depending on the link condition between the D2D UE 2 and the base station 4 in this embodiment. The D2D UE 2 utilizes the first transmission mode resource and the second transmission mode resource to perform the D2D data transmission when an RLF occurs, and utilizes the first transmission mode resource to perform D2D data transmission when the link between the D2D UE 2 and the base station 4 is in a stable state. Therefore, in case of an RLF, the D2D UE 2 of the present invention can support a resource scheduled centrally by the base station (i.e., the first transmission mode resource) and a resource used for UE distributed communication (i.e., the second transmission mode resource) simultaneously, so the utilization efficiency of the resource spectrum can be enhanced.
It shall be noted that, when an RLF occurs between the D2D UE 2 and the base station 4, the D2D UE 2 may decide whether the D2D data is to be transmitted by use of the first transmission mode resource or by use of the second transmission mode resource according to a Quality of Service (QoS) required by the D2D data to be transmitted or according to a Quality of Service class identifier (QCI). For example, if no collision has occurred during the processing of using the first transmission mode resource to transmit D2D data, the D2D UE 2 may continuously use the first transmission mode resource to transmit D2D data requiring a high QCI and do not change into the second transmission mode resource until a collision occurs in the processing of using the first transmission mode resource to transmit the D2D data. In other words, in case of an RLF, the D2D UE 2 may decide by itself whether to utilize both the transmission resources (i.e., the first transmission mode resource and the second transmission mode resource) for transmission of a same D2D data, or to use the first transmission mode resource for transmission of a part of the D2D data and the second transmission mode resource for transmission of the remaining part of the D2D data, or choose to utilize one of the first transmission mode resource and the second transmission mode resource for transmission of the D2D data.
As previously described, the D2D UE 2 knows the first transmission mode resource and the second transmission mode resource from the broadcasting message 102 carrying the second transmission mode information M2 and the resource configuration message 106 carrying the first transmission mode information M1 that are transmitted by the base station 4. Therefore, as shown in
On the other hand, the base station 4 may also transmit a second transmission mode update message 108 to the D2D UE 2 according to the overall resource usage state in other embodiments. Therefore, the processor 25 further receives the second transmission mode update message 108 from the base station 4 via the transceiver 23. Similarly, the second transmission mode update message 108 carries a piece of second transmission mode resource update information, so the processor 25 further updates the second transmission mode information M2 stored in the storage 21 according to the second transmission mode update information.
It shall be noted that,
A second embodiment of the present invention is as shown in
It shall be noted in this embodiment that, when an RLF occurs, the D2D UE 2 continuously utilizes the first transmission mode resource during the buffering time period to maintain continuity of the D2D data transmission firstly and then also tries to utilize the second transmission mode resource so that the processor 25 can utilize the first transmission mode resource and the second transmission mode resource simultaneously for D2D data transmission via the transceiver 23 after the buffering time period. It shall also be noted that, the term “simultaneously” is only used to indicate that both the first transmission mode resource and the second transmission mode resource can be used, but not intended to limit that they are used at the same time.
As an example, the D2D UE 2 may use the first transmission mode resource to transmit important D2D data and use the second transmission mode resource to transmit other D2D data after the buffering time period. Importance of the D2D data may be decided according to the Quality of Service (QoS) or the Quality of Service class identifier (QCI). As another example, the D2D UE may also use the first transmission mode resource and the second transmission mode resource simultaneously to transmit a same D2D data or different D2D data (here, there is no difference in importance of the D2D data).
A third embodiment of the present invention is as shown in
Please refer to
Similarly, a fifth embodiment of the present invention is an extension of the fourth embodiment. As shown in
Please refer to
As shown in
Specifically, as shown in
In this embodiment, the processor 45 executes a resource adjustment method as shown in
Then, step S403 is executed by the processor 45 to evaluate a first configuration result of the D2D resource configuration according to the first received signal qualities. Next, step S405 is executed to determine whether the first configuration result is consistent with an expected result. If the first configuration result is inconsistent with the expected result, then step S407 is executed by the processor 45 to adjust the D2D resource configuration scheduled by the base station or transmit a D2D data transmission mode switching message to a transmitting end, wherein the transmitting end is a D2D UE that transmits D2D data to one of the receiving ends (e.g., the D2D UEs Tx1, Tx2, Tx3 shown in
In another implementation as shown in
Firstly, step S501 is executed to receive D2D data from a transmitting end via the transceiver 51, wherein the transmitting end is another D2D UE (e.g., one of the D2D UEs Tx1, Tx2, Tx3). Then, step S503 is executed to measure a received signal quality of the D2D data and generate a report message 502 according to the received signal quality. Finally, step S505 is executed to transmit the report message 502 to the base station 4 via the transceiver 51. It shall be understood that, the base station 4 of this embodiment continuously receives report messages from the receiving ends and periodically executes the resource adjustment method (the period may be dynamically adjusted depending on the resource utilization rate) so that the D2D resource configuration is adjusted timely. In this way, the resource adjustment method of this embodiment can improve the resource band utilization efficiency and improve the D2D data transmission quality of the D2D UEs.
