CONTROL CONFIGURATION FEATURES

专利摘要:
several aspects provide an exemplary method, an apparatus, and / or a computer-readable means for configuring the set of common control features in a gnb, which may include the configuration, in gnb, of a first type and a second type of set of common control resources, and indicating, for a user equipment (eu), the first type and the second type of common control resource set based on at least the configuration. Additional aspects may include receiving, in the eu, configuration information of a first type and a second type of common control resource adjusted from gnb, and decoding, in the eu, the first type and the second type of control resource set common based on at least the configuration information.
公开号:BR112019014164A2
申请号:R112019014164-2
申请日:2018-01-12
公开日:2020-02-11
发明作者:Sun Jing；Chen Wanshi；Lee Heechoon
申请人:Qualcomm Incorporated；
IPC主号:

专利说明:

CONTROL CONFIGURATION FEATURES
CROSS REFERENCE TO RELATED APPLICATIONS [001] This patent application claims priority for US Non-Interim Patent Application No. 15 / 868,545 entitled CONFIGURATION OF CONTROL RESOURCES, filed January 11, 2018, and US Provisional Order Serial No. 62 / 446,268 entitled Configuration of control resources, deposited on January 13, 2002, 2017, which is assigned to the assignee, and incorporated here by reference in its entirety.
FUNDAMENTALS [002] The present invention generally relates to signaling in wireless networks and, more particularly, to control channel design in wireless networks.
[003] Wireless communication systems are widely implemented to provide various telecommunication services, such as telephony, video, data, messages and broadcasts. Typical wireless communication systems can employ multiple access technologies capable of supporting communication with multiple users by sharing available system resources (for example, bandwidth, transmission power). Examples of such multiple access technologies include code division multiple access systems (CDMA), broadband CDMA systems (W-CDMA), time division multiple access systems (TDMA), division multiple access systems (FDMA), orthogonal frequency division multiple access systems (OFDMA), broadband single carrier frequency division multiple access systems (SC-FDMA) and
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2/37 multiple access systems by time division synchronous code division (TD-SCDMA).
[004] These multiple access technologies have been adopted in various telecommunications standards to provide a common protocol that allows different wireless devices to communicate in a municipal, national, regional, and even global level. For example, 5 GNR (new radio) communications technology is considered to expand and support scenarios and applications of different use in relation to current generations of mobile networks. In one respect, 5G communications technology includes improved mobile broadband addressing for human-centered use cases for access to multimedia content, services and data; ultra-low-latency (URLLC) latency communications with requirements, especially in terms of latency and reliability; and massive machine-type communications to a very large number of connected devices, and typically transmitting a relatively low volume of non-delay sensitive information. However, as the demand for mobile broadband access continues to increase, there is a need for further improvements in 5G communications technology and beyond. Preferably, these improvements should be applicable to other multiple access technologies and to the telecommunication standards that employ these technologies.
[005] Wireless networks 5G / NR, a user equipment (UE) has to periodically monitor the set of common control resources (or set of common resources) periodically. Monitoring the resource set of
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3/37 common control must be balanced between the downlink transmission duty cycle and associated delays.
[006] Therefore, there is a desire for a method and apparatus to configure the common control feature set to achieve / improve balance in 5G / NR networks.
SUMMARY OF THE INVENTION [007] Several aspects of the present invention relate to an operable gNB for configuring one or more types of common control feature set.
[008] In one aspect, a method of wireless communications is described. In some respects, the method may include configuring, in gNB, a first type and a second type of common control resource set, and indication, to a user equipment (UE), the first type and the second type of common control feature set based on at least the configuration.
[009] In another aspect, a device for wireless communications is described. The apparatus may include a processor, a transceiver and a memory attached to the processor. The memory may include instructions executable by the processor to configure a first type request and a second type of common control resource set, and indicate, for a UE, the first type and second type of common control resource set based on the least in the configuration.
[0010] In another aspect, a device for wireless communications is described. The apparatus may include means for configuring a first type and a second type of common control feature set, and means for
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4/37 indicate to a UE the first type and the second type of common control resource set based on at least the configuration.
In yet another aspect a computer readable medium that stores computer executable code for wireless communications is described. The computer-readable medium may include code to configure, in a gNB, a first type and a second type of common control resource set, and code to indicate to a UE, the first type and second type of resource set of common control based on at least the configuration.
[0012]
In one aspect a method of wireless communications in an UE is revealed. In some respects, the method may include receiving, in the UE, configuration information of a first type and a second type of common control resource adjusted from gNB, and decoding, in the UE, the first type and the second type of set common control features based on at least the configuration information.
In another aspect an apparatus for wireless communications is described. The apparatus may include a processor, a transceiver and a memory attached to the processor. The memory can include instructions executable by the processor to receive configuration information of a first type and a second type of common control resource adjusted from gNB, and decode the first type and second type of common control resource set based on at least in the configuration information.
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5/37 [0014] In another aspect, an apparatus for wireless communications is described. The apparatus may include means for receiving configuration information of a first type and a second type of common control resource set from gNB, and means for decoding the first type and second type of common control resource set based on the less in the configuration information.
[0015] In yet another aspect, a computer-readable medium that stores computer executable code for wireless communications is described. The computer-readable medium may include code for receiving configuration information of a first type and a second type of common control resource adjusted from gNB, and code for decoding the first type and second type of common control resource set based on at least the configuration information.
[0016] It is understood that other aspects of apparatus and methods will become readily apparent to those skilled in the art from the following detailed description, in which various aspects of apparatus and methods are shown and described by way of illustration. As will be perceived, these aspects can be implemented in other and different ways and their different details are capable of modification in several other aspects. Consequently, the drawings and the detailed description should be considered as illustrative in nature and not as restrictive.
BRIEF DESCRIPTION OF THE DRAWINGS [0017] Fig. 1 is a schematic diagram of
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6/37 example of a wireless communications system that includes a gNB having aspects of a resource configuration function in a wireless network.
[0018] Fig. 2 illustrates an exemplary common control feature configuration.
[0019] Fig. 3 illustrates an exemplary common control feature configuration, in aspects of the present invention.
[0020] Fig. 4 illustrates an additional exemplary common control feature configuration, in aspects of the present invention.
[0021] Fig. 5 illustrates another additional example of common control feature configuration, in aspects of the present invention.
[0022] Fig. 6 is a flowchart of an exemplary methodology for configuring a set of common control features in gNB, in aspects of the present invention.
[0023] Fig. 7 is a flowchart of an exemplary methodology for configuring a set of common control resources in One UE, in aspects of the present invention.
