U.S. patent application number 17/659295 was filed with the patent office on 2022-08-11 for communication device and communication method.
The applicant listed for this patent is SONY GROUP CORPORATION. Invention is credited to Kosuke AIO, Ren SUGAI, Shigeru SUGAYA.
Application Number | 20220256421 17/659295 |
Document ID | / |
Family ID | |
Filed Date | 2022-08-11 |
United States Patent
Application |
20220256421 |
Kind Code |
A1 |
SUGAI; Ren ; et al. |
August 11, 2022 |
COMMUNICATION DEVICE AND COMMUNICATION METHOD
Abstract
Provided is a communication device that favorably implements SR
communication and MU communication. A communication device that
operates as a base station includes a determination unit that
determines a communication status in a BSS of the communication
device, and a control unit that controls transmission and reception
of a signal regarding connection change of a terminal according to
the communication status to and from a surrounding base station.
The determination unit determines the presence of a small number of
terminals falling outside a distribution of implementation statuses
of spatial reuse communication or multi user communication of
entire subordinate terminals, and transmits a signal requesting the
small number of terminals to be connected to the surrounding base
station or transmits a signal inquiring of the surrounding base
station acceptance of the small number of terminals.
Inventors: |
SUGAI; Ren; (Kanagawa,
JP) ; AIO; Kosuke; (Kanagawa, JP) ; SUGAYA;
Shigeru; (Kanagawa, JP) |
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Applicant: |
Name |
City |
State |
Country |
Type |
SONY GROUP CORPORATION |
Tokyo |
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JP |
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Appl. No.: |
17/659295 |
Filed: |
April 14, 2022 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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16632952 |
Jan 22, 2020 |
11323941 |
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PCT/JP2018/022156 |
Jun 11, 2018 |
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17659295 |
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International
Class: |
H04W 36/22 20060101
H04W036/22; H04W 36/08 20060101 H04W036/08; H04W 36/38 20060101
H04W036/38; H04W 36/28 20060101 H04W036/28; H04W 28/08 20060101
H04W028/08 |
Foreign Application Data
Date |
Code |
Application Number |
Aug 3, 2017 |
JP |
2017-150578 |
Claims
1. A communication device that operates as a base station, the
communication device comprising: a determination unit configured to
determine a communication status in a BSS of the communication
device; and a control unit configured to control transmission and
reception of a signal regarding connection change of a terminal to
and from a surrounding base station according to a determination
result by the determination unit.
2. The communication device according to claim 1, wherein the
control unit controls transmission of a request signal requesting a
subordinate terminal to be connected to the surrounding base
station.
3. The communication device according to claim 2, wherein the
determination unit determines presence of a small number of
terminals each having a first parameter falling outside a
distribution of entire subordinate terminals, the first parameter
representing an index of communication quality of the terminal, and
the control unit controls transmission of the request signal
requesting the small number of terminals to be connected to the
surrounding base station.
4. The communication device according to claim 2, wherein the
control unit controls transmission of the request signal including
a second parameter regarding communication after the subordinate
terminal changes connection to the surrounding base station.
5. The communication device according to claim 1, wherein the
control unit controls transmission of an inquiry signal inquiring
of the surrounding base station availability of acceptance of a
subordinate terminal.
6. The communication device according to claim 5, wherein the
determination unit determines presence of a small number of
terminals each having a first parameter falling outside a
distribution of entire subordinate terminals, the first parameter
representing an index of communication quality of the terminal, and
the control unit controls transmission of the inquiry signal
inquiring of the surrounding base station availability of
acceptance of the small number of terminals.
7. The communication device according to claim 5, wherein the
control unit controls transmission of the inquiry signal including
information regarding a number of subordinate terminals for which
connection is to be changed and a communication status of each
terminal, or the inquiry signal including information regarding a
specific terminal that the surrounding base station is requested to
accept.
8. The communication device according to claim 5, wherein the
control unit controls transmission of the inquiry signal including
a second parameter regarding communication after the subordinate
terminal changes connection to the surrounding base station.
9. The communication device according to claim 5, wherein, when the
control unit receives an answer signal indicating acceptance of a
subordinate terminal from the surrounding base station, the control
unit controls transmission of a request signal requesting the
subordinate terminal to be connected to the surrounding base
station.
10. The communication device according to claim 9, wherein the
control unit controls the transmission of the request signal
including information regarding a communication status in a BSS of
the surrounding base station added to the answer signal.
11. The communication device according to claim 1, wherein, when
the control unit connects a subordinate terminal of a surrounding
base station to a control unit's own base station, the control unit
sets a communication parameter of the control unit's own base
station on a basis of a second parameter included in the signal
received from either the terminal or the surrounding base
station.
12. The communication device according to claim 1, wherein the
control unit controls, in response to reception of an inquiry
signal inquiring availability of acceptance of a subordinate
terminal of a surrounding base station from the surrounding base
station, transmission of an answer signal answering the
availability of acceptance of a subordinate terminal of the
surrounding base station.
13. The communication device according to claim 12, wherein the
control unit determines the availability of acceptance of a
subordinate terminal of the surrounding base station on a basis of
information regarding a second parameter regarding communication
after connecting the terminal added to the inquiry signal, or a
traffic load in a control unit's own base station.
14. The communication device according to claim 12, wherein the
control unit controls transmission of the answer signal including
information regarding a communication status in a BSS of a control
unit's own base station.
15. The communication device according to claim 12, wherein, when
the control unit accepts the subordinate terminal of the
surrounding base station, the control unit attempts connection with
the terminal.
16. A communication method for operating as a base station, the
communication method comprising: a determination step of
determining a communication status in a BSS of the base station;
and a control step of controlling transmission and reception of a
signal regarding connection change of a terminal to and from a
surrounding base station according to a determination result by the
determination step.
17. A communication device that operates as a terminal under
control of a base station, the communication device comprising: a
transmission and reception unit configured to transmit and receive
a signal; and a control unit configured to control connection with
a base station on a basis of a request signal requesting connection
to another base station received from a connection destination base
station.
18. The communication device according to claim 17, wherein the
control unit controls transmission of a second parameter regarding
communication after connection is changed to the another base
station, the second parameter being included in the request signal
to the another base station after the connection is
established.
19. The communication device according to claim 17, wherein the
control unit controls transmission of information regarding an
implementation schedule of spatial reuse communication or multi
user communication in a BSS of the original connection destination
base station after connection is changed to the another base
station, the information being included in the request signal to
the another base station after the connection is established.
20. A communication method for operating as a terminal under
control of a base station, the communication method comprising: a
reception step of receiving a request signal requesting connection
to another base station received from a connection destination base
station; and a control step of controlling connection with a base
station on a basis of the request signal.
Description
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation application of U.S.
patent application Ser. No. 16/632,952, filed on Jan. 22, 2020, is
a U.S. National Phase of International Patent Application No.
PCT/JP2018/022156 filed on Jun. 11, 2018, which claims priority
benefit of Japanese Patent Application No. JP 2017-150578 filed in
the Japan Patent Office on Aug. 3, 2017. Each of the
above-referenced applications is hereby incorporated herein by
reference in its entirety.
TECHNICAL FIELD
[0002] The technology disclosed in the present specification
relates to a communication device and a communication method for
realizing high-speed communication by multi user communication or
spatial reuse technology.
BACKGROUND ART
[0003] Wireless local area network (LAN) is expected to realize
higher-speed communication with dynamic sensitivity control (DSC)
that is one of uplink multi user (UL MU) communication and spatial
reuse (SR) technology. Here, the UL MU communication is a
technology in which a base station (AP) communicates with a
plurality of terminals (STAs) by multiplexing signals spatially or
in frequency. Furthermore, the DSC is a technology for newly
obtaining a communication opportunity by changing a threshold value
for packet detection of a conservatively set wireless LAN. In the
SR communication based on a DSC operation, when received power of a
signal received from another basic service set (BSS) is equal to or
smaller than a predetermined signal detection threshold value,
backoff is permitted to increase the transmission opportunity in
the BSS.
CITATION LIST
Patent Document
[0004] Patent Document 1: Japanese Patent Application Laid-Open No.
2016-129406
SUMMARY OF THE INVENTION
Problems to be Solved by the Invention
[0005] An object of the technology disclosed in the present
specification is to provide a communication device and a
communication method for realizing high-speed communication by
multi user communication or spatial reuse technology.
Solutions to Problems
[0006] The first aspect of the technology disclosed in the present
specification is a communication device that operates as a base
station, the communication device including:
[0007] a determination unit configured to determine a communication
status in a BSS of the communication device; and
[0008] a control unit configured to control transmission and
reception of a signal regarding connection change of a terminal to
and from a surrounding base station according to a determination
result by the determination unit.
[0009] The determination unit determines the presence of a small
number of terminals falling outside a distribution of
implementation statuses of spatial reuse communication or multi
user communication of entire subordinate terminals, and the control
unit controls transmission of a request signal requesting the small
number of terminals to be connected to the surrounding base
station. Alternatively, the control unit controls transmission of
the inquiry signal inquiring of the surrounding base station
availability of acceptance of the small number of terminals.
[0010] Furthermore, the control unit sets a communication parameter
of a control unit's own base station on the basis of information
regarding a communication resource set for the surrounding base
station by the surrounding base station or information regarding a
communication resource allowed to the control unit's own base
station by the surrounding base station, the information being
received from either the terminal or the surrounding base station
when the control unit connects a subordinate terminal of the
surrounding base station to the control unit's own base
station.
[0011] Furthermore, the control unit controls, in response to
reception of an inquiry signal inquiring availability of acceptance
of a subordinate terminal of a surrounding base station from the
surrounding base station, transmission of an answer signal
answering the availability of acceptance of a subordinate terminal
of the surrounding base station.
[0012] Furthermore, the second aspect of the technology disclosed
in the present specification is a communication method for
operating as a base station, the communication method
including:
a determination step of determining a communication status in a BSS
of the base station; and
[0013] a control step of controlling transmission and reception of
a signal regarding connection change of a terminal to and from a
surrounding base station according to a determination result by the
determination step.
[0014] Furthermore, the third aspect of the technology disclosed in
the present specification is a communication device that operates
as a terminal under control of a base station, the communication
device including:
[0015] a transmission and reception unit configured to transmit and
receive a signal; and
[0016] a control unit configured to control connection with a base
station on the basis of a request signal requesting connection to
another base station received from a connection destination base
station.
[0017] The control unit controls transmission of information to the
another base station after the connection is established, the
information described in the request signal and being regarding a
communication resource set to an original connection destination
base station after connection is changed to the another base
station or being regarding a communication resource allowed to the
another base station.
[0018] Furthermore, the fourth aspect of the technology disclosed
in the present specification is a communication method for
operating as a terminal under control of a base station, the
communication method including:
[0019] a reception step of receiving a request signal requesting
connection to another base station received from a connection
destination base station; and
[0020] a control step of controlling connection with a base station
on the basis of the request signal.
Effects of the Invention
[0021] According to the technology disclosed in the present
specification, a communication device and a communication method
for realizing high-speed communication by multi user communication
or spatial reuse technology can be provided.
[0022] Note that the effects described in the present specification
are merely examples, and the effects of the present invention are
not limited thereto. Furthermore, the present invention may further
exhibit additional effects in addition to the above effects.
[0023] Still other objects, features, and advantages of the
technology disclosed in the present specification will become clear
from detailed description based on embodiments described later and
attached drawings.
BRIEF DESCRIPTION OF DRAWINGS
[0024] FIG. 1 is a diagram illustrating a configuration example of
a wireless communication system to which the technology disclosed
in the present specification is applicable.
[0025] FIG. 2 is a diagram illustrating a functional configuration
of a communication device 200 to which the technology disclosed in
the present specification is applicable.
[0026] FIG. 3 is a diagram illustrating a sequence example of
communication according to Example 1.
[0027] FIG. 4 is a diagram illustrating another sequence example of
the communication according to Example 1.
[0028] FIG. 5 is a flowchart illustrating a processing procedure
performed by an APAP for a subordinate isolated STA.
[0029] FIG. 6 is a flowchart illustrating a processing procedure
for determining whether or not an AP connects a subordinate
isolated STA to another AP.
[0030] FIG. 7 is a flowchart illustrating a processing procedure of
an operation A performed by an AP when the AP connects a
subordinate isolated STA to another AP.
[0031] FIG. 8 is a flowchart illustrating a processing procedure of
an operation B performed by an AP when the AP does not connect a
subordinate isolated STA to another AP.
[0032] FIG. 9 is a diagram illustrating a frame configuration of a
signal transmitted by an AP to a subordinate isolated STA when the
AP requests the subordinate isolated STA to be connected to another
AP.
