JP2009147950A - Communication apparatus and communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve user friendliness. <P>SOLUTION: Improvement of the user friendliness comprises: determining an notification pattern for determining the notification pattern in accordance with a communication status; and performing control in a state where notification means provided in a communication subject and a communication partner are synchronized, in order to notify the communication status according to the determined notification pattern, wherein, to users of the communication subject and the communication partner, a relation between the communication subject and the communication partner can be obtained just like a wired communication path, and the communication status can be easily obtained. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a communication apparatus and a communication system, and is suitable, for example, when communicating using a wireless local area network (LAN).

  In recent years, in communication systems, modules compliant with short-range wireless systems such as wireless LAN and Bluetooth (registered trademark) communication are mounted on various electronic devices such as mobile phones and PDAs (Personal Digital Assistants), and the same or different types of electronic devices. It is becoming possible to communicate between each other.

  In this communication system, for example, when a wireless communication path (wireless network) is established with a PDA that is a nearby communication partner using a mobile phone that is a communication subject, a plurality of PDAs other than the PDA of the communication partner are established in the wireless network environment. May exist, the user who possesses the mobile phone may not be able to grasp the PDA of the communication partner among a plurality of PDAs existing in the wireless network environment.

As one method for solving such a situation, by flashing the display unit of the communication partner PDA via a control signal transmitted at a predetermined timing from the communication-oriented mobile phone, the communication partner PDA is indicated to the user. A communication system designed to be grasped has been proposed (see, for example, Patent Document 1).
Japanese Patent Application 2001-325703

  However, in such a communication system, although the user who owns the communication-oriented mobile phone can grasp the PDA of the communication partner, the user who possesses the PDA of the communication partner cannot grasp it, and it is still easy to use. The problem of being bad remains.

  Further, in this communication system, even when the display unit of the mobile phone can be flashed on the PDA of the communication partner, the mobile phone of the communication subject and the PDA of the communication partner are flashing apart. Therefore, users of mobile phones or PDAs cannot grasp each other's communication status with the other party, such as whether connection is being made or data is being transmitted. There was a problem of being bad.

  The present invention has been made in consideration of the above points, and intends to propose a communication device and a communication system that can improve usability.

In order to solve such a problem, the present invention is a communication device that communicates with another communication device by a predetermined wireless communication method, and determines a notification pattern according to a communication state with the other communication device. In accordance with the notification pattern determined by the determination means , the notification pattern determination means , the notification means for notifying the communication state, the notification pattern information indicating the notification pattern determined by the notification pattern determination means, and the notification means should start the notification Transmission means for transmitting notification timing information representing timing to another communication device.

As a result, in this communication device, since the notification means in the other communication device can be notified with the same notification pattern and notification timing as the own notification means, it is as if there is a wired communication path between the other communication devices. And the communication state can be easily grasped.

The present invention is a communication system which communicate device and another communication device communicates by wireless communication method, communication apparatus, notifying the pattern determining means for determining a notification pattern according to the state of communication with other communication devices When, in accordance with notification pattern determined by the notification pattern determination means, and notification means for notifying the communication state, the notification pattern information representing a notification pattern determined by the notification pattern determination means, timing notifying means should start notification Transmitting means for transmitting notification timing information representing the communication pattern to other communication devices, and the other communication devices include receiving means for receiving notification pattern information and notification timing information transmitted from the communication devices, and receiving means includes: Notification means for notifying in accordance with the received notification pattern information and timing information is provided.

As a result, in this communication system, it is possible for the users of the communication partner and the communication partner to grasp the communication partner as if it were a wired communication path and easily grasp the communication state. Can be made.