DETAILED DESCRIPTION [0024] The detailed description presented below in connection with the accompanying drawings is intended as a description of various configurations and is not intended to represent the only configurations in which the concepts described here can be practiced. The detailed description includes specific details for the purpose of providing a complete understanding of various concepts. However, it will be evident to those skilled in the art that these
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7/37 concepts can be practiced without these specific details. In some cases, well-known components are shown in the form of a block diagram in order to avoid obscuring such concepts.
[0025] The present invention provides an exemplary method, apparatus, and / or a computer-readable medium for configuring the set of common control features in a gNB, which may include the configuration, in gNB, of a first type and a second type of common control resource set, and indicating, for user equipment (UE), the first type and second type of common control resource set based on at least the configuration. The exemplary method may also include indicating that the first type of common control resource set is a compromised control resource and the second type of common control resource set is a set of opportunistic common control resources. The set of compromised common control resources can be identified by master information blocks (MIB). The set of opportunistic common control features can be configured by the minimum remaining system information (ISMS). In some implementations, compromised control resources can be referred to as a compromised set, although opportunistic control resources can be referred to as an opportunistic set. In addition, the exemplary method may include indicating that the first type of common control resource set is the compromised common control resource set and the second type of common control resource set is a specific control resource set. EU, and that the
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8/37 compromised common control resource set is indicated through a master information block (MIB) and the UE specific control resource set is indicated through a radio resource control signal (RRC). In some ways, the compromised common pool will always appear (highest priority). The opportunistic common set may not appear, even though it is configured in the same subband as the compromised common set. In some respects, the specific UE set can be configured anywhere and can (partly) overlap with common sets.
[0026] The various aspects described here to configure a common control feature set can allow gNB 120 to obtain / improve downlink transmission service cycles and / or load balancing in 5 G / NR networks. Various aspects of the present invention can balance the conflicting demands on gNB 120 for a low duty cycle and a low delay allowing gNB 120 to selectively reduce the duty cycle for energy savings based on the selective configuration of the common control feature set. In addition, several aspects may also allow gNB 120 to have sufficient control transmission opportunities to allow sufficiently low delay times.
[0027] With reference to Figure 1, in one aspect, a wireless communication system 100 includes a gNB 120, one or more processors 124, and / or a resource configuration function 126 running on a processor 124 (or processors 124 in a computational environment
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9/37 distributed) to transmit a common control resource configuration 142 to UE 102. Common control resource configuration 142 can identify a first type of resources 144 and / or a second type of resource 146. In one aspect, gNB 120 and / or resource configuration function 126 may further include a common control resource configuration function 130, and / or a common control resource configuration indication function 132. gNB 120 also includes a radio frequency transceiver ( RF) 134 and / or a memory 136.
[0028] Wireless communication system 100 further includes one or more UEs 102, one or more processors 104, and / or a resource configuration function 106 running on processor 104 (or processors 104 in a distributed computing environment) configuration information common control resource 142, which can indicate first type of resources 144 and / or a second type of resources to decode downlink transmissions. In one aspect, UE 102 may further include an RF transceiver 114 and / or memory 116.
[0029] gNB 120 may be in communication with UE 102 through one or more connections over the air, for example, uplink (DL) 152 and / or uplink (UL) 154. In one aspect, the DL 152 is generally used for communication from gNB 120 to UE 102 and UE to UL 154 is generally used for communication from UE 102 to gNB 120. For example, gNB 102 can transmit common control resource configuration information 142 via downlink 152 and / or it can receive communications from the UE 102 through the uplink 154.
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10/37 [0030] GNB 120 can be a base station (BS) or NodeB or eNodeBs, a macrocell, a small cell (for example, a femtocell, or a peak cell), a relay, a point-to-point device , etc. in one aspect example, nodes can operate according to the wireless local area network (WLAN) specification as defined in IEEE 802. 11 E / or they can operate according to Broadband Code Division Multiple Access ( W-CDMA), Code Division Multiple Access (CDMA), Time Division Synchronous Code Division Multiple Access (TD-SCDMA), Long Term Evolution (LTE), Global System for Mobile Communications (GSM), standard 5G (NR) as defined in Specifications 3 GPP.
[0031] The UE 102 can be a mobile device and can also be referred to by those skilled in the art as a mobile station, subscriber station, mobile unit, subscriber unit, a wireless unit, a remote unit, a mobile device, a wireless device, a wireless communication device, a remote device, a mobile subscriber station, an access terminal, a mobile terminal, a wireless terminal, a remote terminal, a telephone device, a terminal, an agent user, mobile client, client, or some other suitable terminology.
[0032] Fig. 2 illustrates an exemplary common control feature configuration 200.
[0033] As illustrated in Figure 2, an interval structure 200 with 10 intervals (intervals 09) is shown. In each interval, in some implementations, gNB 120 can configure a set of
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11/37 common control features, also referred to as a set of common control features in each of the partitions. For example, gNB 120 can configure the common control feature set 262, 264, 266, 268, 270, 272, 274, 276, 278 and / or 280 in intervals 0-9, respectively. Additionally, in some implementations, gNB 120 can configure UE-specific control features 212, 214, 216, 218, 220, 222, 224, 226, 228 and / or 230 in the 0-9 intervals, respectively. For example, UE-specific control resources can be specific to UE 102. Resources can be defined as resource blocks (for example, physical resource blocks (PRBs) or resource elements or sets.
[0034] In some implementations, gNB 120 transmits resource configuration information UE 102. UE 102 attempts HET to decode control signals received from gNB 120 based on resource configuration information. For example, in some cases, the UE 102 may periodically monitor the set of common control resources, use the received control information, for example Reference signals (RS), to perform radio link management (RLM) and / or , in some cases, assist in other functionality such as time / frequency tracking. Additionally, in some cases, the UE 102 may use the common feature set to assist the basic functionality of the initial access. However, this configuration is not efficient, since the set of common control resources and the specific resources of the UE can be transmitted by MT in each interval even when there is no data for transmission in the
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12/37 uplink from gNB 120 to EU 102. For example, this configuration in each interval has a relatively high duty cycle, but can result in relatively low delay. Yet, there may be a desire to
to allow that the gNB shorten the cycle working gives link transmission downward. [0035] THE Fig. 3 illustrates a configuration in resource of control common copy 300, in aspects gives gift invention [0036] In an Implementation , gNB 120 and / or
resource configuration function 126 can define (or configure) two types of common control resource set (or two types of common control resource sets), for example, a first type of common control resource set 144 (referred to as a set of committed common control resources (44) and / or a second type of common control resource set 146 (referred to as an opportunistic common control resource set 146). Committed common control resource set 144 and / or opportunistic common control resource set 146 can use the same structure, for example, same resource set, same channel estimation procedures, etc. Additionally, gNB 120 can indicate (for UE102) the common control resource set configured for the compromised common control resource set 144 and / or opportunistic common control resource set 146 through a master information block (MIB) , which is transmitted in a physical broadcast channel (PBCH) from gNB 120.
[0037] In an implementation, gNB 120 and / or