[0033] FIG. 10 is a flowchart illustrating a processing procedure
performed when an isolated STA has received a signal requesting
connection to another AP.
[0034] FIG. 11 is a diagram illustrating a frame configuration of a
signal transmitted by an isolated STA to a new connection
destination AP.
[0035] FIG. 12 is a diagram illustrating a frame configuration of a
signal notifying a surrounding AP that an AP can accept an isolated
STA.
[0036] FIG. 13 is a diagram illustrating a modification of the
sequence of the communication according to Example 1.
[0037] FIG. 14 is a diagram illustrating another modification of
the sequence of the communication according to Example 1.
[0038] FIG. 15 is a flowchart illustrating a processing procedure
of an operation A performed by an AP when the AP connects a
subordinate isolated STA to another AP.
[0039] FIG. 16 is a flowchart illustrating a processing procedure
of an operation B performed by an AP when the AP does not connect a
subordinate isolated STA to another AP.
[0040] FIG. 17 is a diagram illustrating a frame configuration of a
signal transmitted by an AP to a subordinate isolated STA when the
AP requests the subordinate isolated STA to be connected to another
AP.
[0041] FIG. 18 is a flowchart illustrating a processing procedure
performed when an isolated STA has received a signal requesting
connection to another AP.
[0042] FIG. 19 is a diagram illustrating a frame configuration of a
signal transmitted by an isolated STA to a new connection
destination AP.
[0043] FIG. 20 is a diagram illustrating an operation example in a
wireless communication system to which Example 1 is applied.
[0044] FIG. 21 is a diagram illustrating a sequence example of
communication according to Example 2.
[0045] FIG. 22 is a diagram illustrating a sequence example of
another communication according to Example 2.
[0046] FIG. 23 is a flowchart illustrating a processing procedure
of an operation A performed by an AP when the AP connects a
subordinate isolated STA to another AP in Example 2.
[0047] FIG. 24 is a flowchart illustrating a processing procedure
of an operation B performed by an AP when the AP does not change a
connection destination of a subordinate isolated STA in Example
2.
[0048] FIG. 25 is a diagram illustrating a frame configuration of a
signal inquiring, by an AP, of another AP whether or not an
isolated STA is acceptable.
[0049] FIG. 26 is a flowchart illustrating a processing procedure
of a signal inquiring whether or not an isolated STA is
acceptable.
[0050] FIG. 27 is a diagram illustrating a frame configuration of
an answer signal to an inquiry about acceptance of an isolated
STA.
[0051] FIG. 28 is a diagram illustrating a frame configuration of a
signal requesting, by an AP, a subordinate isolated STA to be
connected to a new connection destination AP.
[0052] FIG. 29 is a diagram illustrating a modification of the
sequence of the communication according to Example 2.
[0053] FIG. 30 is a diagram illustrating another modification of
the sequence of the communication according to Example 2.
[0054] FIG. 31 is a flowchart illustrating a processing procedure
of an operation A performed by an AP when the AP connects a
subordinate isolated STA to another AP.
[0055] FIG. 32 is a flowchart illustrating a processing procedure
of an operation B performed by an AP when the AP does not connect a
subordinate isolated STA to another AP.
[0056] FIG. 33 is a diagram illustrating a frame configuration of a
signal inquiring, by an AP, of another AP whether or not an
isolated STA is acceptable.
[0057] FIG. 34 is a flowchart illustrating a processing procedure
of a signal inquiring whether or not an isolated STA is
acceptable.
MODE FOR CARRYING OUT THE INVENTION
[0058] Hereinafter, embodiments of the technology disclosed in the
present specification will be described in detail with reference to
the drawings.
[0059] If a small number of STAs with low communication quality or
a small number of STAs incapable of performing UL MU communication
or SR communication based on a DSC operation cannot is present in a
BSS, a problem arises, in which improvement effects in the SR
communication and the UL MU communication cannot be sufficiently
obtained.
[0060] First, a problem in the UL MU communication will be
described. In the UL MU communication, received power of signals
transmitted from the respective STAs need to be the same to some
extent. For this reason, in a case where a small number of STAs
(hereinafter also referred to as "weak link STAs") having smaller
received power due to a propagation loss or the like is present, if
the weak link STA is selected as an STA for performing the UL MU
communication, other STAs that perform the UL MU communication
needs to perform transmission with low transmission power in
accordance with the weak link STA. As a result, a signal-to-noise
power ratio decreases, and the possibility that an AP cannot
correctly receive a packet increases. If the weak link STA is not
selected as the STA for MU communication, an opportunity for the
weak link STA to perform single user (SU) communication needs to be
additionally secured in order to secure throughput of the weak link
STA. Since the weak link STA has poor communication quality,
communication is performed with MCS (encoding/modulation method)
with a low data rate. For this reason, since the frequency resource
is occupied for a long time for the SU communication of the weak
link STA, the time to perform the MU communication is relatively
reduced. Even in a case where an STA that rarely performs or cannot
perform the UL MU communication is present due to set parameters or
implementation reasons, the opportunity to perform the SU
communication similarly needs to be secured and thus the time to
perform the MU communication is relatively reduced.
[0061] Meanwhile, in a case where a weak link STA is present in the
SR communication, if the signal detection threshold value of the
wireless LAN packet is increased, the packet transmitted by the
weak link STA cannot be detected, which is a great restriction on
the SR communication. As a result, the effect of increasing
communication opportunities by the SR communication cannot be
obtained. Furthermore, in a case where an STA that performs the SR
communication opportunity and an STA that rarely performs or cannot
perform the SR communication are present in the same BSS, unfair
communication opportunities occur. For example, in a case where an
interference signal larger than the signal detection threshold
value arrives at the STA that performs the SR communication and the
STA that rarely performs or cannot perform the SR communication
from another BSS, the STA that rarely performs or cannot perform
the SR communication becomes a busy state but the STA that performs
the SR communication has a possibility of performing communication
by increasing the signal detection threshold value. As a result,
only the STA that can perform the SR communication performs the
communication, and the communication opportunities become more
unfair.
[0062] In addition, the STA cannot grasp whether or not the STA
itself is a restriction on the SR communication or MU communication
operation in the BSS. For this reason, when viewed from the entire
BSS, even in a case where the STA can improve the throughput of the
BSS and its own throughput by being connected to another
connectable BSS, the STA itself cannot make the determination.
[0063] For example, a wireless communication method that can start
association when an AP is a wireless transmission and reception
unit has been proposed (see, for example, Patent Document 1).
According to this wireless communication method, the AP transmits a
signal for requesting connection to another AP connected by a
backhaul to a subordinate STA on the basis of an AP's own traffic
load. In response to this request, the STA performs association
with the another appropriate AP. In this wireless communication
method, an association request to the STA is transmitted using the
traffic load as a determination criterion. In other words, this
method does not determine how the STA should be associated on the
basis of the efficiency of the SR transmission and the UL MU
communication. Furthermore, the wireless communication method is
based on the assumption that APs are connected by a backhaul. In
the wireless LAN network, basically, connection of APs by a
backhaul is not assumed. That is, this wireless communication
method can be applied only in a very limited wireless environment
such as an Enterprise WLAN.
[0064] In a mobile communication network, a mobile communication
base station (BS) determines whether or not to handoff to another
BS on the basis of received power of a mobile communication
terminal (MT). In the mobile communication network, BSs are
connected by a backhaul and managed by a common centralized control
station. In contrast, in the wireless LAN network, each AP
autonomously operates in a decentralized manner, and if a
connection destination of an STA is simply controlled using the
received power as a determination criterion, there is a risk of
falling into a situation where the AP unilaterally suffers a loss
such as an increase in a traffic load of a certain AP, which causes
a problem as an operation.
[0065] Therefore, the present specification proposes a technology
of an AP optimizing a connection destination of an STA on the basis
of a distribution of implementation statuses of SR communication
and UL MU communication of subordinate STAs. The AP investigates
the distribution of implementation statuses of SR communication and
UL MU communication of each subordinate STA, and performs operation
and selection on the basis of a result of the investigation.
[0066] Specifically, as a result of the AP investigating an
implementation status of the SR communication and the UL MU
communication of each subordinate STA, in a case where the presence
of a small number of STAs (hereinafter also referred to as
"isolated STAs") falling outside a distribution of the entire STAs
is revealed, the AP requests such an isolated STA to transmit a
report of information regarding APs to which the STA itself is
connectable. In many cases, the isolated STA is a weak link STA
with smaller received power due to a propagation loss or the like
than other STAs in the same BSS. Then, in a case where another AP
to which the isolated STA is connectable is present, and the
isolated STA is determined to be connected to the another
connectable AP, the AP requests the isolated STA to be connected to
the another connectable AP, and transmits a signal including
information prompting resetting of parameters so that the isolated
STA can easily obtain a transmission opportunity when being
connected to the another connectable AP. After that, the isolated
STA transmits a signal including information prompting the newly
connected AP to reset parameters notified from the previous
connection destination AP.
[0067] Meanwhile, in a case where an AP to which the isolated STA
is connectable is not present, the AP notifies a surrounding AP
capable of cooperative operation that the AP can accept the
isolated STA. Through this operation, the APs can effectively
mutually accept the respective subordinate isolated STAs.
Furthermore, the AP can receive preferential treatment of setting
parameters (for example, allowed to set superior contention window
size, arbitration inter frame space (AIFS), and signal detection
value) as a reward by accepting an isolated STA connected to
another BSS even in a case where the subordinate isolated STA of
the AP cannot be accepted by another BSS.
[0068] Through the operation of the APs, the throughput of the
entire network can be improved. Furthermore, the isolated STA side
may be able to improve its own throughput by being connected to
another AP from the state where the communication quality is low or
the UL MU communication or SR communication is not available.
Furthermore, the operation between APs can be realized between BSSs
not connected by a backhaul.
[0069] FIG. 1 schematically illustrates a configuration example of
a wireless communication system to which the technology disclosed
in the present specification is applicable. The illustrated system
includes a plurality of wireless devices STA.sub.1, STA.sub.2, . .
. , STA.sub.K-1, STA.sub.K, . . . , STA.sub.N-1, and STA.sub.N.
Among the plurality of wireless devices, STA.sub.0, STA.sub.1, . .
. , and STA.sub.K-1 are base stations (AP), and STA.sub.K, . . . ,
STA.sub.N-1, and STA.sub.N are slave units or terminals (STA). Note
that the number of base stations and the number of terminals are
not limited to specific numbers in implementing the technology
disclosed in the present specification.
[0070] FIG. 2 schematically illustrates a functional configuration
of a communication device 200 to which the technology disclosed in
the present specification is applicable. The illustrated
communication device 200 can operate as both the AP and the STA in
the wireless communication system illustrated in FIG. 1, for
example.
[0071] The communication device 200 includes a data processing unit
201, a control unit 202, a communication unit 203, and a power
supply unit 204. Furthermore, the communication unit 203 further
includes a modulation and demodulation unit 211, a signal
processing unit 212, a channel estimation unit 213, a wireless
interface (IF) unit 214, an amplification unit 215, and an antenna
216. Note that the wireless interface unit 214, the amplification
unit 215, and the antenna 216 may form one set, and one or more
sets may be constituent elements. Furthermore, the function of the
amplification unit 215 may be included in the wireless interface
unit 214. Furthermore, the antenna 216 may be externally connected
to a main body of the communication device 200, besides being
provided as a constituent element of the communication device
200.
[0072] At a transmission time to input data from a protocol upper
layer (not illustrated), the data processing unit 201 generates a
packet for wireless transmission from the data, performs processing
such as adding a header and an error detection code for media
access control (MAC), and provides the processed data to the
modulation and demodulation unit 211 in the communication unit 203.
Conversely, at a reception time to receive an input from the
modulation and demodulation unit 211, the data processing unit 201
performs MAC header analysis, packet error detection, reorder
processing, and the like, and provides the processed data to the
upper layer of the data processing unit 201's own protocol.
[0073] The control unit 202 controls exchange of information among
the units in the communication device 200. Furthermore, the control
unit 202 performs parameter setting in the modulation unit 211 and
the signal processing unit 212, and performs scheduling of the
packet in the data processing unit 201. Furthermore, the control
unit 202 performs parameter setting and transmission power control
of the wireless interface unit 214 and the amplification unit
215.
[0074] In particular, when the communication device 200 operates as
an AP and implements the technology disclosed in the present
specification, the control unit 202 controls each unit to realize
processing of investigating a distribution of an implementation
statuses of SR communication and UL MU communication of subordinate
wireless terminals, and specifying a wireless terminal (for
example, an isolated STA in a BSS) that is better to change
connection to another base station. Furthermore, the control unit
202 controls the isolated STA to transmit a signal including
information requesting connection to another AP and information
prompting resetting of parameters so as to easily obtain a
communication opportunity for transmission when being connected to
the appropriate base station. Alternatively, the control unit 202
performs control to transmit a signal enabling a subordinate STA of
another AP to be easily connected to the control unit 202 itself
(for example, signal including information of a communication
parameter serving as a reward) to a surrounding AP.