  As described above, according to the present invention, the notification pattern is determined according to the communication state, and the notification means provided in the communication subject and the communication partner are synchronized in order to notify the communication state according to the determined notification pattern. By controlling in the state, the communication main body and the other party of the communication partner can be grasped as if it is a wired communication path between the communication main body and the communication partner. The state can be easily grasped, and thus the usability can be improved.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

(1) Configuration of Communication System 1 In FIG. 1, reference numeral 1 denotes a communication system according to the present embodiment, which includes a mobile phone 2 and a mobile phone 3 that incorporate a wireless LAN module.

  The cellular phone 2 functions as a communication subject that is a source of establishment of a wireless communication path (wireless network). A range in which a wireless communication path can be established by a wireless LAN module built in the mobile phone 2 (hereinafter referred to as a communication range) AR1 includes a wireless LAN module in addition to the mobile phone 3 that is a communication partner. There are a PDA 4, a personal computer 5, and a mobile phone 6.

  Under such an environment, the mobile phone 2 and the mobile phone 3 activate the wireless LAN modules in a state of being close to each other, and perform predetermined authentication processing via the wireless LAN module to establish a wireless communication path. Establish.

  In this case, the cellular phone 2 and the cellular phone 3 are configured to mutually perform authentication processing in a communication range AR2 smaller than the original communication range AR1 by lowering the output in the wireless LAN module.

  Therefore, the cellular phone 2 and the cellular phone 3 avoid the establishment of a wireless communication path between the PDA 4, the personal computer 5, and the cellular phone 6 that are not communication partners existing in the communication range AR1. It has been made so that it can.

  When the mobile phone 2 and the mobile phone 3 establish a wireless communication channel, the mobile phone 2 and the mobile phone 3 can exchange various information within the original communication range AR1 (FIG. 1) by raising the output of the wireless LAN module.

  In the communication system 1, the light emitting units 2A and 3A are synchronized according to the light emission pattern according to the communication state between the mobile phone 2 and the mobile phone 3 from the start of establishment of the wireless communication path to the disconnection. It is made to emit light in the state.

  Therefore, in this communication system 1, it is possible to make the mutual users who have the cellular phone 2 or the cellular phone 3 know the communication state, and the communication range AR1 where the PDA 4, the personal computer 5 and the cellular phone 6 exist is concerned. Even when the user who owns the device moves, it is possible to let each user know the location of the mobile phone 2 or the mobile phone 3.

(2) Regarding the cellular phone 2 (2-1) Configuration of the cellular phone 2 As shown in FIG. 2, the cellular phone 2 is connected to the control unit 10 that performs overall control of the device via the bus 11 and the storage memory 12. The operation unit 13, the display unit 14, the transmission / reception unit 15, the wireless LAN module 16, and the light emitting unit 2A are connected to each other.

  The transmitter / receiver 15 is connected to a microphone 17 and a speaker 18, and the storage memory 12 stores various information such as various programs and personal data.

  The control unit 10 is configured to execute a process according to an operation from the operation unit 13 based on various programs stored in the storage memory 12, and appropriately displays the processing result on the display unit 14. The light emitting unit 2A emits light appropriately according to the processing result.

  Here, when a predetermined call operation is performed via the operation unit 13, the control unit 10 controls the transmission / reception unit 15 based on a program corresponding to the operation and executes a call process.

  That is, the transmission / reception unit 15 transmits a call signal to, for example, the mobile phone 6 (FIG. 1) sequentially through an antenna and a base station (not shown). The transmitter / receiver 15 receives the call signal transmitted from the mobile phone 6 via the base station and the antenna in order, amplifies and demodulates the signal, and outputs the resulting audio signal via the speaker 18.

  On the other hand, the transmission / reception unit 15 modulates and amplifies the audio signal input from the microphone 17, and transmits the call signal obtained as a result to the mobile phone 6 via the antenna and the base station in order.

  In this way, the control unit 10 controls the transmission / reception unit 15 to execute a call process, so that a user who has the mobile phone 2 and a user who has the mobile phone 6 can make a call. ing.

  Further, when an operation for starting the wireless LAN module is performed via the operation unit 13, the control unit 10 controls the wireless LAN module 16 based on a program corresponding to the operation and executes wireless communication processing.