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13/37 resource configuration function 126 can configure the compromised common control resource set 144 in a subset of the windows. For example, the compromised common control feature set 144 can be configured in the range 0 (compromised common control feature set312) and interval 5 (the compromised common control feature set 314), as shown in Figure 3, in some respects optional, it is considered a common control feature set 144 that can be transmitted on configured partitions even if there is no data to transmit. That is, in this optional aspect, compromised common control feature set 144 is transmitted at intervals 0 (compromised common control feature set312) and 5 (compromised common control feature set 314) even if gNB 120 has no data to transmit on uplink and UE 102 can use compromised common control feature set 144 transmitted in partitions 0 (compromised common control feature set312) and 5 (compromised common control feature set 314) for radio link management (RLM) and other measurements.
[0038] In an additional implementation, gNB 120 and / or resource configuration function 126 and can be configured the set of opportunistic common control resources 146 in a subset of the windows. The subset of the intervals used to configure the opportunistic common control feature set 146 may be different from the subset of slots used to configure the common control feature set
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14/37 compromised 144. For example, gNB 120 and / or resource configuration function 126 can configure opportunistic common control resource set 146 at intervals where the compromised common control resource set 144 is not configured. In other words, for example, but not limited to, gNB 120 and / or resource configuration function 126 can configure the opportunistic common control resource set 146 on partitions 1-4 and 6-9 (for example, opportunistic common control resources 322,324,326, 328,330,332, 334 and 336, respectively).
Also, for example, in some cases, any set of common control resources not used as a compromised common control resource set 144 can be considered to be the opportunistic common control resource set 146. In addition, in some cases, the set of common control resources of opportunistic common control resources 146 can be transmitted only by LT according to the present invention gNB 120 has downlink control (DCI) information for transmission. If gNB 120 does not have DCI to transmit in an interval (for example, interval3), gNB 120 can jump to the transmission of a set of opportunistic common control resources 146 in that specific interval (for example, interval3) and gNB 120 can introduce transmission discontinuous (DTX) state during interval 3, so that power savings can be obtained in UE 102 and (as UE 102 does not have to decode common resources for that interval).
[0039] Additionally, the phase continuity between the set of committed common control resources
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144 and the opportunistic common control feature set signal 146 can be maintained to support channel estimate filtering, and phase continuity can be maintained through the compromised common control feature set 144 at the beginning of each interval. In addition, the UE 102 can use the demodulation reference signal (DMRS), if present in the opportunistic common control resource set 146, opportunistically. That is, UE 102 detects that a DMRS is being transmitted in the opportunistic common control feature set 146 and can use the DMRS for measurements. In addition, UE 102 can be RRC configured with the availability of joint 146 common control resources instead of UE 102 which performs blind detection. This can delay configuration, but saves resources on UE 102, avoiding blind detection effort. In addition, the above mechanism may allow message 2 of the random access channel (RACH) procedure to be transmitted both in the compromised common control feature set 144 and the opportunistic common control feature set 146, which can assist in reducing delays in downlink transmissions.
[0040] In several aspects implementing 5G / NR, as mentioned above, the MIB will indicate the respective set of common control resources 144, which can be referred to as co-established minimum remaining system information (ISMS). In one aspect, the RMSI pool can be the Physical Uplink Control Channel (PDCCH) resources that identify a RMSI Physical Uplink Shared Channel (PDSCH) grant.
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16/37 resources. In some respects, the RMSI pool will always carry The RMSI concession. In addition, depending on the implementation, the ISMS set may or may not include reference signals, such as a demodulation reference signal (DMRS). Additionally, in some implementations, any common control feature is not compromised to transport the ISDN PDCCH can become an opportunistic common control feature set 146.
[0041] In some respects, the UE 102 may have an RMSI PDCCH monitoring window associated with SS / PBCH block burst set, which periodically curves. Each window can have a duration of x consecutive partitions, for example, but not limited to, 1, 2 or 4 partitions. In some implementations, gNB 120 can adjust the duration of the monitoring window and indicate the duration in the PBCCH. In some implementations, the duration of the monitoring window may depend on an associated frequency band. In addition, a period, y, of the monitoring window can be the same or different from a period of the SS / PBCH block burst set. For example, y can be, but is not limited to, 10.20, 40, 80 or 160 ms. This periodicity can be dependent on the frequency band, and can be configured by gNB 120 in the PBCCH. In addition, in some cases, the period may depend on a transmission time interval (TTI) of the ISMS set. For example, the TMS of the ISMS set can be, but is not limited to, one of 80 ms or 160 ms. Also, in some implementations, there may be a dependency between the monitoring window period and the SS / PBCH block burst period. In some respects, gNB 102
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17/37 can configure overlapping monitoring windows associated with a different SS / PBCH block. Blast sets. Also, in some cases, the monitoring window can be indicated based on a time shift. Additionally, in some respects, multiple sets of control features can be overlapped in frequency and time for UE 102.
[0042] Fig. 4 illustrates an additional exemplary common control feature configuration 400, in aspects of the present invention.
[0043] In an implementation, gNB 120 and / or resource configuration function 126 can define (or configure) two types of common control resource sets (or two types of common control resource sets), for example, a first type of common control resource set 144 (referred to as committed common control resource set44) and / or a second type of common control resource set 146 (referred to as EU specific control resources 146). Committed common control resource set 144 and / or EU-specific control resources 146 may have the same or different structure. That is, an equal or different set of resources can be used and / or the same channel estimation mode (for example, broadband) or a different channel estimation mode can be used.
[0044] In an implementation, gNB 120 and / or resource configuration function 126 can configure the compromised common control resource set 144 in a subset of the windows, as described above with reference to Figure 3, for example, resource set in
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18/37 compromised common control 144 can be configured in range 0 (compromised common control feature set! 12) and interval 5 (compromised common control feature set414) as shown in Figure 4, the compromised common control feature set 144 can be indicated by the MIB, as explained above. Compromised common control feature set 144 can be transmitted on configured partitions even if there is no data to transmit. That is, the compromised common control resource set 144 can be transmitted at intervals 0 (compromised common control resource set! 12) and 5 (compromised common control resource set 414) even if gNB 120 has no data to transmit on the uplink E UE 102 can use compromised common control feature set 144 transmitted on partitions 0 and 5 for radio link management and other measurements.
[0045] In an additional implementation, gNB 120 and / or resource configuration function 126 and can be configured to UE specific control resources 146 in at least a subset of the windows or VT intervals or at intervals not used by the resource set compromised common control 144 or on some partitions also used by the compromised common control 144 resource set. For example, gNB 120 and / or resource configuration function 126 can configure EU specific control resources 146 and in some subset of intervals different from intervals 0 and 5 that are being used by the compromised common control feature set 144, or in each of the 0-9 partitions (for example,