[0075] The modulation and demodulation unit 211 encodes,
interleaves, and modulates input data from the data processing unit
201 on the basis of coding and modulation method set by the control
unit 202, generates a data symbol stream, and provides the data
symbol stream to the signal processing unit 212, at the time of
signal transmission. Furthermore, at the time of signal reception,
the modulation and demodulation unit 211 performs reverse
processing to the processing at the time of transmission for an
input from the signal processing unit 212, and provides received
data to the data processing unit 201 or the control unit 202.
[0076] At the time of signal transmission, the signal processing
unit 212 performs signal processing to be provided for spatial
separation, for an input from the modulation and demodulation unit
211 as needed, and provides obtained one or more transmission
symbol streams to the respective wireless interface units 214.
Furthermore, at the time of signal reception, the signal processing
unit 212 performs signal processing for the received symbol streams
input from the respective wireless interface units 214, performs
spatial decomposition of the streams as needed, and provides the
streams to the modulation and demodulation unit 211.
[0077] The channel estimation unit 213 calculates complex channel
gain information of a propagation path from a preamble portion and
a training signal portion of input signals from the respective
wireless interface units 214. The calculated complex channel gain
information is used for demodulation processing in the modulation
and demodulation unit 211 and spatial processing in the signal
processing unit via the control unit 202.
[0078] At the time of signal transmission, the wireless interface
unit 214 converts the input from the signal processing unit into an
analog signal, performs filtering and up-conversion to a carrier
frequency, and sends the signal to the antenna 216 or the
amplification unit 215. Furthermore, at the time of signal
reception, the wireless interface unit 214 performs reverse
processing for the input from the antenna 216 or the amplification
unit 215, and provides data to the signal processing unit 212 and
the channel estimation unit 213.
[0079] At the time of signal transmission, the amplification unit
215 amplifies the analog signal input from the wireless interface
unit 214 to predetermined power and sends the signal to the antenna
216. Furthermore, at the time of signal reception, the
amplification unit 215 amplifies the signal input from the antenna
216 to predetermined power with low noise, and outputs the signal
to the wireless interface unit 214. At least either the function at
the time of transmission or the function at the time of reception
of the amplification unit 215 is sometimes included in the wireless
interface unit 214.
[0080] The power supply unit 204 is configured by a battery power
source or a fixed power source, and supplies power to each unit in
the communication device 200.
[0081] The technology disclosed in the present specification is
that an AP optimizes a connection destination of an STA on the
basis of a distribution of implementation statuses of SR
communication or UL MU communication of subordinate STAs.
Hereinafter, two examples of the technology disclosed in the
present specification will be introduced.
[0082] In Example 1, an AP investigates implementation statuses of
SR communication and UL MU communication of each subordinate STA.
As a result of the investigation, in a case where the presence of a
small number of isolated STAs falling outside a distribution of the
entire subordinate STAs has been revealed, the AP selects either
one of following two operations (a) and (b), and executes the
selected operation.
[0083] (a) The AP requests an isolated STA to be connected to
specified another AP, and transmits a request signal including
information prompting resetting of parameters so as to easily
obtain a communication opportunity for transmission when the
isolated STA is connected to the specified AP.
[0084] (b) In a case where the AP can accommodate an isolated STA
connected to a surrounding AP, the AP notifies the surrounding AP
that the AP can accept the isolated STA.
[0085] The isolated STA is connected to the specified another AP
from the AP in connection. Then, when connected to the specified
AP, the isolated STA transmits, to the newly connected AP, the
signal including information prompting resetting of parameters sent
from the previously connected AP.
[0086] Furthermore, the AP to which the isolated STA has been newly
connected changes an AP's own transmission parameter according to
parameter information included in the signal received from the
isolated STA.
[0087] Furthermore, in Example 2, in a case where an isolated STA
meeting conditions is present under the control of an AP, the AP
selects either one of the following operations (c) and (d), and
executes the selected operation.
[0088] (c) The AP transmits an inquiry signal inquiring whether or
not the isolated STA can be connected to an AP to which the
subordinate isolated STA is connectable. Then, in a case where
permission is given by the connectable AP, the AP transmits, to the
isolated STA, a request signal including information requesting the
isolated STA to be connected to the connectable AP and information
prompting resetting of parameters so as to easily obtain a
communication opportunity for transmission when being connected to
the connectable AP. When the isolated STA is connected to the
connectable AP, the isolated STA transmits, to the new connection
destination AP, the signal including information prompting
resetting of parameters sent from the previously connected AP.
[0089] (d) In a case where the AP can accommodate an isolated STA
connected to a surrounding AP, the AP notifies the surrounding AP
that the AP can accept the isolated STA.
[0090] When the AP receives a signal confirming whether or not to
connect an STA from another AP, the AP returns a signal indicating
availability of connection.
[0091] The isolated STA is connected to another AP specified in the
request signal received from the connection destination AP.
Example 1
[0092] FIG. 3 illustrates a communication sequence example
performed among an AP, a subordinate isolated STA of the AP, and a
new connection destination AP of the isolated STA in Example 1. The
illustrated communication sequence assumes that the isolated STA is
connectable to another AP (the connection destination AP in FIG.
3).
[0093] The AP requests the subordinate STA to transmit information
regarding communication quality and information regarding an
implementation status of SR communication and UL MU communication
(SEQ301). In response to the request, the STA returns the requested
information to the AP (SEQ302). Although omitted in FIG. 3, the AP
requests other subordinate STAs to transmit similar information,
and each STA returns the requested information to the AP. Then, as
a result of the AP investigating the implementation statuses of SR
communication and UL MU communication of each subordinate STA, the
presence of an isolated STA falling outside a distribution of the
entire subordinate STAs is revealed.
[0094] The AP requests the isolated STA to transmit information
regarding other connectable APs (SEQ303). In response to the
request, the isolated STA returns the information regarding other
connectable APs to the AP (SEQ304). Here, the information regarding
other connectable APs returned by the isolated STA may include
identification information such as service set identifiers (SSID)
of the connectable APs, the magnitude of received power, a
signal-to-noise power ratio, the implementation status of SR
communication or UL MU communication, and the like. Then, the AP
determines whether or not to change the connection of the isolated
STA to another AP on the basis of the information returned by the
isolated STA and the like.
[0095] Next, the AP requests the subordinate isolated STA to be
connected to a specified another AP, and transmits a request signal
including parameter information set for the another AP (SEQ305).
This parameter information is set as a reward for the another AP
for accepting the isolated STA. The AP determines a value of the
parameter information with which the another AP can more easily
obtain a communication opportunity according to the degree of
wishing the another AP to accept the subordinate isolated STA, for
example.
[0096] The isolated STA requests connection to the new connection
destination AP specified by the request signal (SEQ311). The
another AP that has received the connection request from the
isolated STA determines whether or not to accept the isolated STA
on the basis of information of an AP's own traffic load and the
like. Then, when receiving a reply indicating that the isolated STA
is connectable from the AP (SEQ312), the isolated STA transmits a
signal including the parameter information sent from the previously
connected AP to the AP that will be a new connection destination
(SEQ313). In response, the AP to which the isolated STA has been
newly connected changes the AP's own transmission parameter
according to the parameter information included in the signal
received from the isolated STA. The parameter information received
from the isolated STA is set as a reward for accepting the isolated
STA. The new connection destination AP is allowed to set the
parameter information in return for accepting the isolated STA and
is expected to more easily obtain a communication opportunity.
[0097] Note that, in a case where a plurality of isolated STAs to
be determined is present, a sequence similar to the above-described
sequence is performed for each of the individual isolated STAs.
[0098] FIG. 4 illustrates another communication sequence example
performed among the AP, the subordinate isolated STA of the AP, and
the connection destination AP in Example 1. The illustrated
communication sequence assumes that the isolated STA cannot be
connected to another AP (the connection destination AP in FIG. 4)
and an isolated STA of the another AP is acceptable.
[0099] The AP requests the subordinate STA to transmit the
information regarding communication quality and the information
regarding an implementation status of SR communication and UL MU
communication (SEQ401). In response to the request, the STA returns
the requested information to the AP (SEQ402). Although omitted in
FIG. 4, the AP requests other subordinate STAs to transmit similar
information, and each STA returns the requested information to the
AP. Then, as a result of the AP investigating the implementation
statuses of SR communication and UL MU communication of each
subordinate STA, the presence of an isolated STA falling outside a
distribution of the entire subordinate STAs is revealed.
[0100] The AP requests the isolated STA to transmit the information
regarding other connectable APs (SEQ403). In response to the
request, the isolated STA returns the information regarding other
connectable APs to the AP (SEQ404). The information regarding other
connectable APs returned by the isolated STA may include the
identification information such as SSIDs of the connectable APs,
the magnitude of received power, a signal-to-noise power ratio, the
implementation status of SR communication or UL MU communication,
and the like (the same as above). Then, the AP determines whether
or not to change the connection of the isolated STA to another
AP.
[0101] In a case where the AP determines that the subordinate
isolated STA is not connectable to another AP, the AP gives up
delivery of the isolated STA to the another AP. Furthermore, in a
case where the AP can accommodate an isolated STA connected to
another AP, the AP notifies the surrounding AP that the AP can
accept the isolated STA (SEQ411). The AP is expected to receive
preferential treatment of setting parameters (for example, a
contention window size, an arbitration inter frame space (AIFS), a
signal detection value, and the like) as a reward from the
surrounding AP by accepting the isolated STA of another BSS even in
a case where the subordinate isolated STA cannot be accepted by the
surrounding AP.
[0102] Note that, in a case where a plurality of isolated STAs to
be determined is present, a sequence similar to the above-described
sequence is performed for each of the individual isolated STAs.
[0103] The AP periodically collects information regarding
implementation statuses of SR communication and UL MU communication
from each subordinate STA. The information regarding implementation
statuses of SR communication and UL MU communication is any one of
or a combination of a plurality of pieces of information including
the number of times to perform SR transmission and MU communication
within a fixed period, a success probability of the SR transmission
and MU communication, capability of the SR transmission and MU
communication, information indicating whether or not functions of
the SR transmission and MU communication are activated, current
transmission power, a signal-to-interference plus noise power ratio
(SINR), and a received signal strength indicator (RSSI).
[0104] The AP may collect these pieces of information via a
communication quality report signal from the subordinate STA or the
AP itself may measure the information using the signal transmitted
from the subordinate STA. The AP holds the information as parameter
information of each subordinate STA. An example of the parameters
held by the AP is shown in Table 1 below.
TABLE-US-00001 TABLE 1 Parameter STA.sub.k STA.sub.k+1 . . . The
number of implementation times of xx Yy . . . SR transmission
Success probability of SR transmission xx % yy % . . . capability
of SR transmission 1 1 . . . activate of SR transmission function 0
1 . . . . . . . . . . . . The number of implementation times of xx
Yy . . . UL MU transmission Success probability of UL MU xx % yy %
. . . transmission capability of UL MU transmission 1 1 . . .
activate of UL MU transmission 1 1 . . . function . . . . . . . . .
Transmission power -xx dB -yy dB . . . SINR -xx dB -yy dB . . .
RSSI xxx dBm yyy dBm . . . . . . . . . . . .
[0105] Then, the AP determines whether or not an isolated STA is
present in the subordinate STAs on the basis of the held
parameters. The isolated STA referred here is an STA having a
parameter value separated from other STAs when the parameter
information regarding the implementation status of the SR
communication or the UL MU communication is compared among the
STAs. The AP determines a combination of a plurality of pieces of
parameter information for determining the AP's own operation by
seeing a distribution of the parameter values of the implementation
statuses of the SR communication or the UL MU communication.
[0106] The AP refers, for example, to the distribution of the
parameter information regarding the implementation statuses of the
SR communication and the UL MU communication held by the AP itself,
and determines an STA having parameter information falling outside
the distribution as the isolated STA. Here, the AP may refer to one
type or a plurality of types of the held parameter information. In
a mobile communication network, whether or not to perform handover
is simply determined using communication quality as a criterion. In
contrast, in the present example, an STA to change the connection
destination is selected from the viewpoint of how to obtain the
effect by performing the SR communication and the UL MU
communication in the entire network.
[0107] FIG. 5 illustrates a processing procedure performed by the
AP for the subordinate isolated STA in the form of flowchart.