  In this case, the control unit 10 first operates by turning on the power of the wireless LAN module 16, and then performs predetermined authentication with the mobile phone 3 existing in the communication range AR2 via the wireless LAN module 16. A wireless communication path is established by performing processing.

  In this state, the control unit 10 performs control for remotely operating the mobile phone 3 when a remote operation on the mobile phone 3 or an information transmission operation for transmitting information to the mobile phone 3 is performed via the operation unit 13. Data or personal data read from the storage memory 12 is transmitted as a transmission signal to the mobile phone 3 existing in the communication range AR1 through the wireless LAN module 16.

  In addition, when a communication path disconnecting operation for disconnecting the established wireless communication path is performed via the operation unit 13, the control unit 10 disconnects the wireless communication path by performing a predetermined disconnection process with the mobile phone 3. Thereafter, the power supply to the wireless LAN module 16 is stopped.

  In this way, the control unit 10 controls the wireless LAN module 16 to execute wireless communication processing, thereby establishing or disconnecting a wireless communication path with the mobile phone 3, or establishing a wireless communication path. Information can be transmitted to the telephone 3.

  In addition to such a configuration, the control unit 10 also controls the light emitting units 2A and 3A (FIG. 1) at the time of executing the wireless communication process, according to the light emission pattern according to the communication state with the mobile phone 3. Synchronous light emission processing for causing the light emitting units 2A and 3A to emit light in a synchronized state is executed.

(2-2) Synchronous light emission process of control unit 10 Here, when the contents of the synchronous light emission process in the control unit 10 are functionally classified, as shown in FIG. 3, the light emission pattern determination unit 21 and the synchronous light emission control unit 22 And can be divided into

  The light emission pattern determination unit 21 recognizes a communication state with the mobile phone 3 based on data acquired from the mobile phone 3 via the wireless LAN module 16 and a command from the operation unit 13.

  Specifically, the light emission pattern determination unit 21 is a communication state with the mobile phone 3, a state from the start to the completion of establishment of a wireless communication path (hereinafter referred to as a communication path establishment state), A state in which the established wireless communication path is maintained (hereinafter referred to as a communication path maintenance state), a state from the start of transmission of information in the communication path maintenance state to a completion (hereinafter referred to as an information transmission state) ) And a state from the start of disconnection of the established wireless communication path to completion (hereinafter referred to as a communication path disconnecting state).

  And the light emission pattern determination part 21 determines the light emission pattern of the light emission parts 2A and 3A set beforehand according to the recognition result of this communication state.

  Specifically, as shown in FIG. 4, the light emission pattern determination unit 21 recognizes a transition to a communication path establishment state (FIG. 4A) or a communication path disconnection state (FIG. 4B). Determines the first light emission pattern for causing the light emitting units 2A and 3A to emit light according to a period of 0.7 [seconds].

  Actually, the first light emission pattern is not a pattern in which the light emitting units 2A and 3A blink to emit light (hereinafter referred to as blinking light emission), but the degree of light emission brightness in the light emitting units 2A and 3A. (Hereinafter referred to as lightness) is expressed in 100 [%], the lightness of 100 [%] and the lightness of 30 [%] are alternately emitted with a period of 0.7 [second], respectively. It is set as a pattern.

  Therefore, when the light emitting units 2A and 3A are caused to emit light according to the first light emission pattern, the cellular phone 2 and the light emitting units 2A and 3A have a smaller difference in brightness than the case where the light emitting units 2A and 3A are caused to blink. It is possible to avoid a situation in which a brain disorder such as epilepsy is caused by mutual users possessing 3 and to reduce fatigue of the eyes of the users viewing the light emitting portions 2A and 3A. .

  In addition, when the light emission pattern determination unit 21 recognizes the transition to the communication path maintenance state (FIG. 4A or FIG. 4B), the lightness of the light emission units 2A and 3A is maintained at 30 [%]. A second light emission pattern that continues to emit light in the state is determined.