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19/37 (example, EU specific control features 422,424,426, 428,430,432, 434, 436, 438 and 440, respectively). Control features specific to UE 146 can be assigned to UE 102 by the MIB, as explained above, or in another Radio Resource control (RRC) message. In addition, in some cases, UE 146-specific control features are opportunistic in that it can only be transmitted when gNB 120 has downlink control (DCI) information for transmission. If gNB 120 does not have DCI to transmit in an interval (for example, interval 3), gNB 120 can jump to Transmission of UE 146 specific control resources in that specific interval (for example, interval 3), and gNB 120 can introduce transmission Discontinuous (DTX) during interval 3, so that power savings can be achieved at UE 102 (since UE 102 does not have to decode at UE). It should also be noted that at intervals 0 and 9, both the committed common control resource set 144 and the EU specific control resources 146 are transmitted. In such a scenario, the set of committed common control resources 144 and 14T specific control resources of UE 146 can be transmitted in different sub-bands. In some implementations, the compromised common control feature set 144 and EU 146 specific control features can overlap in time and frequency.
[0046] Additionally, the above mechanism may allow message 2 of the four-step random access channel (RACH) procedure to be transmitted only
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20/37 on compromised common control feature set 144. This can lead to longer RACH delays, but provides flexibility in transmitting the two 2/4 two-step RACH messages in both the common control feature set 144 and the resources specific control systems 146.
[0047] Additionally, in some implementations, for a configured set of UE 146 specific control features, if continuous beam formation is configured (as a feature of the feature set), gNB 120 can add an additional flag in the configuration of RRC for UE 102 to indicate whether phase continuity is maintained over time. If maintained, then UE 102 can further filter the estimated channel over time for a better channel estimate. If it is not maintained, then the UE 102 must expect that the phase is not continuous through slots and must not filter. On the other hand, for beam formation by PRB, UE 102 will expect the beams to be different for different PRBs in the frequency domain in the same range, and should not expect the same beam to be applied across ranges.
[0048] Furthermore, in some implementations, when the compromised common control feature set 144 and UE 146 specific control features are configured at the same interval, both with continuous beam formation, and the features are adjacent, it is possible that gNB 120 introduces another indicator in the RRC configuration of the UE 146 specific control resources to indicate whether the UE 102 can assume the formation of
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21/37 continuous beam between the two feature sets. If continued, then UE 102 can perform a single channel estimate covering both sets of resources. Otherwise, the UE 102 needs to perform a separate channel estimate for each set of resources.
[0049] Fig. 5 illustrates another configuration of additional exemplary common control feature 500, in aspects of the present invention.
[0050] In some aspects of the present invention, gNB 120 may be operable to provide the establishment of the common control resource set, such as in the common control resource configuration 500. For example, gNB 120 can configure different sets of common control resources. control 145 in the same range and overlapping PRBs. For example, PRBs can be partially overlapped or completely overlapped. For example, as shown in Figure 1 5, gNB 120 can configure different sets of control resource 145, such as a set of committed common control resource sets 144 that overlap with a set of UE-specific control resources 146, or two sets of UE 146-specific control features overlaid with each other. In a use case, for example, one of the overlapping sets of resources can be a superframe set in another way such that gNB 120 can choose which one to use depending on the control channel load.
[0051] Gives perspective of gNB 120, one From joint anoints of resources overlapping can to be used in each turn. Per example, but not limited to that if gNB 120
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22/37 configures a set of (opportunistic) set of common control resources to overlap with a set of UE-specific control resources, so gNB 120 can choose to use the set of common control resource sets in a selected range , while choosing to use the set of UE-specific control features in another interval.
[0052]
From the perspective of UE 102, overlapping resource pools may not be evident. For example, in a first use case, UE 102 is provided with one of the sets of overlapping control resources while one or more different UEs are provided with one of the sets of overlapping control resources. In this case, the UE 102 only attempts to detect the PDCCH in the configured set of control resources, thus the other overlapping set of control resources is transparent to the UE 102. In other words, in this case, even if the other set of control resources overlapping control is used by gNB 120 (for example, for another UE), UE 102 will not be able to detect any PDCCH in the other set of overlapping control features. In another example, in a second use case, UE 102 comes with more than one set of overlapping control features. In this case, the UE 102 will attempt to detect the PDCCH in all configured sets of control features, while at most one will produce a successful decoding. Also, in this case, the UE 102 may have some rules to limit a total number of blind decoders to be made.
[0053]
Figure 6 illustrates an exemplary method
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600 to configure the common control feature set in a gNB, in aspects of this description.
[0054] In one aspect, in block 610, method 600 may include configuration, in gNB, of a first type and a second type of common control resource set. For example, in one aspect, gNB 120 and / or resource configuration function 126 may include a common control resource configuration function 130, such as a specially programmed processor module, or a processor that executes specially programmed code stored in a memory, to configure a first type (eg Committed common control resource set44) and a second type (opportunistic common control resource set 146 or UE 146 specific control resources from the common control resource set).
[0055] In one aspect, in block 620, method 600 may include the indication, to a user equipment (UE), of the first type and the second type of common control resource set based on at least the configuration. For example, in one aspect, gNB 120 and / or resource configuration function 126 may include a common control resource configuration indicator function 132, such as a specially programmed processor module, or a processor that executes specially programmed code stored in a memory, to indicate, for UE 102, the first type (144) and the second type (146) of the common control feature set based on at least the configuration (142). For example, gNB 120 can execute the indication by providing an indicator in the
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MIB. The indicator can identify in which partitions UE 102 can find the first type (144) and the second type (146) of the set of common control resources for decoding, and gNB 120 can configure such resources in the same or different subsets of intervals, and / or in Separate or overlapping PRBs within a respective interval. For example, in some implementations, the referral may include referring only or at least the jointly committed common control feature through the transmission of an referral through the MIB. For example, the transmission of the indication through the MIB also includes the physical uplink control channel (PDCCH)) resources that identify the shared physical uplink channel granted (PDSCH) resources for the first type (144) and the second type (146) of the common control feature set for the UE.
[0056] Additional details pertaining to method 600 are also described in detail above.
[0057] For example, in some respects, the indicator includes indicating at least the set of common control resources committed at least partially through a master information block (MIB). In addition, in some cases, the opportunistic common control feature set is any of the common control feature set states not indicated as the compromised common control feature set. Also, method 600 may include transmitting nothing to the joint opportunistic common control resource when the indicator fails to carry any uplink configuration information (DCI) set of control resources.
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25/37 common opportunist.
[0058] In other respects, the indication indicates that the control resources committed to a first subset of slots and the common opportunistic control resource adjusted to a second subset of intervals in a set of intervals. In some cases, the first subset of ranges and the second subset of partitions are mutually exclusive.
[0059] In some respects, method 600 may also always include transmitting the set of compromised common control resources, and constantly transmitting opportunistic common control resources only when there is control information for the UE.