Please refer to
Afterwards, step S605 is executed by the processor 45 to evaluate a second configuration result of the adjusted D2D resource configuration according to the second received signal qualities. Then, step S607 is executed by the processor 45 to determine whether the second configuration result is consistent with the expected result. When the second configuration result is inconsistent with the expected result, then step S609 is executed by the processor 45 to transmit the D2D data transmission mode switching message 402 to the transmitting end via the transceiver 41. For example, if the second report message 308b indicates that the received signal quality of the D2D UE Rx2 is still poor after the D2D resource configuration has been adjusted, the base station 4 transmits the D2D data transmission mode switching message 402 to the D2D UE Tx2 so that the D2D UE Tx2 switches from the second transmission mode to the first transmission mode according to the D2D data transmission mode switching message 402 so as to use the first transmission mode resource for D2D data transmission.
Similarly, the base station 4 of this embodiment also continuously receives report messages from the receiving ends and periodically executes the resource adjustment method (the period may be dynamically adjusted depending on the resource utilization rate) so that the D2D resource configuration is adjusted timely. In this way, the resource adjustment method of this embodiment can improve the resource band utilization efficiency and improve the D2D data transmission quality of the D2D UEs. It shall be additionally appreciated that, the term “first” used in the first report messages described herein is only used to represent report messages firstly received (i.e., report messages before adjustment of the D2D resource configuration) each time the resource adjustment method is executed, and the term “second” used in the second report messages is used to represent report messages received after adjustment of the D2D resource configuration.
An eighth embodiment of the present invention is shown in
Firstly, step S701 is executed to receive a piece of first transmission mode information M1 and a piece of second transmission mode information M2 from a base station 4 via the transceiver 71. As previously described, the first transmission mode information indicates a first transmission mode resource, and the second transmission mode information indicates a second transmission mode resource. Then, step S703 is executed to select one of the first transmission mode resource and the second transmission mode resource to transmit D2D data to another D2D UE (e.g., one of the D2D UEs Rx1, Rx2, Rx3) via the transceiver 71.
A ninth embodiment of the present invention is as shown in
Thus, when it is determined by the D2D UE 7 that the collision is not to occur in use of the second transmission mode resource, the second transmission mode resource is used for D2D data transmission without having to request the first transmission mode resource from the base station 4. Thereby, the transmission mechanism of this embodiment can ease the scheduling burden of the base station. Besides, in other embodiments, the first transmission mode resource may be a licensed band resource, and the second transmission mode resource may be an unlicensed band resource. Thus, when it is determined by the D2D UE 7 that using the unlicensed band resource for D2D communication will not cause a collision, the unlicensed band resource may be used for D2D data transmission so that the base station 4 is able to allocate the licensed band resource that is saved to other D2D UEs, thus improving the band utilization efficiency.
Please refer to
Afterwards, step S803 is executed by the processor 73 to determine whether the D2D UE 7 and the another D2D UE belong to a same operator according to the operator message 802. When the D2D UE 7 and the another D2D UE belong to a same operator, then step S805 is executed by the processor 73 to utilize the first transmission mode resource to transmit the D2D data to the another D2D UE via the transceiver 71. Otherwise, when the D2D UE 7 and the another D2D UE don't belong to a same operator, then step S807 is executed to utilize the second transmission mode resource to transmit the D2D data to the another D2D UE via the transceiver 71.
As an example, it is assumed that the D2D UE 7 belongs to a first telecommunication operator, and the another D2D UE belongs to a second telecommunication operator. The first telecommunication operator provides a first licensed band resource, and the second telecommunication operator provides a second licensed band resource. Because it is impossible for both the D2D UE 7 and the another D2D UE to use the first licensed band resource for D2D data transmission, the D2D UE 7 preferentially use the unlicensed band resource (i.e., the second transmission mode resource) to perform the D2D data transmission with the another D2D UE when the D2D UE 7 and the another D2D UE belong to different operators.
According to the above descriptions, the transmission adjustment mechanism of the present invention allows a D2D UE to utilize both the first transmission mode resource and the second transmission mode resource to perform a D2D data transmission in case of an RLF, so the D2D data transmission modes can be adjusted depending on the service scenarios so as to improve the resource band utilization efficiency. Additionally, with the resource configuration adjustment and transmission mode adjustment mechanism of the present invention, the base station can adjust the D2D resource configuration or instruct the transmitting end to switch the transmission mode in real time by receiving report messages from the receiving ends, so the quality of D2D data transmission between the D2D UEs can be improved. On the other hand, the D2D UE may further decide a transmission mode to be used according to telecommunication operators to which the receiving ends belong or according to usage conditions of the second transmission mode resource (i.e., whether a collision occurs). Thereby, the present invention allows the D2D UE to dynamically adjust the transmission mode by itself and allows the base station to dynamically adjust the resource configuration or instruct the D2D UE to adjust the transmission mode.
The above disclosure is related to the detailed technical contents and inventive features thereof. People skilled in this field may proceed with a variety of modifications and replacements based on the disclosures and suggestions of the invention as described without departing from the characteristics thereof. Nevertheless, although such modifications and replacements are not fully disclosed in the above descriptions, they have substantially been covered in the following claims as appended.
This application claims the benefit of priority of U.S. Provisional Application Ser. No. 61/991,444, filed May 9, 2014, which is hereby incorporated by reference in its entirety herein.
Number | Date | Country | |
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61991444 | May 2014 | US |