[0108] The AP determines whether or not the isolated STA is present
in the subordinate STAs (step S501). This determination may be
performed at fixed intervals using a timer held by the AP or may be
performed when the AP starts the MU or SR communication. As
described above, the parameter information regarding the
implementation status of the SR communication or the UL MU
communication is compared among the STAs, and an STA having a
separate parameter value is determined as the isolated STA.
[0109] Then, in a case where the AP determines that the isolated
STA is present in the subordinate STAs (Yes in step S501), the AP
transmits the signal requesting transmission of the information
regarding connectable APs to the isolated STA (step S502).
[0110] Here, the destination of the request signal requesting
transmission of the information regarding connectable APs may be an
individual isolated STA or may be a plurality of isolated STAs.
Furthermore, the isolated STA may allow the return to the request
from the AP to include, as the information regarding other
connectable APs, the identification information such as SSIDs of
the connectable APs, the magnitude of received power, a
signal-to-noise power ratio, the implementation status of the SR
communication or the UL MU communication, and the like (the same as
above).
[0111] Then, when receiving the information regarding connectable
APs from the subordinate isolated STA, the AP determines whether or
not to connect the isolated STA to another AP.
[0112] FIG. 6 illustrates a processing procedure for determining
whether or not the AP connects the subordinate isolated STA to
another AP in the form of flowchart.
[0113] When receiving the information regarding other connectable
APs from the subordinate isolated STA (step S601), the AP
determines whether or not an AP to which the isolated STA is
connectable is present and whether or not to connect the isolated
STA to the connectable AP (step S602).
[0114] In a case where another AP to which the subordinate isolated
STA is connectable is present in step S602, the AP determines
whether or not to connect the STA to another connectable AP on the
basis of any one of or a combination of the information regarding
connectable APs received from the isolated STA, whether or not an
AP to which another isolated STA is connectable is present,
information regarding implementation status of the SR communication
or the UL MU communication in the connectable AP, and the number of
isolated STAs with respect to the entire subordinate STAs.
[0115] In a case where the AP determines to connect the subordinate
isolated STA to another connectable AP (Yes in step S602), the AP
generates parameter information set as a reward for the connectable
AP for the acceptance of connection of the isolated STA (step
S603).
[0116] The parameter information set as a reward for the
connectable AP is, for example, one of or a combination of a
contention windows (CW) size, an arbitration inter frame space
(AIFS), a transmission opportunity (TXOP), and a signal detection
threshold value. The AP may determine a value of the parameter
information with which the another AP can more easily obtain a
communication opportunity according to the degree of wishing the
another AP to accept the subordinate isolated STA. For example, in
a case where the communication quality of the isolated STA in the
AP's own BSS is extremely low, and efficient implementation of the
SR communication and the UL MU communication in the AP's own BSS is
expected by release of the isolated STA, the AP may set superior
parameter information to another AP that is wished to accept the
isolated STA.
[0117] Furthermore, in a case where a plurality of APs to which the
isolated STA is connectable is present, the AP prioritizes the
plurality of connectable APs and holds the priorities regarding the
APs to which the isolated STA is connectable (step S604).
[0118] All of APs have a list of APs (hereinafter also referred to
as "accepting APs") notifying surrounding APs that the APs can
accept STAs. A specific definition of the accepting AP will be
described later. For example, the AP refers to the AP's own
accepting AP list, and confirms whether or not an accepting AP is
present in the APs to which the subordinate isolated STA is
connectable. Here, in a case where an accepting AP is present in
the APs to which the isolated STA is connectable, the AP sets the
priority of the accepting AP to be high in step S604. The
priorities between accepting APs and between APs not accepting APs
are determined on the basis of a result of comparing the
information of implementation statuses of each of the SR
communication and the UL MU communication.
[0119] Then, when the prioritization in step S604 is completed, the
AP moves onto the operation A. Meanwhile, in a case where another
connectable AP to which the subordinate isolated STA is connectable
is not present or in a case where the AP determines not to connect
the subordinate isolated STA to another connectable AP (No in step
S602), the AP moves onto the operation B.
[0120] FIG. 7 illustrates a processing procedure of the above
operation A performed by the AP when the AP connects the
subordinate isolated STA to another AP in the form of
flowchart.
[0121] In the operation A, the AP requests the subordinate isolated
STA to be connected to the another connectable AP, and transmits
the request signal including information of parameter setting to
the another AP (step S701). For example, the AP transmits the
request signal including the parameter information set as a reward
for the another AP for accepting the AP's own isolated STA.
[0122] FIG. 9 illustrates a frame configuration of the request
signal requesting connection to another AP, which is transmitted by
the AP to the subordinate isolated STA in step S701 in the
flowchart illustrated in FIG. 7 and in the SEQ305 in the
communication sequence illustrated in FIG. 3. In a case where a
plurality of APs to which the isolated STA is connectable is
present, the AP may transmit the request signal to only APs having
a high priority, or may notify the APs to which the isolated STA is
connectable and transmit the request signal requesting connection
according to a priority order.
[0123] The frame illustrated in FIG. 9 includes a MAC header and a
frame body, and a frame check sequence (FCS) is added at the end.
The frame body includes an Element ID indicating the type of an
information element, a Length indicating the length (data size) of
the frame body, an Element ID Extension that is an extension part
of the information element, and an information part (Information).
Then, in the information part (Information) of the frame body,
information indicating another AP to which the subordinate isolated
STA is requested to connect (in other words, information indicating
a connection destination AP) and parameter information set for the
connection destination AP (in other words, parameter information
for the connection destination AP) are stored.
[0124] The information indicating a connection destination AP may
include either one of or both of an SSID and BSS color of the
connection destination AP (the SSID is an identification name of
the AP in a wireless LAN, and the BSS Color is different color
information for each BSS introduced by IEEE802.11ah).
[0125] Furthermore, the parameter information for the connection
destination AP is parameter information generated for the isolated
STA determined by the AP to change connection to another AP in step
S603 of the flowchart illustrated in FIG. 6. The AP generates the
parameter information set as a reward for the another AP for
accepting the AP's own isolated STA. The AP determines a value of
the parameter information with which the another AP can more easily
obtain a communication opportunity according to the degree of
wishing the another AP to accept the subordinate isolated STA, for
example.
[0126] FIG. 10 illustrates a processing procedure performed when
the isolated STA has received the request signal requesting
connection to another AP.
[0127] When receiving the request signal requesting connection to
another connectable AP (see FIG. 9) from the currently connected AP
(step S1001), the isolated STA executes a connection procedure to
the another AP indicated in the received request signal as the new
connection destination (step S1002).
[0128] Then, when the connection to the another AP requested to
connect to is established, the isolated STA transmits a signal
including the parameter information described in the request signal
received in step S1001 to the new connection destination AP (step
S1003).
[0129] FIG. 11 illustrates a frame configuration of the signal
transmitted by the isolated STA to the new connection destination
AP in step S1003 in the flowchart in FIG. 10 and in SEQ313 in the
communication sequence in FIG. 3. The illustrated frame includes a
MAC header and a frame body, and a frame check sequence (FCS) is
added at the end. The frame body includes an Element ID indicating
the type of an information element, a Length indicating the length
(data size) of the frame body, an Element ID Extension that is an
extension part of the information element, and an information part
(Information). Then, in the information part (Information) of the
frame body, information of parameter setting to the (new connection
destination) AP is included.
[0130] This parameter information is parameter information
generated when the original connection destination AP determines to
change connection to another AP in step S603 in the flowchart
illustrated in FIG. 6. The original connection destination AP
generates the parameter information set as a reward for the another
AP for accepting the isolated STA. For example, the original
connection destination AP determines a value of the parameter
information with which the another AP can more easily obtain a
communication opportunity according to the degree of wishing the
another AP to accept the subordinate isolated STA (described
above). The new connection destination AP may update the AP's own
parameters on the basis of the parameter information described in
the signal received from the newly connected STA.
[0131] Furthermore, FIG. 8 illustrates a processing procedure of
the above "operation B", which is performed by the AP when another
AP to which the subordinate isolated STA is connectable is not
present or the subordinate isolated STA cannot be connected to
another AP, in the form of flowchart.
[0132] In the operation B, the AP determines whether or not the AP
itself can currently accept an isolated STA of another BSS (step
S801). Then, in a case where the AP can accept the isolated STA of
another BSS (Yes in step S801), the AP notifies the surrounding APs
of a signal indicating that the AP can accept the isolated STA. On
the other hand, in a case where the AP cannot accept the isolated
STA of another BSS (No in step S801), the AP terminates the
processing without doing anything.
[0133] FIG. 12 illustrates a frame configuration of the signal
notifying the surrounding AP that the AP can accept the isolated
STA in step S802 in the flowchart in FIG. 8 and SEQ411 in the
communication sequence in FIG. 4. The illustrated frame includes a
MAC header and a frame body, and a frame check sequence (FCS) is
added at the end. The frame body includes an Element ID indicating
the type of an information element, a Length indicating the length
(data size) of the frame body, an Element ID Extension that is an
extension part of the information element, and an information part
(Information). Then, in the information part (Information) of the
frame body, information regarding the AP itself that is the
transmission source of the frame is included.
[0134] The information regarding the AP itself may include any one
of or a combination of the implementation status of the SR
information or the UL MU communication, information regarding
interference, and a traffic load of the AP. The surrounding AP can
determine whether or not the transmission source AP can accept the
isolated STA in the surrounding AP's own BSS on the basis of the
received information.
[0135] An AP that actively accepts the isolated STA in another BSS
is defined as "accepting AP" in the present specification. When
receiving the signal as illustrated in FIG. 12 from the surrounding
AP, each AP adds the signal transmission source AP to the each AP's
own accepting AP list. The information regarding the AP described
in the received signal may be described in the accepting AP
list.
[0136] Effects of the present example are as follows. In a case
where the AP performs the operation A (see FIG. 7) when requesting
the subordinate isolated STA to be connected to another AP, the AP
can effectively perform the SR communication and the UL MU
communication in the AP's own BSS by causing another BSS to accept
the isolated STA. As a result, the throughput is improved by
spatial reuse in the AP's own BSS.
[0137] Furthermore, in a case where the AP performs the operation B
(see FIG. 8) in a case of not requesting the subordinate isolated
STA to be connected to another AP, the AP can set the parameters
(the CW size, AIFS, TXOP, signal detection threshold value, and the
like) with which the AP itself gets advantaged as a reward by
accepting an isolated STA from another BSS. Thereby, the throughput
and the communication opportunity can be improved.
[0138] In addition, even from the viewpoint of an STA moving to
another BSS, the STA can easily obtain the communication
opportunity by getting out of the situation where the SR
communication and the UL MU communication cannot be performed by
being connected to another BSS.
[0139] Originally, each BSS operates in an autonomous and
distributed manner, and the operation to accept an STA of another
BSS is only disadvantageous for the BSS. In contrast, the present
example has introduced the action of setting the parameter to serve
as a reward for the AP that has accepted the isolated STA, thereby
realizing a cooperative operation between APs not connected by a
backhaul.
[0140] FIG. 13 illustrates a modification of the communication
sequence performed among the AP, the subordinate isolated STA of
the AP, and the new connection destination AP of the isolated STA
in Example 1. The illustrated communication sequence assumes that
the isolated STA is connectable to another AP (the connection
destination AP in FIG. 3).
[0141] The AP requests the subordinate STA to transmit the
information regarding the communication quality and the information
regarding the implementation status of the SR communication and the
UL MU communication (SEQ1301). In response to the request, the STA
returns the requested information to the AP (SEQ1302). Then, as a
result of the AP investigating the implementation statuses of SR
communication and UL MU communication of each subordinate STA, the
presence of an isolated STA falling outside a distribution of the
entire subordinate STAs is revealed. Since the processing for
determining the presence of the isolated STA performed by the AP is
similar to the above-described processing, detailed description is
omitted.
[0142] The AP requests the isolated STA to transmit the information
regarding other connectable APs (SEQ1303). In response to the
request, the isolated STA returns the information regarding other
connectable APs to the AP (SEQ1304). The information regarding
other connectable APs returned by the isolated STA may include the
identification information such as service set identifiers (SSID)
of the connectable APs, the magnitude of received power, the
signal-to-noise power ratio, the implementation status of the SR
communication or the UL MU communication, and the like. Then, the
AP determines whether or not to change the connection of the
isolated STA to another AP. Since the processing for determining
whether or not to connect the isolated STA to another AP performed
by the AP is similar to the above-described processing, detailed
description is omitted.
[0143] Next, the AP requests the subordinate isolated STA to be
connected to the specified another AP, and transmits a signal
including reset AP's own parameter information to the isolated STA
(SEQ1305). The AP may reset the AP's own parameter information so
that the another AP gets advantaged (or can easily obtain the
communication opportunity) as a reward for the another AP for
accepting the subordinate isolated STA.