[0060] In some respects, the indication includes indicating at least the joint opportunistic joint control resource via a radio resource control (RRC) message.
[0061] Also, in some cases, method 600 may further include the transmission of a message 2 of the random access channel procedure message through both the common control resource set and the opportunistic common control resource set.
[0062] Additionally, in some respects, indicating the first type and the second type of the joint joint control resource additionally includes the indication of sets of resources that overlap, at least partially, in time and frequency. In some cases, method 600 may also include gNB 120 by selecting one of the first type or the second type method from the common control feature set that at least
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26/37 less partially overlaps in time and frequency within a range, and transmits information to the UE in the range using only the first type or the second type of common control feature set.
[0063] Yet, in some respects, the first type of common control resource set is a jointly committed common control resource and the second type of common control resource set is a UE-specific control resource. In this case, method 600 may additionally include gNB 120 always transmitting the joint committed common control resource and timely transmitting the UE specific control resource set only when there is control information for the UE. Also, in this case, the compromised common control resource set can be indicated via a master information block (MIB) and the UE specific control resource set can be indicated via a radio resource control signal ( RRC).
[0064] Additionally, this case method 600 can additionally include gNB 120 transmission of broadcast downlink control (DCI) information set of UE-specific control features.
[0065] Also, in some respects, method 600 may further include gNB 120 which transmits a four step 2 message from a random access channel procedure through only the compromised common control feature set, or transmit a message two-step 2 of the access channel procedure
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27/37 through the compromised common control resource set or the UE specific control resource set.
[0066] In other respects, method 600 may also include gNB 120 transmission using beam formation, and transmission of a continuity indicator, for example, an indicator, to identify whether phase continuity is maintained over time in response to transmission using beam formation. In some cases, method 600 may also include gNB 120 which transmits both committed LT common features and the Adjusted UE specific control feature at the same interval using beamforming, and transmission of a beamforming continuity indicator , and G, a flag, to identify whether continuous beam formation is used through both the compromised common resources and the signal the UE-specific control resource set when the compromised common resources and the specific control resource set UE They are located in an adjacent way.
[0067] Fig. 7 illustrates an exemplary method 700 for configuring set of common control features in One UE, in aspects of the present invention.
[0068] In one aspect, in block 710, method 700 may include receiving, in the UE, configuration information of a first type and a second type of common control resource adjusted from gNB. For example, in one aspect, UE 102 and / or processor 104 may include a resource configuration function 126, such as a specially programmed processor module, or a processor that
Petition 870190064065, of 07/09/2019, p. 32/68
28/37 executes specially programmed code stored in memory, to receive configuration information from a gNB 120 of a first type (for example compromised 144 common control feature set) and a second type (common control feature set opportunistic 146) [0069] In one aspect, in block 720, method 700 may include decoding, in the UE, the first type and the second type of common control feature set based on at least the configuration information. For example, in one aspect, UE 102 and / or processor 104 may include a resource configuration function 126, such as a specially programmed processor module, or a processor that executes specially programmed code stored in memory, to decode the configuration information received from a gNB 120 to identify the first type (eg, compromised common control resource set44) and the second type (opportunistic common control resource set 146) using the configuration information.
[0070] Additional aspects pertaining to the 700 methodology are also described in detail above.
[0071] For example, in one aspect, the first type of the common control resource set is an associated control resource and the second type of the common control resource set is a set of opportunistic common control resources. In this case, receiving the configuration information comprises receiving the configuration information for at least the configuration information set of common control resources
Petition 870190064065, of 07/09/2019, p. 33/68
29/37 compromised at least partially through a master information block (MIB). In addition, in some respects, the opportunistic common control feature set is any of the common control feature set methods not indicated as the compromised common control feature set. Also, method 700 may further include UE 102 by skipping decoding the joint opportunistic common control resource when the configuration information fails to carry any uplink configuration information (DCI) set of opportunistic common control resources.
[0072] In other respects, the configuration information indicates the control features committed to a first subset of partitions and one the common opportunistic control feature set to a second subset of intervals in a set of intervals. In this case, the first subset of intervals and the second subset of partitions can be mutually exclusive.
[0073] Furthermore, in some respects, method 700 may still include UE 102 always decoding the compromised common control feature set, and decoding opportunistic common control features in due course only when configuration information indicates that there is information about control for the UE.
[0074] In addition, in some cases, method 700 may even include UE 102 which receives configuration information for at least the set of opportunistic common control resources via a radio resource control (RRC) message.
Petition 870190064065, of 07/09/2019, p. 34/68
30/37 [0075] Additionally, in some respects, method 700 may also include UE 102 decoding a message 2 from the UE random channel procedure both in the set of effective common control resources and in the set of common control resources opportunistic.
[0076] In addition, in some cases, method 700 may further include UE 102 which receives configuration information indicating that UE first type and second type of common control resource set comprise resource sets that at least partially overlap in time and frequency. In this case, in some cases, method 700 may further include UE 102 by decoding only one of the first type or second type of the common control feature set within a range based on the configuration information.
[0077] Additionally, in some aspects of method 700, the first type of common control resource set is a compromised common control resource set and the second type of common control resource set is a specific control resource set of the UE. In this case, in some cases, method 700 may also include UE 102 always decoding the compromised common control resource set and timely decoding the UE specific control resource set only in response to configuration information indicating a concession corresponding to the UE specific control feature set.
[0078] In some aspects of method 700, receiving configuration information that comprises receiving a first indication of the set of control features
Petition 870190064065, of 07/09/2019, p. 35/68
31/37 commited through a master information block (MIB) and receive a second indication of the UE-specific control resource set via a radio resource control signal (RRC).
[0079] Additionally, in some cases, method 700 may further include UE 102 decoding broadcast uplink control (DCI) control set of UE specific control resources. Also, method 700 may further include UE 102 decoding a four-step 9T 2-T message from a random access channel procedure via the single set of common control features, or decoding a two-step message 2 from the procedure random access channel through the compromised common control feature set or the UE specific control feature set.
[0080] Additionally, in aspects where the configuration information identifies that the continuous beam formation is configured for the set of specific control resources of the UE, method 700 can also include the UE 102 that receives a continuity indicator that identifies whether phase continuity is maintained over time for the UE's specific control feature set, and filtering or not filtering an estimated channel over time, when performing the channel estimate based on the continuity indicator.