[0144] The isolated STA requests connection to the specified
another AP (SEQ1311). Then, when receiving a reply indicating that
the isolated STA is connectable from the another AP (SEQ1312), the
isolated STA transmits a signal including the parameter information
sent from the previously connected AP to the another AP that will
be a new connection destination (SEQ1313). Here, the parameter
information received by the new connection destination AP is the
original connection destination AP's own parameter information set
in return for accepting the isolated STA. Therefore, the new
connection destination AP is expected to more easily obtain the
communication opportunity by resetting the parameter information
within the range allowed by the received parameter information.
[0145] Note that, in a case where a plurality of isolated STAs to
be determined is present, a sequence similar to the above-described
sequence is performed for each of the individual isolated STAs.
[0146] FIG. 14 illustrates another modification of the
communication sequence performed among the AP, the subordinate
isolated STA of the AP, and the connection destination AP in
Example 1. The illustrated communication sequence assumes that the
isolated STA cannot be connected to another AP (the connection
destination AP in FIG. 14) and an isolated STA of the another AP is
acceptable.
[0147] The AP requests the subordinate STA to transmit the
information regarding the communication quality and the information
regarding the implementation status of the SR communication and the
UL MU communication (SEQ1401). In response to the request, the STA
returns the requested information to the AP (SEQ1402). Then, as a
result of the AP investigating the implementation statuses of SR
communication and UL MU communication of each subordinate STA, the
presence of an isolated STA falling outside a distribution of the
entire subordinate STAs is revealed. Since the processing for
determining the presence of the isolated STA performed by the AP is
similar to the above-described processing, detailed description is
omitted.
[0148] The AP requests the isolated STA to transmit the information
regarding other connectable APs (SEQ1403). In response to the
request, the isolated STA returns the information regarding other
connectable APs to the AP (SEQ1404). The AP determines whether or
not to change the connection of the isolated STA to another AP.
Since the processing for determining whether or not to connect the
isolated STA to another AP performed by the AP is similar to the
above-described processing, detailed description is omitted. Then,
the AP determines whether or not to change the connection of the
isolated STA to another AP.
[0149] In a case where the AP determines that the subordinate
isolated STA is not connectable to another AP, the AP gives up
delivery of the isolated STA to the another AP. Furthermore, in a
case where the AP can accommodate an isolated STA connected to
another AP, the AP notifies the surrounding AP that the AP can
accept the isolated STA (SEQ1411). The AP is expected to receive
preferential treatment of setting parameters (for example, a
contention window size, an arbitration inter frame space (AIFS), a
signal detection value, and the like) as a reward from the
surrounding AP by accepting the isolated STA of another BSS even in
a case where the subordinate isolated STA cannot be accepted by the
surrounding AP.
[0150] Note that, in a case where a plurality of isolated STAs to
be determined is present, a sequence similar to the above-described
sequence is performed for each of the individual isolated STAs.
[0151] The AP basically determines whether or not to connect the
subordinate isolated STA to another AP according to the processing
procedures illustrated in FIGS. 5 and 6. Note that the AP generates
the parameter information to be set to the AP itself instead of the
parameter information to be set to the connection destination AP,
as processing corresponding to step S603. For example, the AP
generates the parameter information of the AP itself (in which the
communication opportunity of the AP itself is suppressed) so as to
reset the parameter information with which the connection
destination AP gets advantaged as a reward for accepting the
subordinate isolated STA. Then, the AP executes the operation A
when determining to connect the subordinate isolated STA to another
AP, and executes the operation B when determining not to connect
the subordinate isolated STA to another AP.
[0152] FIG. 15 illustrates a processing procedure of the "operation
A" performed by the AP when the AP connects the subordinate
isolated STA to another AP according to the modification of the
communication sequence illustrated in FIG. 13 in the form of
flowchart.
[0153] The AP requests the subordinate isolated STA to be connected
to another connectable AP, and transmits the request signal
including the AP's own parameter information reset when connection
is changed to the another AP (step S1501). This parameter
information includes a value with which the another AP gets
advantaged (or the another AP can more easily obtain the
communication opportunity) as a reward for accepting the isolated
STA.
[0154] Then, the AP resets the AP's own parameter information to
the value transmitted in step S1501 when the subordinate isolated
STA is connected to the another AP (step S1502). Thereby, the
another AP that has accepted the isolated STA is expected to easily
obtain the communication opportunity.
[0155] FIG. 17 illustrates a frame configuration of the request
signal transmitted by the AP to the subordinate isolated STA in
step S1501 in the flowchart illustrated in FIG. 15 and in the
SEQ1305 in the communication sequence illustrated in FIG. 13. The
illustrated frame includes a MAC header and a frame body, and a
frame check sequence (FCS) is added at the end. The frame body
includes an Element ID indicating the type of an information
element, a Length indicating the length (data size) of the frame
body, an Element ID Extension that is an extension part of the
information element, and an information part (Information). Then,
in the information part (Information) of the frame body,
information indicating another AP to which the subordinate isolated
STA is requested to connect, parameter information scheduled to be
set for the transmission source AP itself, and schedule information
of the SR communication and the UL MU communication in the
transmission source AP's own BSS are included.
[0156] The information indicating a connection destination AP may
include either one of or both of an SSID and BSS color of the
connection destination AP. Furthermore, the parameter information
set for the transmission source AP itself is any one of or a
combination of the CW size, AIFS, TXOP, and signal detection
threshold value set for the AP itself after the subordinate
isolated STA changes the connection to the connection destination
AP.
[0157] The parameter information set for the transmission source AP
itself and the schedule information of the SR communication and the
UL MU communication in the transmission source AP's own BSS are
AP's own parameter information and schedule set by the AP as
processing corresponding to step S603 of the flowchart illustrated
in FIG. 6. When the AP determines another AP to which the
subordinate isolated STA is connected, the AP resets the AP's own
parameter information (in which the communication opportunity is
suppressed) so that the another AP gets advantaged (or can easily
obtain the communication opportunity) as a reward for accepting the
isolated STA, and sets a schedule of performing the SR
communication and the UL MU communication in the AP'S own BSS so
that the another AP can more easily obtain the communication
opportunity.
[0158] FIG. 18 illustrates a processing procedure performed when
the isolated STA has received the request signal requesting
connection to another AP from the currently connected AP in the
form of flowchart.
[0159] When receiving the signal requesting connection to another
connectable AP from the connected AP (step S1801), the isolated STA
performs the connection procedure to the another AP (step
S1802).
[0160] Then, when the connection to the another AP requested to
connect to is established, the isolated STA transmits a signal
including the parameter information and the schedule information of
the original connection destination AP, which are described in the
signal requesting the connection, to the another AP (step
S1803).
[0161] FIG. 19 illustrates a frame configuration of the signal
transmitted by the isolated STA to the new connection destination
AP in step S1803 in the flowchart in FIG. 18 and in SEQ1313 in the
communication sequence in FIG. 13. The illustrated frame includes a
MAC header and a frame body, and a frame check sequence (FCS) is
added at the end. The frame body includes an Element ID indicating
the type of an information element, a Length indicating the length
(data size) of the frame body, an Element ID Extension that is an
extension part of the information element, and an information part
(Information). Then, in the information part (Information) of the
frame body, the parameter information of the original connection
destination AP and the schedule information of the SR communication
and the UL MU communication of the original connection destination
AP are included.
[0162] The parameter information of the original connection
destination AP is any one of or a combination of the CW size, AIFS,
TXOP, and signal detection threshold value. The parameter
information and the schedule information of the original connection
destination AP are AP's own parameter information and schedule
information set by the AP as processing corresponding to step S603
of the flowchart illustrated in FIG. 6. The original connection
destination AP resets the AP's own parameter information (in which
the communication opportunity is suppressed) so that the new
connection destination AP (in other words, the destination of the
signal illustrated in FIG. 19) gets advantaged (or can easily
obtain the communication opportunity) as a reward for the new
connection destination AP accepting the isolated STA, and further
sets a schedule of the SR communication and the UL MU communication
in the AP'S own BSS so that the new connection destination AP can
more easily obtain the communication opportunity. Therefore, the
new connection destination AP can reset the AP's own parameter
information (in which the communication opportunity is suppressed)
so as to get advantaged (or to easily obtain the communication
opportunity) within the range allowed by the parameter information
and the schedule information set for the original connection
destination AP itself, and can further set a schedule of the SR
communication and the UL MU communication in the AP's own BSS so as
to easily obtain the communication opportunity, in return for
accepting the isolated STA.
[0163] Furthermore, FIG. 16 illustrates a processing procedure of
the "operation B", which is performed by the AP when another AP to
which the subordinate isolated STA is connectable is not present or
when the AP does not connect the subordinate isolated STA to
another AP according to the modification of the communication
sequence illustrated in FIG. 14, in the form of flowchart.
[0164] The processing procedure illustrated in FIG. 16 in the
operation B is basically similar to the processing procedure
illustrated in FIG. 8. The AP determines whether or not the AP
itself can currently accept an isolated STA of another BSS (step
S1601). Then, in a case where the AP can accept the isolated STA of
another BSS (Yes in step S1601), the AP notifies the surrounding
APs of a signal indicating that the AP can accept the isolated STA
(step S1602). The frame configuration of this signal is as
illustrated in FIG. 12, for example. On the other hand, in a case
where the AP cannot accept the isolated STA of another BSS (No in
step S1601), the AP terminates the processing without doing
anything.
[0165] In a case where the AP performs the operation A (see FIG.
15) when requesting the subordinate isolated STA to be connected to
another AP, the AP can effectively perform the SR communication and
the UL MU communication in the AP's own BSS by causing another BSS
to accept the isolated STA. As a result, the throughput is improved
by spatial reuse in the AP's own BSS.
[0166] Furthermore, in a case where the AP performs the operation B
(see FIG. 16) in a case of not requesting the subordinate isolated
STA to be connected to another AP, the AP can set the parameters
(the CW size, AIFS, TXOP, signal detection threshold value, and the
like) with which the AP itself gets advantaged as a reward by
accepting an isolated STA from another BSS. Thereby, the throughput
and the communication opportunity can be improved.
[0167] In addition, even from the viewpoint of an STA moving to
another BSS, the STA can easily obtain the communication
opportunity by getting out of the situation where the SR
communication and the UL MU communication cannot be performed by
being connected to another BSS. Furthermore, unfairness of the
communication opportunities of each STA in the BSS can be
eliminated.
[0168] Originally, each BSS operates in an autonomous and
distributed manner, and the operation to accept an STA of another
BSS is only disadvantageous for the BSS. In contrast, the present
example has introduced the action of setting the parameter to serve
as a reward for the AP that has accepted the isolated STA, thereby
realizing a cooperative operation between APs not connected by a
backhaul.
[0169] FIG. 20 illustrates an operation example in a wireless
communication system to which the present example is applied. The
illustrated wireless communication system includes a BSS operated
by a base station AP1 and a BSS operated by a base station AP2. In
an initial state illustrated on the left side in FIG. 20, terminals
STA1 to STA6 are connected to the AP1, and terminals STA7 to 9 are
connected to the AP2.
[0170] The STA3 is an isolated STA of the subordinate STAs of the
AP1. Since the STA3 is also connectable to the AP2, the AP1
requests the STA3 to be connected to the AP3. Furthermore, the AP1
resets AP1's own parameter information so that the AP2 gets
advantaged (or can easily obtain a communication opportunity) as a
reward for accepting the STA3, and further sets a schedule of
performing the SR communication and the UL MU communication in an
AP1's own BSS such that the AP2 can easily obtain the communication
opportunity.
[0171] As illustrated on the right side in FIG. 20, the AP1 becomes
able to effectively perform the SR communication and the UL MU
communication in the AP1's own BSS by causing the surrounding AP2
to accept the STA3 isolated under the control of the AP1. As a
result, the throughput is improved by spatial reuse in the AP1's
own BSS.
[0172] On the other hand, the operation to accept the STA3 from the
BSS of the AP1 is originally only disadvantageous for an AP2's own
BSS. However, the AP1 sets the parameters such that the AP2 gets
advantaged (or can easily obtain the communication opportunity) as
a reward to the AP2 for accepting the isolated STA3. Therefore, the
BSS on the AP2 side can also obtain the benefit.
Example 2
[0173] FIG. 21 illustrates a communication sequence example
performed among an AP, a subordinate isolated STA of the AP, and a
new connection destination AP of the isolated STA in Example 2. The
illustrated communication sequence assumes that the isolated STA is
connectable to another AP (the connection destination AP in FIG.
21).