[0081] Furthermore, in aspects where the configuration information identifies the physical resource block (PRB) the beam formation is configured for the specific UE control resource set, the method
Petition 870190064065, of 07/09/2019, p. 36/68
32/37
700 may further include UE 102 by filtering an estimated channel with time and frequency when performing the channel estimate in response to the PRB beam formation.
[0082] Also, in cases where the configuration information identifies that the committed common resources and the EU-specific joint control resource system is located adjacent and is subject to continuous beam formation, method 700 may also include the UE 102 that receives a continuity indicator that identifies whether phase continuity is maintained between the committed common resources and the Adjusted UE specific control feature at an interval, and the realization of a single channel estimate across both resources compromised common resources and the UE specific control resource established in the interval, or making separate channel estimates in each of the committed common resources and the UE specific control resource set in the interval, based on the continuity indicator.
[0083] Thus, as described above, gNB 120 can configure common control feature set to obtain power savings in UE 102.
[0084] As used in this application, the term function, process, system and the like are intended to include a computer-related entity, such as but not limited to hardware, firmware, a combination of hardware and software, software, or running software . For example, a module can be, but is not limited to, a process running on a processor, a processor, an object, an executable, a chain of execution, a program
Petition 870190064065, of 07/09/2019, p. 37/68
33/37 and / or a computer. By way of illustration, both an application running on a computing device and the computing device can be a process. One or more modules can reside within a module and / or chain of execution and a module can be located on a computer and / or distributed between two or more computers. In addition, these modules can be executed from various computer-readable media with various data structures stored in it. Processes can communicate via local and / or remote modules such as according to a signal having one or more data packets, such as data from a module interacting with another module in a local system, a distributed system, and / or over a network such as the Internet with other systems using the signal.
[0085] In addition, several aspects are described here in connection with a terminal, which can be a wired terminal or a wireless terminal. A terminal can also be called a system, device, subscriber unit, subscriber station, mobile station, mobile, mobile device, remote station, remote terminal, access terminal, user terminal, terminal, communication device, user agent , user device, or user equipment (UE). A wireless terminal can be a cell phone, a satellite phone, a cordless phone, A Session Initiation Protocol (SIP) phone, wireless local loop station (WLL), personal digital assistant (PDA), a portable device having wireless capability, computing device, or other processing devices
Petition 870190064065, of 07/09/2019, p. 38/68
34/37 connected to a wireless modem. In addition, several aspects are described here in connection with a base station. A base station can be used to communicate with wireless terminal (s) and can also be referred to as an access point, a Node B, or some other terminology.
[0086] As those skilled in the art will easily appreciate, several aspects described throughout this description can be extended to other telecommunications systems, network architectures and communication standards.
[0087] As an example, several aspects described here related to the transmission of preamble RACH can be extended to other UMTS and / or LTE networks and / or other systems where the UE has burst data to transmit that is not suitable to establish a dedicated channel (for example, during a direct access channel state (CELL EACH)) For example, such UMTS systems may include TD-SCDMA, High Speed Uplink Packet Access (HSDPA) Uplink Packet Access High Speed (HSUPA), High Speed Packet Access Plus (HSPA +) and TD-CDMA. Also, such LTE and / or other systems may include Long Term Evolution (LTE) (in FDD, TDD or both modes), Advanced LTE (LTE-A) (In FDD, TDD or both modes), CDMA2000, Evolution- Optimized Data (EV-DO), Ultra-Mobile Broadband (UMB), IEEE 802.11 (Wi-Fi), IEEE 802.16 (WiMAX), IEEE 802. 20, Ultra Wide Band Systems (UWB), Bluetooth AND / or other suitable systems . The actual telecommunications standard, network architecture, and / or communication standard employed will depend on the specific application and
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35/37 global design restrictions imposed on the system.
[0088] According to various aspects of the presentation, an element, or any part of an element, or any combination of elements can be implemented with a processing system that includes one or more processors. Examples of processors include microprocessors, microcontrollers, digital signal processors (DSPs), field programmable port arrays (FPGAs), programmable logic devices (PLDs), state machines, port logic, discrete hardware circuits, and other suitable configured hardware to perform the various features described throughout this report. One or more processors in the processing system can run software. The Software must be interpreted broadly to mean instructions, instruction sets, code, code segments, program codes, programs, sub-programs, software modules, applications, software applications, software packages, routines, subroutines, objects, executables, execution threads, procedures, functions, etc., If referred to as software, firmware, middleware, microcode, hardware description language, or otherwise. The software may reside in a computer-readable medium. The computer-readable medium may be a non-transitory, computer-readable medium. A non-transitory computer-readable medium includes, for example, a magnetic storage device (for example, hard disk, floppy disk, magnetic tape), an optical disk (e.g. compact disk (CD), digital versatile disk (DVD )), a smart card, a flash memory device (for example,
Petition 870190064065, of 07/09/2019, p. 40/68
36/37 example, card, stick, key unit), random access memory (RAM), read-only memory (ROM), programmable ROM (PROM), erasable PROM (EPROM), electrically erasable PROM (EEPROM) a register , a removable disk, and any other suitable medium for storing software and / or instructions that can be accessed and read by a computer. The computer-readable medium can be resident in the processing system, external to the processing system, or distributed through multiple entities including the processing system. The computer-readable medium can be incorporated into a computer program product. For example, a computer program product may include a computer-readable medium in packaging materials. Those skilled in the art will recognize how to implement the described functionality presented throughout this description, depending on the specific application and the general design restrictions imposed on the global system.
[0089] It should be understood that the specific order or hierarchy of steps in the methods presented is an illustration of exemplary processes. Based on the design preferences, it is understood that the specific order or hierarchy of steps in the methods can be rearranged. The tracking method claims the elements of the various steps in a sample order, and is not intended to be limited to the specific order or hierarchy presented unless specifically cited here.
[0090] The previous description is provided to allow anyone skilled in the art to practice the
Petition 870190064065, of 07/09/2019, p. 41/68
37/37 several aspects described here. Various changes to these aspects will be readily apparent to those skilled in the art, and the generic principles defined herein can be applied to other aspects. Thus, the claims are not intended to be limited to the aspects shown here, but should receive the full scope compatible with the language of the claims, where reference to an element in the singular is not intended to mean one and only one unless specifically specified, but, instead, one or more. Unless specifically stated otherwise, the term does not refer to one or more. A sentence referring to at least one of a list of items refers to any combination of those items, including unique elements. As an example, at least one of: a, b, or c is intended to cover: a; B; ç; a and b; a and c; b and c; and a, b and c All structural and functional equivalents to the elements of the various aspects described throughout the document. This method description which are known or later to be known to those skilled in the art is expressly incorporated herein by reference and are intended to be covered by the claims. Furthermore, nothing presented here is intended to be dedicated to the public, regardless of whether such disclosure is explicitly recited in the claims. No claim element shall be constructed under the provisions of 35 USC § 112 (f), unless the element is expressly cited using the phrase means for or, in the case of a method claim, the element is cited using the phrase step .

权利要求:
Claims (15)
[1]
1. Method of configuring a set of common control features in a gNB, comprising:
configure, in gNB, a first type and a second type of common control resource set; and indicate, for user equipment (UE), the first type and the second type of common control feature set based on at least the configuration.
[2]
2/15 the indication includes indicating at least the set of opportunistic common control resources through ISMS.
2. Method according to claim 1, wherein the first type of common control resource set is compromised control resource and the second type of common control resource set is the opportunistic common control resource set.
[3]
3/15 of the UE only when there is control information for the UE.
3. Method according to claim 2, wherein the indication includes indicating at least the set of common control resources committed at least partially, the set of common control resources through a master information block (MIB) and the set of opportunistic common control resources at least partially through ISMS.
[4]
4/15 committed common resources and UE-specific control resources when the committed common resources and the set of UE-specific control resources are located adjacent.
16. Method of configuring a set of common control features on user equipment (UE), comprising:
receiving, in the UE, configuration information of a first type and a second type of common control resource adjusted from gNB; and decode, in the UE, the first type and the second type of common control resource set based on at least the configuration information.
17. The method of claim 16, wherein the first type of the common control resource set is a compromised control resource and the second type of the common control resource set is the opportunistic common control resource set.
18. The method of claim 17, wherein receiving the configuration information comprises receiving the configuration information for at least the configuration information set of common control resources at least partially committed to the set of common control resources through a master information block (MIB) and the set of opportunistic common control resources at least partially through the ISMS.
19. The method of claim 18, wherein the first subset of partitions and the second subset of partitions are mutually exclusive.
20. Method according to claim 17, in
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A method according to claim 3, wherein the first subset of partitions and the second subset of partitions are mutually exclusive.
[5]
5/15 which additionally comprises always decoding the compromised set of common control resources, and decoding opportunistic common control resources only when the configuration information indicates that there is control information for the UE.
21. The method of claim 17, wherein receiving the configuration information further comprising receiving the configuration information configuration information for at least the set of opportunistic common control resources through ISMS.
22. The method of claim 17, further comprising decoding a message 2 from a random access channel procedure. Both in the set of committed common control resources and in the set of opportunistic common control resources.
23. The method of claim 16, wherein the configuration information indicates that the first type and the second type method of the common control resource set comprise sets of resources that overlap, at least partially, in time and frequency.
24. The method of claim 23, wherein decoding further comprises decoding only one of the first type or method the second type of the common control feature set within a range based on the configuration information.
25. The method of claim 16, wherein the first type of common control resource set is a compromised common control resource set and the second type of common control resource set.
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5. Method according to claim 2, further comprising always transmitting the committed common control resource set, and timely transmitting the opportunistic common control resource set only when there is control information for the UE.
[6]
6/15 common control is the UE's specific control feature set.
26. The method of claim 25, further comprising always decoding the committed common control feature set and decoding the UE specific control feature set in time only in response to the configuration information indicating a concession corresponding to the feature set of specific control of the UE.
27. The method of claim 25, wherein receiving the configuration information comprises receiving a first indication signal of the committed common control resource set via a master information block (MIB) and receiving a second indication from the UE-specific control feature set via a radio resource control signal (RRC).
28. The method of claim 25, further comprising decoding a four-step message 2 of a random access channel procedure via the single set of common control features, or decoding a two-step message 2 of the procedure random access channel through the compromised common control feature set or the UE specific control feature set.
29. Method in a deal with claim 25, in what the information of configuration identifies this formation in continuous beam. IS configured to set of control features specific of the EU, understanding
additionally:
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6. Method according to claim 2, wherein
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[7]
7/15 receive a continuity indicator that identifies whether phase continuity is maintained over time for the UE's specific control feature set; and filter an estimated channel with the time of conducting the channel estimate based on the continuity indicator.
30. The method of claim 25, wherein the configuration information identifies the physical resource block (PRB), the beam formation is configured for the specific UE control resource set, further comprising:
filter an estimated channel with time and frequency when performing the channel estimate in response to the PRB beam formation.
31. The method of claim 25, wherein the configuration information identifies that the common committed resources and the module the UE specific control resource set is located adjacent and is subject to continuous beam formation, further comprising:
receive a continuity indicator that identifies whether phase continuity is maintained between committed common resources and the value of the specific UE control resource adjusted over an interval; and perform a single channel estimate across both the committed common resources and the UE specific control resource set in the interval, or perform separate channel estimates on each of the committed common resources and the UE specific control resource set in the break, based on
Petition 870190064065, of 07/09/2019, p. 49/68
A method according to claim 2, further comprising transmitting a message 2 from a random access channel procedure through both the common control resource set and the opportunistic common control resource set.
[8]
8/15 continuity indicator.
32. gNB for wireless communications, comprising:
a transceiver;
a memory a processor in communication with the transceiver and the memory and configured to:
configure a first type and a second type of common control feature set; and indicate, to a user equipment (UE), the first type and the second type of common control feature set based on at least the configuration.
33. gNB according to claim 32, wherein the first type of common control resource set is compromised control resource and the second type of common control resource set is the opportunistic common control resource set.
34. gNB according to claim 33, wherein the indication includes indicating at least the set of common control resources committed at least partially, the set of common control resources through a master information block (MIB) and the set of opportunistic common control resources at least partially through ISMS.
35. gNB according to claim 34, wherein the first subset of partitions and the second subset of partitions are mutually exclusive.
36. gNB according to claim 33, wherein the processor is additionally configured to always transmit the common control feature set
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8. Method according to claim 1, wherein indicating the first type and the second type of the common control resource set further comprises indicating resource sets that overlap, at least partially, in time and frequency.
[9]
9/15 committed, and timely transmit the set of opportunistic common control resources only when there is control information for the UE.
37. gNB according to claim 33, wherein the indication includes indicating at least the set of opportunistic common control resources through ISMS.
38. gNB according to claim 33, wherein the processor is further configured to transmit a message 2 from a random access channel procedure via both the common control feature set and the opportunistic common control feature set.
39. gNB according to claim 32, wherein indicating the first and second types of common control resource sets further comprises indicating resource sets that overlap, at least partially, in time and frequency.
40. gNB according to claim 39, wherein the processor is additionally configured to select one of the first type or the respective second type from the common control feature set that at least partially overlaps in time and frequency within a range , and transmit information to the UE in the interval using only the first type or the second type of common control resource set.
41. gNB according to claim 32, wherein the first type of common control resource set is a compromised common control resource set and further comprises the configuration in gNB of a control resource set which is a set of
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9. The method of claim 8, further comprising selecting one of the first type or the second type method from the common control feature set that at least partially overlaps in time and frequency within a range, and transmission of information for the UE in the range using only the first type or the second type of common control resource set.