[0174] The AP requests the subordinate STA to transmit information
regarding communication quality and information regarding an
implementation status of SR communication or UL MU communication
(SEQ2101). In response to the request, the STA returns the
requested information to the AP (SEQ2102). Then, as a result of the
AP investigating the implementation statuses of SR communication
and UL MU communication of each subordinate STA, the presence of an
isolated STA falling outside a distribution of the entire
subordinate STAs is revealed.
[0175] The AP requests the isolated STA to transmit information
regarding other connectable APs (SEQ2103). In response to the
request, the isolated STA returns the information regarding other
connectable APs to the AP (SEQ2104). The information regarding
other connectable APs returned by the isolated STA may include
identification information such as SSIDs of the connectable APs,
the magnitude of received power, a signal-to-noise power ratio, the
implementation status of SR communication or UL MU communication,
and the like (the same as above).
[0176] The AP determines whether or not to change connection of the
isolated STA to another AP on the basis of the information returned
by the isolated STA and the like. Then, the AP transmits an inquiry
signal inquiring whether or not the isolated STA is acceptable to
another AP determined as a new connection destination of the
isolated STA (SEQ2105). The inquiry signal includes information
regarding the subordinate isolated STA and parameter information
set for the another AP. The parameter information is set as a
reward for the another AP for accepting the isolated STA. The AP
determines a value of the parameter information with which a
communication opportunity can be more easily obtained according to
the degree of wishing the another AP to accept the subordinate
isolated STA, for example.
[0177] The another AP that has received the inquiry determines
whether or not to accept the isolated STA on the basis of
information regarding the isolated STA and the parameter
information included in the inquiry signal, information of a
traffic load held by the another AP itself, and the like. Then, the
another AP returns an answer signal indicating whether or not to
accept the isolated STA (SEQ2106). FIG. 21 illustrates a
communication sequence of the case of returning the answer signal
indicating that the another AP that has received the inquiry signal
can accept the isolated STA.
[0178] When the AP confirms that the AP to which the inquiry signal
has been sent can accept the isolated STA on the basis of the
received answer signal, the AP requests the subordinate isolated
STA to be connected to the new connection destination AP, and
transmits a request signal including information regarding an
implementation status of the SR communication or the UL MU
communication in a BSS of a new connection destination AP
(SEQ2107).
[0179] The isolated STA requests connection to the new connection
destination AP specified by the request signal (SEQ2111). Then,
when the isolated STA receives a reply indicating that the AP can
accept the isolated STA from the AP (SEQ2112), the connection to
the new connection destination AP is completed. Since the new
connection destination AP being able to accept the isolated STA has
already been confirmed, smooth implementation of connection change
of the isolated STA is expected.
[0180] Note that, in a case where a plurality of isolated STAs to
be determined is present, a sequence similar to the above-described
sequence is performed for each of the individual isolated STAs.
[0181] FIG. 22 illustrates another communication sequence example
performed among the AP, the subordinate isolated STA of the AP, and
the connection destination AP in Example 2. The illustrated
communication sequence assumes that the isolated STA cannot be
connected to another AP (the connection destination AP in FIG. 22)
and an isolated STA of the another AP is acceptable.
[0182] The AP requests the subordinate STA to transmit the
information regarding the communication quality and the information
regarding the implementation status of the SR communication and the
UL MU communication (SEQ2201). In response to the request, the STA
returns the requested information to the AP (SEQ2202). Then, as a
result of the AP investigating the implementation statuses of SR
communication and UL MU communication of each subordinate STA, the
presence of an isolated STA falling outside a distribution of the
entire subordinate STAs is revealed.
[0183] The AP requests the isolated STA to transmit the information
regarding other connectable APs (SEQ2203). In response to the
request, the isolated STA returns the information regarding other
connectable APs to the AP (SEQ2204). The information regarding
other connectable APs returned by the isolated STA may include the
identification information such as SSIDs of the connectable APs,
the magnitude of received power, a signal-to-noise power ratio, the
implementation status of SR communication or UL MU communication,
and the like (the same as above). Then, the AP determines whether
or not to change the connection of the isolated STA to another
AP.
[0184] In a case where the AP determines that the subordinate
isolated STA is not connectable to another AP, the AP gives up
delivery of the isolated STA to the another AP. Furthermore, in a
case where the AP can accommodate an isolated STA connected to
another AP, the AP notifies the surrounding AP that the AP can
accept the isolated STA (SEQ2211). The AP is expected to receive
preferential treatment of setting parameters (for example, a
contention window size, an arbitration inter frame space (AIFS), a
signal detection value, and the like) as a reward from the
surrounding AP by accepting the isolated STA of another BSS even in
a case where the subordinate isolated STA cannot be accepted by the
surrounding AP.
[0185] Note that, in a case where a plurality of isolated STAs to
be determined is present, a sequence similar to the above-described
sequence is performed for each of the individual isolated STAs.
[0186] Since the AP basically determines whether or not to connect
the subordinate isolated STA to another AP according to the
processing procedures illustrated in FIGS. 5 and 6, detailed
description is omitted here. Then, even in Example 2, the AP
executes the operation A when determining to connect the
subordinate isolated STA to another AP, and executes the operation
B when determining not to connect the subordinate isolated STA to
another AP.
[0187] FIG. 23 illustrates a processing procedure of the "operation
A" performed by the AP when the AP connects the subordinate
isolated STA to another AP in Example 2 in the form of
flowchart.
[0188] The AP transmits an inquiry signal inquiring whether or not
the isolated STA is acceptable to another AP determined as a new
connection destination of the isolated STA (step S2301).
[0189] Then, in a case where connection of the isolated STA is
permitted by the new connection destination AP of the isolated STA
(Yes in step S2302), the AP requests the subordinate isolated STA
to be connected to the new connection destination AP, and transmits
a signal including information regarding an implementation status
of the SR connection destination and the UL MU communication in a
BSS of the new connection destination AP (step S2303). In a case
where a plurality of APs to which the isolated STA is connectable
is present, the AP transmits the request signal to the isolated STA
in a descending order.
[0190] On the other hand, in a case where the new connection
destination AP does not permit the acceptance of the isolated STA
(No in step S2302), the AP checks whether or not an AP to which the
isolated STA is connectable is further present (step S2304).
[0191] In a case where an AP to which the isolated STA is
connectable is further present (Yes in step S2304), the processing
returns to step S2301, and transmission of an inquiry signal
similar to the above inquiry signal is repeatedly performed for the
another AP. Furthermore, in a case where an AP that can accept the
isolated STA is no longer present (No in step S2304), the AP gives
up changing the connection destination of the subordinate isolated
STA and performs the operation B.
[0192] Furthermore, FIG. 24 illustrates a processing procedure of
the operation B performed by the AP when the AP does not change the
connection destination of the subordinate isolated STA in Example 2
in the form of flowchart.
[0193] The AP determines whether or not the AP itself can currently
accept an isolated STA of another BSS (step S2401). Then, in a case
where the AP can accept the isolated STA of another BSS (Yes in
step S2401), the AP notifies the surrounding APs of a signal
indicating that the AP can accept the isolated STA (step S2402). On
the other hand, in a case where the AP cannot accept the isolated
STA of another BSS (No in step S2401), the AP terminates the
processing without doing anything.
[0194] FIG. 25 illustrates a frame configuration of the signal
inquiring, by the AP, of another AP whether or not the isolated STA
is acceptable in step S2301 in the flowchart in FIG. 23 and SEQ2105
in the communication sequence in FIG. 21. The illustrated frame
includes a MAC header and a frame body, and a frame check sequence
(FCS) is added at the end. The frame body includes an Element ID
indicating the type of an information element, a Length indicating
the length (data size) of the frame body, an Element ID Extension
that is an extension part of the information element, and an
information part (Information). Then, the information part
(Information) of the frame body includes information for inquiring
whether or not an isolated STA is acceptable.
[0195] The number of isolated STAs is a parameter representing the
number of STAs determined as isolated STAs under the control of an
inquiry source AP. The another AP that has received the signal can
determine whether or not there is a possibility of performing, by
the inquiry source AP, the SR communication and the UL MU
communication by referring to the parameter.
[0196] Then, following the number of isolated STAs, status
information regarding the individual isolated STAs follows. The
status information regarding the isolated STA is any one of or a
combination of an Associate ID (AID) of the isolated STA, a Partial
AID, current RSSI and SINR of the isolated STA, the number of other
connectable APs of the isolated STA, an implementation status of
the SR communication or the MU communication of the BSS to which
the isolated STA belongs, a reason for being determined as an
isolated STA.
[0197] One signal inquiring whether or not the isolated STA is
acceptable may inquire whether or not a plurality of isolated STAs
is acceptable at the same time. In this case, as illustrated in
FIG. 25, the status information regarding the isolated STA is added
by the number of the isolated STAs to be inquired.
[0198] The parameter information for the inquiry destination AP is
parameter information (CW size, AIFS, TXOP, signal detection
threshold value, and the like) generated for the isolated STA
determined by the AP to change connection to another AP in step
S603 of the flowchart illustrated in FIG. 6, similarly to Example
1. The AP generates the parameter information set as a reward for
the inquiry destination AP for accepting the AP's own isolated STA.
The AP determines a value of the parameter information with which
the inquiry destination AP can more easily obtain a communication
opportunity according to the degree of wishing the another AP to
accept the subordinate isolated STA, for example. Furthermore, the
inquiry destination AP sets or updates the inquiry destination AP's
own parameters on the basis of the parameter information herein
described in a case of accepting the isolated STA.
[0199] FIG. 26 illustrates a procedure for processing an inquiry
signal inquiring whether or not an isolated STA is acceptable,
which is received by the AP from another AP, in the form of
flowchart.
[0200] When receiving the signal inquiring whether or not an
isolated STA is acceptable from a surrounding AP (step S2601), the
AP determines whether or not to accept the isolated STA (step
S2602). The AP determines, for example, whether or not to accept
the isolated STA on the basis of the status information of the
isolated STA such as the number of isolated STAs, the
implementation status of the SR communication and the UL MU
communication, and the reason of being determined as the isolated
STA, which is described in the received inquiry signal, further,
information of a traffic load held by the AP itself, and the
like.
[0201] In a case where the AP accepts the inquired isolated STA
(Yes in step S2602), the AP returns an answer signal indicating
that the AP accepts the isolated STA to the inquiry source AP (step
S2603), and sets or updates the AP's own parameters on the basis of
the parameter information described in the inquiry signal (step
S2604).
[0202] On the other hand, in a case where the AP does not accept
the inquired isolated STA (No in step S2602), the AP returns an
answer signal indicating that the AP does not accept the isolated
STA to the inquiry source AP (step S2605) and terminates the
present processing.
[0203] FIG. 27 illustrates a frame configuration of the answer
signal answered by the AP to the inquiry signal about acceptance of
the isolated STA from the surrounding AP in step S2603 or S2605 in
the flowchart illustrated in FIG. 26 and SEQ2106 in the
communication sequence illustrated in FIG. 21. The illustrated
frame includes a MAC header and a frame body, and a frame check
sequence (FCS) is added at the end. The frame body includes an
Element ID indicating the type of an information element, a Length
indicating the length (data size) of the frame body, an Element ID
Extension that is an extension part of the information element, and
an information part (Information). Then, in the information part
(Information) of the frame body, information indicating the answer
to the inquiry about acceptance of the isolated STA (in other
words, whether or not to accept the isolated STA) and information
indicating a state of a BSS to which the AP belongs.
[0204] The information indicating whether or not to accept the
isolated STA is a 1-bit flag indicating whether or not to accept.
The information indicating the state of the BSS to which the AP
belongs includes the information of the implementation status of
the SR communication and the UL MU communication in the AP's own
BSS, the information of the traffic load, the number of STAs
determined as isolated STAs, and the like. In a case where the AP
accepts the isolated STA from the surrounding AP, the AP adds the
information indicating the state of the AP's own BSS into the
answer signal.
[0205] When the isolated STA belongs to the BSS of the AP that has
permitted acceptance, the isolated STA can change the isolated
STA's own parameters such as a signal detection value, maximum
transmission power, and a communication mode on the basis of the
information indicating the state of the BSS added to the answer
signal. As a result, the isolated STA can be promptly set to an
appropriate state for performing communication in the BSS of the
new connection destination.
[0206] When receiving the answer signal indicating that the inquiry
destination AP does not accept the isolated STA from the inquiry
destination AP, the inquiry source AP can update the AP's own
accepting AP list and update the priority of APs to which the
isolated STA is connectable on the basis of the information
indicating the state of the BSS added to the answer signal. As a
result, the AP can more efficiently change the connection
destination of the isolated STA.
[0207] Furthermore, in a case of receiving the answer signal
indicating that the inquiry destination AP accepts the isolated STA
from the inquiry destination AP, the inquiry source AP requests the
subordinate isolated STA to be connected to the new connection
destination AP, and transmits a signal including information
regarding an implementation status of the SR communication and the
UL MU communication in a BSS of the new connection destination AP
(which is processing corresponding to step S2303 in the flowchart
illustrated in FIG. 23).
[0208] FIG. 28 illustrates a frame configuration of the request
signal requesting, by the AP, the subordinate isolated STA to be
connected to a new connection destination AP in step S2303 in the
flowchart illustrated in FIG. 23 and in the SEQ2107 in the
communication sequence illustrated in FIG. 21. The illustrated
frame includes a MAC header and a frame body, and a frame check
sequence (FCS) is added at the end. The frame body includes an
Element ID indicating the type of an information element, a Length
indicating the length (data size) of the frame body, an Element ID
Extension that is an extension part of the information element, and
an information part (Information). Then, in the information part
(Information) of the frame body, information regarding the new
connection destination AP and the information of the implementation
status of the SR communication and the UL MU communication in the
BSS of the new connection destination AP are included.
[0209] The information regarding the new connection destination AP
may include either one of or both of an SSID and BSS color of the
new connection destination AP. Furthermore, as the information of
the implementation status of the SR communication and the UL MU
communication in the BSS of the new connection destination AP,
information based on the information indicating the state of the
BSS to which the AP belongs, which is included in the answer
signal, is described. By notifying the information of the
implementation status of the SR communication and the UL MU
communication in the BSS of the new connection destination AP, the
isolated STA can be promptly set to an appropriate state for
performing communication in the new connection destination BSS.
[0210] In a case where a plurality of APs to which the isolated STA
is connectable is present, the original connection destination AP
transmits the request signal to the isolated STA in a descending
order. Meanwhile, in a case where AP to which the isolated STA is
connectable is not present (in a case of No in step S2304 in the
flowchart illustrated in FIG. 23), the AP moves onto the operation
B.
[0211] In a case where the AP performs the operation A in a case of
requesting the subordinate isolated STA to be connected to another
AP, the AP can effectively perform the SR communication and the UL
MU communication by causing another BSS to accept the isolated STA.
As a result, the throughput is improved by spatial reuse in the
AP's own BSS.
[0212] Furthermore, in a case where the AP performs the operation B
in a case of not requesting the subordinate isolated STA to be
connected to another AP, the AP can set the parameters (the CW
size, AIFS, TXOP, signal detection threshold value, and the like)
with which the AP itself gets advantaged as a reward by accepting
an isolated STA from another BSS. Thereby, the throughput and the
communication opportunity can be improved.
[0213] In addition, even from the viewpoint of an STA moving to
another BSS, the STA can easily obtain the communication
opportunity by getting out of the situation where the SR
communication and the UL MU communication cannot be performed by
being connected to another BSS. Furthermore, unfairness of the
communication opportunities of each STA in the BSS can be
eliminated.
[0214] Originally, each BSS operates in an autonomous and
distributed manner, and the operation to accept an STA of another
BSS is only disadvantageous for the BSS. In contrast, the present
example has introduced the action of setting the parameter to serve
as a reward for the AP that has accepted the isolated STA, thereby
realizing a cooperative operation between APs not connected by a
backhaul.
[0215] FIG. 29 illustrates a modification of the communication
sequence performed among the AP, the subordinate isolated STA of
the AP, and the new connection destination AP of the isolated STA
in Example 2. The illustrated communication sequence assumes that
the isolated STA is connectable to another AP (the connection
destination AP in FIG. 29).
[0216] The AP requests the subordinate STA to transmit the
information regarding the communication quality and the information
regarding the implementation status of the SR communication and the
UL MU communication (SEQ2901). In response to the request, the STA
returns the requested information to the AP (SEQ2902). Then, as a
result of the AP investigating the implementation statuses of SR
communication and UL MU communication of each subordinate STA, the
presence of an isolated STA falling outside a distribution of the
entire subordinate STAs is revealed.
[0217] The AP requests the isolated STA to transmit the information
regarding other connectable APs (SEQ2903). In response to the
request, the isolated STA returns the information regarding other
connectable APs to the AP (SEQ2904). The information regarding
other connectable APs returned by the isolated STA may include the
identification information such as SSIDs of the connectable APs,
the magnitude of received power, a signal-to-noise power ratio, the
implementation status of SR communication or UL MU communication,
and the like (the same as above).
[0218] The AP determines whether or not to change connection of the
isolated STA to another AP on the basis of the information returned
by the isolated STA and the like. Then, the AP transmits a signal
inquiring whether or not the isolated STA is acceptable to another
AP determined as a new connection destination of the isolated STA
(SEQ2905). In a case where the another AP that has received the
inquiry can accept the isolated STA, the another AP returns an
answer signal indicating availability of acceptance (SEQ2906).
[0219] This inquiry signal includes the parameter information for
the inquiry destination AP and the information regarding the
isolated STA. The parameter information for the inquiry destination
AP is set as a reward for the inquiry destination AP for accepting
the isolated STA. The AP determines a value of the parameter
information with which the inquiry destination AP can more easily
obtain a communication opportunity according to the degree of
wishing the another AP to accept the subordinate isolated STA, for
example. Furthermore, the information regarding the isolated STA is
any one of or a combination of an AID of the isolated STA, a
Partial AID, current RSSI and SINR of the isolated STA, the number
of other connectable APs of the isolated STA, an implementation
status of the SR communication or the MU communication of the BSS
to which the isolated STA belongs, a reason for being determined as
an isolated STA.
[0220] Alternatively, the inquiry signal includes parameter
information set by the transmission source AP itself of the signal,
schedule information for performing the SR communication and the UL
MU communication in the AP's own BSS, and the information regarding
the isolated STA. The parameter information set by the transmission
source AP itself and the schedule information for performing the SR
communication and the UL MU communication in the AP's own BSS are
set as a reward for the inquiry destination AP for accepting the
isolated STA. The AP determines values of the parameter information
and schedule information with which the inquiry destination AP can
more easily obtain a communication opportunity according to the
degree of wishing the another AP to accept the subordinate isolated
STA, for example.
[0221] Furthermore, the AP that can accept the isolated STA
transmits a signal requesting the isolated STA to be connected to
the AP itself as the new connection destination (SEQ2911).
[0222] Note that, in a case where a plurality of isolated STAs to
be determined is present, a sequence similar to the above-described
sequence is performed for each of the individual isolated STAs.
[0223] FIG. 30 illustrates another modification of the
communication sequence performed among the AP, the subordinate
isolated STA of the AP, and the connection destination AP in
Example 2. The illustrated communication sequence assumes that the
isolated STA cannot be connected to another AP (the connection
destination AP in FIG. 30) and an isolated STA of the another AP is
acceptable.
[0224] The AP requests the subordinate STA to transmit the
information regarding the communication quality and the information
regarding the implementation status of the SR communication and the
UL MU communication (SEQ3001). In response to the request, the STA
returns the requested information to the AP (SEQ3002). Then, as a
result of the AP investigating the implementation statuses of SR
communication and UL MU communication of each subordinate STA, the
presence of an isolated STA falling outside a distribution of the
entire subordinate STAs is revealed.
[0225] The AP requests the isolated STA to transmit the information
regarding other connectable APs (SEQ3003). In response to the
request, the isolated STA returns the information regarding other
connectable APs to the AP (SEQ3004). The information regarding
other connectable APs returned by the isolated STA may include the
identification information such as SSIDs of the connectable APs,
the magnitude of received power, a signal-to-noise power ratio, the
implementation status of SR communication or UL MU communication,
and the like (the same as above). Then, the AP determines whether
or not to change the connection of the isolated STA to another
AP.
[0226] In a case where the AP determines that the subordinate
isolated STA is not connectable to another AP, the AP gives up
delivery of the isolated STA to the another AP. Furthermore, in a
case where the AP can accommodate an isolated STA connected to
another AP, the AP notifies the surrounding AP that the AP can
accept the isolated STA (SEQ3011). The AP is expected to receive
preferential treatment of setting parameters (for example, a
contention window size, an arbitration inter frame space (AIFS), a
signal detection value, and the like) as a reward from the
surrounding AP by accepting the isolated STA of another BSS even in
a case where the subordinate isolated STA cannot be accepted by the
surrounding AP.
[0227] Note that, in a case where a plurality of isolated STAs to
be determined is present, a sequence similar to the above-described
sequence is performed for each of the individual isolated STAs.
[0228] Since the AP basically determines whether or not to connect
the subordinate isolated STA to another AP according to the
processing procedures illustrated in FIGS. 5 and 6, detailed
description is omitted here. Then, even in the modification of
Example 2, the AP executes the operation A when determining to
connect the subordinate isolated STA to another AP, and executes
the operation B when determining not to connect the subordinate
isolated STA to another AP.
[0229] FIG. 31 illustrates a processing procedure of the "operation
A" performed by the AP when the AP connects the subordinate
isolated STA to another AP in the modification of Example 2 in the
form of flowchart.
[0230] The AP transmits an inquiry signal inquiring whether or not
the isolated STA is acceptable to another AP determined as a new
connection destination of the isolated STA (step S3101).
[0231] Here, in a case where connection of the isolated STA is
permitted by the new connection destination AP of the isolated STA
(Yes in step S3102), the AP terminates the present processing.
Hereinafter, the isolated STA is requested to connect to by the new
connection destination AP, and new connection is performed.
[0232] On the other hand, in a case where the new connection
destination AP does not permit the acceptance of the isolated STA
(No in step S3102), the AP checks whether or not an AP to which the
isolated STA is connectable is further present (step S3103).
[0233] In a case where an AP to which the isolated STA is
connectable is further present (Yes in step S3103), the processing
returns to step S3101, and an inquiry similar to the above inquiry
is repeatedly performed for the another AP. Furthermore, in a case
where an AP that can accept the isolated STA is no longer present
(No in step S3103), the AP gives up changing the connection
destination of the subordinate isolated STA and performs the
operation B.
[0234] Furthermore, FIG. 32 illustrates a processing procedure of
the "operation B", which is performed by the AP when another AP to
which the subordinate isolated STA is connectable is not present or
when the AP does not connect the subordinate isolated STA to
another AP in a modification of Example 2, in the form of
flowchart.
[0235] The AP determines whether or not the AP itself can currently
accept an isolated STA of another BSS (step S3201). Then, in a case
where the AP can accept the isolated STA of another BSS (Yes in
step S3201), the AP notifies the surrounding APs of a signal
indicating that the AP can accept the isolated STA (step S3202). On
the other hand, in a case where the AP cannot accept the isolated
STA of another BSS (No in step S3201), the AP terminates the
processing without doing anything.
[0236] FIG. 33 illustrates a frame configuration of the signal
inquiring, by the AP, of another AP whether or not the isolated STA
is acceptable in step S3201 in the flowchart in FIG. 32 and SEQ2905
in the communication sequence in FIG. 29. The illustrated frame
includes a MAC header and a frame body, and a frame check sequence
(FCS) is added at the end. The frame body includes an Element ID
indicating the type of an information element, a Length indicating
the length (data size) of the frame body, an Element ID Extension
that is an extension part of the information element, and an
information part (Information). Then, the information part
(Information) of the frame body includes information for inquiring
whether or not an isolated STA is acceptable.
[0237] The parameter information for the inquiry destination AP is
parameter information (CW size, AIFS, TXOP, signal detection
threshold value, and the like) set as a reward for the inquiry
destination AP in step S603 in the flowchart illustrated in FIG. 6,
similarly to Example 1. The AP generates the parameter information
set as a reward for the inquiry destination AP for accepting the
AP's own isolated STA. The AP determines a value of the parameter
information with which the inquiry destination AP can more easily
obtain a communication opportunity according to the degree of
wishing the another AP to accept the subordinate isolated STA, for
example. Furthermore, the inquiry destination AP sets or updates
the inquiry destination AP's own parameters on the basis of the
parameter information herein described in a case of accepting the
isolated STA.
[0238] Furthermore, parameter information scheduled to set by the
transmission source AP and the schedule information for performing
the SR communication and the UL MU communication in the
transmission source AP's own BSS may be described in the signal
instead of the parameter information for the inquiry destination
AP. The parameter information set by the transmission source AP
itself and the schedule information for performing the SR
communication and the UL MU communication in the AP's own BSS are
set as a reward for the inquiry destination AP for accepting the
isolated STA. The AP determines values of the parameter information
and schedule information with which the inquiry destination AP can
more easily obtain a communication opportunity according to the
degree of wishing the another AP to accept the subordinate isolated
STA, for example. Furthermore, the inquiry destination AP sets or
updates the inquiry destination AP's own parameters on the basis of
the parameter information herein described in a case of accepting
the isolated STA.