[10]
10/15 UE specific control features.
42. gNB according to claim 41, wherein the processor is additionally configured to always transmit the jointly committed common control resource and timely transmit the UE specific control resource set only when there is control information for the UE.
43. gNB according to claim 41, in which the compromised common control resource set is indicated via a master information block (MIB) and the UE specific control resource set is indicated via a control signal radio resource (RRC).
44. gNB according to claim 41, wherein the processor is additionally configured to transmit a four-step message 2 of a random access channel procedure through the single set of common control resources, or to transmit a message 2 of two steps of the random access channel procedure through the compromised common control feature set or the UE specific control feature set.
45. gNB according to claim 41, wherein the processor is additionally configured to transmit beam formation, and to transmit a phase continuity indicator to identify whether phase continuity is maintained over time in response to transmission using the beam formation.
46. gNB according to claim 41, wherein the processor is additionally configured to:
transmit both common resources committed
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10. Method according to claim 1, wherein the first type of common control resource set is a compromised common control resource set and further comprising the configuration, in gNB, of a control resource set which is a set of UE-specific control features.
[11]
11/15 and the set of control features specific to the UE in the same interval using beam formation; and transmit a beamform continuity indicator to identify whether continuous beamforming is used across both the compromised common resources and the UE specific control resource set when the committed common resources and the specific control resource set of the UE are located adjacent.
47. User equipment (EU) for wireless communications, comprising:
a transceiver;
a memory a processor in communication with the transceiver and the memory and configured to:
receiving reception configuration information of a first type and a second type of common control resource adjusted from a gNB; and decode the first type and the second type of common control feature set based on at least the configuration information.
48. EU according to claim 47, wherein the first type of the common control resource set is a compromised control resource and the second type of the common control resource set is the opportunistic common control resource set.
49. The UE according to claim 48, wherein receiving the configuration information comprises receiving the configuration information for at least the configuration information set of common control resources
Petition 870190064065, of 07/09/2019, p. 53/68
11. Method according to claim 10, in which it additionally comprises always transmitting the set of committed common control resources and timely transmitting the set of specific control resources
Petition 870190064065, of 07/09/2019, p. 44/68
[12]
12/15 at least partially compromised, the set of common control resources through a master information block (MIB) and the set of opportunistic common control resources at least partially through the ISMS.
50. The UE of claim 49, wherein the first subset of partitions and the second subset of partitions are mutually exclusive.
51. UE according to claim 48, in which the processor is additionally configured to always decode the compromised set of common control resources, and to decode opportunistic common control resources in a timely manner only when configuration information indicates that control information exists for the UE.
52. The UE of claim 48, wherein receiving the configuration information further comprising receiving the configuration information configuration information for at least the set of opportunistic common control resources through ISMS.
53. The UE of claim 48, wherein the processor is further configured to decode a message 2 of the random access channel procedure both in the effective common control feature set and the opportunistic common control feature set.
54. UE according to claim 47, wherein the configuration information indicates that the first type and the second type of the common control resource set comprise resource sets that overlap, at least partially, in time and frequency.
Petition 870190064065, of 07/09/2019, p. 54/68
12. Method according to claim 10, in which the committed common control resource set is indicated via a master information block (MIB) and the UE specific control resource set is indicated via a control signal radio resource (RRC).
[13]
13/15
55. The UE of claim 54, wherein the decoding further comprises decoding only one of the first type or the second type of the common control feature set within a range based on the configuration information.
56. EU according to claim 47, wherein the first type of common control resource set is a compromised common control resource set and the second type of common control resource set is the specific control resource set of the UE.
57. UE according to claim 56, wherein the processor is additionally configured to always decode the compromised common control feature set and the opportunistic decoding of the UE specific control feature only in response to configuration information indicating a corresponding grant to the UE's specific control feature set.
58. UE according to claim 56, in which the receipt of configuration information comprises the receipt of a first indication signal of the compromised common control resource set via a master information block (MIB) and receiving a second indication from the UE-specific control feature set via a radio resource control signal (RRC).
59. The UE of claim 56, wherein the processor is further configured to decode a four-step message 2 from a random access channel procedure via the single set of common control features, or to decode a 2-message two steps of the random access channel procedure
Petition 870190064065, of 07/09/2019, p. 55/68
A method according to claim 10, further comprising transmitting a four-step message 2 from a random access channel procedure through the single set of common control resources, or transmitting a two-step message 2 from the random access channel procedure through the compromised common control feature set or the UE specific control feature set.
[14]
14/15 through the compromised common control feature set or the UE specific control feature set.
60. The UE of claim 56, wherein the configuration information identifies that continuous beam formation. It is configured for the UE specific control feature set, further comprising:
receive a continuity indicator that identifies whether phase continuity is maintained over time for the UE's specific control feature set; and filter an estimated channel with the time of conducting the channel estimate based on the continuity indicator
61. UE according to claim 56, wherein the configuration information identifies the physical resource block (PRB) the beam formation is configured for the specific UE control resource set, further comprising:
filter an estimated channel with time and frequency when performing the channel estimate in response to the PRB beam formation.
62. UE according to claim 56, wherein the configuration information identifies that the common committed resources and the UE specific control resource set are located adjacent and are subject to continuous beam formation, further comprising:
receive a continuity indicator that identifies whether phase continuity is maintained between committed common resources and the control resource
Petition 870190064065, of 07/09/2019, p. 56/68
A method according to claim 10, further comprising transmitting using beam formation, and transmitting a phase continuity indicator to identify whether phase continuity is maintained over time in response to transmission using beam formation .
A method according to claim 10, further comprising:
transmit both committed common resources and the UE specific control resource set at the same interval using beam formation; and transmit a beamform continuity indicator to identify whether continuous beamforming is used across both sets of
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[15]
15/15 UE specific adjusted in an interval; and perform a single channel estimate across both the committed common resources and the EU-specific control resource set in the interval, or perform separate channel estimates on each of the committed common resources and the UE-specific control resource set in the interval, based on the continuity indicator.

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同族专利:

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公开号 | 公开日

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KR20190103184A|2019-09-04|

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EP3569024B1|2022-02-23|

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CN110192420A|2019-08-30|

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JP2020505822A|2020-02-20|

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EP3569024A1|2019-11-20|

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WO2018132672A1|2018-07-19|

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CA3047147A1|2018-07-19|

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US20180206247A1|2018-07-19|

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TW201836417A|2018-10-01|

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US11212813B2|2021-12-28|

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法律状态:
2021-10-13| B350| Update of information on the portal [chapter 15.35 patent gazette]|

优先权:

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US201762446268P| true| 2017-01-13|2017-01-13|

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US62/446,268|2017-01-13|

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