[0239] Furthermore, status information regarding the isolated STA
is any one of or a combination of an AID, a Partial AID, current
RSSI and SINR of the appropriate isolated STA, the number of
appropriate other connectable APs of the appropriate isolated STA,
an implementation status of the SR communication or the MU
communication of the BSS to which the appropriate isolated STA
belongs, a reason for being determined as an isolated STA.
[0240] FIG. 34 illustrates a procedure for processing a signal
inquiring whether or not an isolated STA is acceptable, which is
received by the AP from another AP, in the form of flowchart.
[0241] When receiving the signal inquiring whether or not an
isolated STA is acceptable from another AP (step S3401), the AP
determines whether or not to accept the isolated STA (step S3402).
The AP determines whether or not to accept the isolated STA on the
basis of, for example, parameter information for the connection
destination AP (or AP's own parameter information scheduled to set
by the transmission source AP and the schedule information for
performing the SR communication and the UL MU communication in the
transmission source AP's own BSS), the status information regarding
the isolated STA, and the like.
[0242] In a case where the AP accepts the inquired isolated STA
(Yes in step S3402), the AP returns an answer signal indicating
that the AP accepts the isolated STA to the inquiry source AP (step
S3403), and then transmits a signal requesting the isolated STA to
be connected to the AP itself (step S3404). Thereafter, the AP sets
or updates the AP's own parameters on the basis of the parameter
information described in the signal inquiring acceptance of the
isolated STA.
[0243] On the other hand, in a case where the AP does not accept
the inquired isolated STA (No in step S3402), the AP returns an
answer signal indicating that the AP does not accept the isolated
STA to the inquiry source AP (step S3405) and terminates the
present processing.
[0244] The isolated STA that has received the signal requesting
connection from the new connection destination AP in step S3404,
the isolated STA performs connection change to the new connection
destination AP according to a processing procedure similar to the
procedure illustrated in FIG. 10, for example.
[0245] The modifications illustrated in FIGS. 29 and 30 have an
effect that the isolated STA does not need to perform signaling
regarding parameter setting, as compared with Example 2 illustrated
in FIGS. 21 and 22. Furthermore, even in a case of a legacy
terminal in which the technology disclosed in the present
specification is not applied to the isolated STA, the new
connection destination AP transmits an Association signal to the
isolated STA immediately after the original connection destination
AP transmits a Disassociation signal to the isolated STA, whereby
the connection change of the isolated STA can be implemented.
INDUSTRIAL APPLICABILITY
[0246] The technology disclosed in the present specification has
been described in detail with reference to the specific
embodiments. However, it is obvious that those skilled in the art
can make modifications and substitutions of the embodiments without
departing from the gist of the technology disclosed in the present
specification.
[0247] The technology disclosed in the present specification can be
favorably applied to a wireless network environment in which a
plurality of BSSs is present, and APs are not connected by a
backhaul or the like. In particular, in a case of using the
technology of the SR communication and the MU communication in each
BSS, a weakly linked isolated STA is efficiently passed between the
BSSs by applying the technology disclosed in the present
specification, whereby implementation of high-speed communication
is expected.
[0248] The technology disclosed in the present specification can be
applied to a wireless communication system that complies with, for
example, IEEE802.11ax, but of course can be similarly applied to
systems that comply with various other communication standards.
[0249] In short, the technology disclosed in the present
specification has been described in the form of examples, and the
contents of description of the present specification should not be
restrictively construed. To judge the gist of the technology
disclosed in the present specification, the scope of claims should
be taken into consideration.
Note that the technology disclosed in the present specification may
have the following configurations.
[0250] (1) A communication device that operates as a base station,
the communication device including:
a determination unit configured to determine a communication status
in a BSS of the communication device; and a control unit configured
to control transmission and reception of a signal regarding
connection change of a terminal to and from a surrounding base
station according to a determination result by the determination
unit.
[0251] (2) The communication device according to (1), in which
the control unit controls transmission of a request signal
requesting a subordinate terminal to be connected to the
surrounding base station.
[0252] (3) The communication device according to (2), in which
the determination unit determines presence of a small number of
terminals each having a first parameter falling outside a
distribution of entire subordinate terminals, the first parameter
representing an index of communication quality of the terminal, and
the control unit controls transmission of the request signal
requesting the small number of terminals to be connected to the
surrounding base station.
[0253] (3-1) The communication device according to (3), in
which
the determination unit determines an implementation status of
spatial reuse communication or multi user communication of the
subordinate terminal as the first parameter. (4) The communication
device according to (2) or (3), in which the control unit controls
transmission of the request signal including a second parameter
regarding communication after the subordinate terminal changes
connection to the surrounding base station.
[0254] (4-1) The communication device according to (4), in
which
the control unit includes, as the second parameter, information
regarding a communication resource set to a control unit's own base
station after the subordinate terminal changes the connection to
the surrounding base station, or information regarding a
communication resource allowed to the surrounding base station, in
the request signal.
[0255] (4-2) The communication device according to (4-1), in
which
the information regarding a communication resource as the second
parameter includes any one of or a combination of a contention
windows size, an AIFS, and a signal detection threshold value in
the control unit's own base station or the surrounding base
station.
[0256] (4-3) The communication device according to any one of (4-1)
or (4-2), in which
the information regarding a communication resource set to the
control unit's own base station described in the request signal
includes information regarding an implementation schedule of
spatial reuse communication device or multi user communication
device in the BSS of the communication device.
[0257] (4-4) The communication device according to any one of (4)
to (4-3), in which
the control unit determines the second parameter on the basis of
information of the first parameter.
[0258] (5) The communication device according to (1), in which
the control unit controls transmission of an inquiry signal
inquiring of the surrounding base station availability of
acceptance of a subordinate terminal.
[0259] (6) The communication device according to (5), in which
the determination unit determines presence of a small number of
terminals each having a first parameter falling outside a
distribution of entire subordinate terminals, the first parameter
representing an index of communication quality of the terminal, and
the control unit controls transmission of the inquiry signal
inquiring of the surrounding base station availability of
acceptance of the small number of terminals.
[0260] (6-1) The communication device according to (6), in
which
the determination unit determines an implementation status of
spatial reuse communication or multi user communication of the
subordinate terminal as the first parameter.
[0261] (7) The communication device according to any one of (5) or
(6), in which
the control unit controls transmission of the inquiry signal
including information regarding the number of subordinate terminals
for which connection is to be changed and a communication status of
each terminal, or the inquiry signal including information
regarding a specific terminal that the surrounding base station is
requested to accept.
[0262] (8) The communication device according to any one of (5) to
(7), in which
the control unit controls transmission of the inquiry signal
including a second parameter regarding communication after the
subordinate terminal changes connection to the surrounding base
station.
[0263] (8-1) The communication device according to (8), in
which
the control unit includes, as the second parameter, information
regarding a communication resource set to a control unit's own base
station after the subordinate terminal changes the connection to
the surrounding base station, or information regarding a
communication resource allowed to the surrounding base station, in
the inquiry signal.
[0264] (8-2) The communication device according to (8-1), in
which
the information regarding the communication resource as the second
parameter includes any one of or a combination of a contention
windows size, an AIFS, and a signal detection threshold value in
the control unit's own base station or the surrounding base
station.
[0265] (-3) The communication device according to any one of (8-1)
or (8-2), in which
the information regarding a communication resource set to the
control unit's own base station described in the inquiry signal
includes information regarding an implementation schedule of
spatial reuse communication device or multi user communication
device in the BSS of the communication device.
[0266] (8-4) The communication device according to any one of (8)
to (8-3), in which
the control unit determines the second parameter on the basis of
information of the first parameter.
[0267] (9) The communication device according to any one of (5) to
(8), in which,
when the control unit receives an answer signal indicating
acceptance of a subordinate terminal from the surrounding base
station, the control unit controls transmission of a request signal
requesting the subordinate terminal to be connected to the
surrounding base station.
[0268] (10) The communication device according to (9), in which
the control unit controls transmission of the request signal
including information regarding a communication status in a BSS of
the surrounding base station added to the answer signal.
[0269] (11) The communication device according to (1), in
which,
when the control unit connects a subordinate terminal of a
surrounding base station to a control unit's own base station, the
control unit sets a communication parameter of the control unit's
own base station on the basis of a second parameter included in the
signal received from either the terminal or the surrounding base
station.
[0270] (11-1) The communication device according to (11), in
which
the control unit sets a communication parameter of the control
unit's own base station on the basis of information regarding a
communication resource set for the surrounding base station by the
surrounding base station or information regarding a communication
resource allowed to the control unit's own base station by the
surrounding base station, the information being received from
either the terminal or the surrounding base station when the
control unit connects a subordinate terminal of the surrounding
base station to the control unit's own base station, and included
as the second parameter.
[0271] (11-2) The communication device according to any one of (11)
or (11-1), in which
the control unit sets, as the communication parameter of the
control unit's own base station, any one of or a combination of a
contention windows size, AIFS, and a signal detection threshold
value, or an implementation schedule of spatial reuse communication
or multi user communication in the BSS of the communication
device.
[0272] (12) The communication device according to (1), in which
the control unit controls, in response to reception of an inquiry
signal inquiring availability of acceptance of a subordinate
terminal of a surrounding base station from the surrounding base
station, transmission of an answer signal answering the
availability of acceptance of a subordinate terminal of the
surrounding base station.
[0273] (13) The communication device according to (12), in
which
the control unit determines the availability of acceptance of a
subordinate terminal of the surrounding base station on the basis
of information regarding a second parameter regarding communication
after connecting the terminal added to the inquiry signal, or a
traffic load in a control unit's own base station.
[0274] (13-1) The communication device according to (13), in which
the control unit determines the availability of acceptance of a
subordinate terminal of the surrounding base station on the basis
of information regarding a communication resource allowed to the
control unit's own base station after connecting the terminal
inquired to accept to the control unit's own base station, or
information regarding a communication resource set to the
surrounding base station by the surrounding base station, as the
second parameter.
[0275] (14) The communication device according to (12) or (13), in
which
the control unit controls transmission of the answer signal
including information regarding a communication status in a BSS of
a control unit's own base station.
[0276] (15) The communication device according to any one of (12)
or (13), in which,
when the control unit accepts the subordinate terminal of the
surrounding base station, the control unit attempts connection with
the terminal.
[0277] (16) A communication method for operating as a base station,
the communication method including:
a determination step of determining a communication status in a BSS
of the base station; and a control step of controlling transmission
and reception of a signal regarding connection change of a terminal
to and from a surrounding base station according to a determination
result by the determination step.
[0278] (17) A communication device that operates as a terminal
under control of a base station, the communication device
including:
a transmission and reception unit configured to transmit and
receive a signal; and a control unit configured to control
connection with a base station on the basis of a request signal
requesting connection to another base station received from a
connection destination base station.
[0279] (18) The communication device according to (17), in
which
the control unit controls transmission of a second parameter
regarding communication after connection is changed to the another
base station, the second parameter being included in the request
signal to the another base station after the connection is
established.
[0280] (18-1) The communication device according to (18), in
which
the control unit controls transmission of information as the second
parameter to the another base station after the connection is
established, the information being regarding a communication
resource set to an original connection destination base station
after connection is changed to the another base station or being
regarding a communication resource allowed to the another base
station.
[0281] (18-2) The communication device according to (18-1), in
which
the information regarding the communication resource as the second
parameter includes any one of or a combination of a contention
windows size, an AIFS, and a signal detection threshold value in an
original connection destination or the another base station.
[0282] (18-3) The communication device according to any one of (17)
or (18), in which
the control unit sets a communication parameter of the control
unit's own base station in a BSS of the another base station on the
basis of information regarding an implementation status of
communication in the BSS of the another base station described in
the request signal, after connection is changed to the another base
station.
[0283] (19) The communication device according to any one of (17)
or (18), in which
the control unit controls transmission of information regarding an
implementation schedule of spatial reuse communication or multi
user communication in a BSS of the original connection destination
base station after connection is changed to the another base
station, the information being included in the request signal to
the another base station after the connection is established.
[0284] (20) A communication method for operating as a terminal
under control of a base station, the communication method
including:
a reception step of receiving a request signal requesting
connection to another base station received from a connection
destination base station; and a control step of controlling
connection with a base station on the basis of the request
signal.
REFERENCE SIGNS LIST
[0285] 200 Communication device [0286] 201 Data processing unit
[0287] 202 Control unit [0288] 203 Communication unit [0289] 204
Power supply unit [0290] 211 Modulation and demodulation unit
[0291] 212 Spatial signal processing unit [0292] 213 Channel
estimation unit [0293] 214 Wireless interface unit [0294] 215
Amplification unit [0295] 216 Antenna
* * * * *