  Therefore, when the light emission units 2A and 3A emit light by switching from the first light emission pattern to the second light emission pattern by the transition from the communication path establishment state to the communication path maintenance state (FIG. 4A) or the communication path When the light emitting units 2A and 3A emit light by switching from the second light emitting pattern to the first light emitting pattern due to the transition from the maintenance state to the communication path disconnecting state (FIG. 4B), communication is interrupted. It is possible to avoid the illusion that the light emitting units 2A and 3A have disappeared from being caused to the user even for a moment.

  Further, as shown in FIG. 4C, the light emission pattern determination unit 21 maintains the lightness of the light emission units 2A and 3A at 100 [%] only during the information transmission when the transition to the information transmission state is recognized. A third light emission pattern that continues to emit light in the state is determined. Therefore, when the light emitting units 2A and 3A are caused to emit light according to the third light emission pattern, it is visually confirmed whether or not information transmission is normally performed to the users who possess the cellular phones 2 and 3. It is made to be able to.

  In the case of this embodiment, the light emission pattern determination unit 21 is configured to recognize a change in the communication path maintenance state by monitoring the radio wave intensity in the wireless LAN module 16, and according to the radio wave intensity state, The light emission patterns of the light emitting units 2A and 3A set in advance are determined.

  Specifically, the light emission pattern determination unit 21 has confirmed that a radio wave intensity equal to or higher than a minimum radio wave intensity at which communication is not interrupted (hereinafter referred to as a threshold intensity) has been continued for a predetermined period. Upon recognition, as shown in FIG. 5 (A), instead of the second light emission pattern (FIG. 4 (A) or FIG. 4 (B)), the light emitting part is illuminated with a brightness of 100 [%] at a period of 10 [seconds]. The 4th light emission pattern which light-emits 2A and 3A is determined.

  In this case, when the light emitting units 2A and 3A emit light according to a state in which the lightness is maintained at 30 [%], light is emitted at a lightness of 100 [%] in a cycle of 10 [seconds]. Therefore, when the light emitting units 2A and 3A are caused to emit light according to the fourth light emission pattern, it is possible to prevent the light emitting units 2A and 3A from always putting the user's consciousness as much as possible. .

  On the other hand, when the light emission pattern determination unit 21 recognizes the radio wave intensity lower than the threshold intensity, as shown in FIG. 5B, the second light emission pattern (FIG. 4A or FIG. 4B). ) Or the fourth light emission pattern (FIG. 5A), the fifth light emission pattern for causing the light emitting portions 2A and 3A to emit light with a brightness of 100 [%] in a cycle of 3 [seconds] is determined.

  In this case, when the light emitting units 2A and 3A emit light according to the state where the lightness is maintained at 30 [%], light is emitted with the lightness of 100 [%] in a cycle of 3 [seconds]. Therefore, when the light emitting units 2A and 3A are caused to emit light according to the fifth light emission pattern, the light emitting units 2A and 3A are made aware of the user and communication is interrupted via the light emitting units 2A and 3A. It is made so that it can be urged and the subsequent countermeasures can be encouraged.

  In this way, the light emission pattern determination unit 21 appropriately determines the first to fifth light emission patterns set in advance according to the communication state with the mobile phone 3, and uses the determination result as the light emission pattern determination data D1. To the synchronous light emission control unit 22.

  The synchronized light emission control unit 22 is configured to emit light in a state in which the light emitting unit 2A of the mobile phone 2 and the light emitting unit 3A of the mobile phone 3 are synchronized based on the light emission pattern determination data D1.

  Specifically, for example, when the light emission pattern determination data D1 represents the first light emission pattern, the synchronous light emission control unit 22 starts light emission in accordance with the first light emission pattern 0.5 seconds after reception. Data D <b> 2 is generated and broadcasted via the wireless LAN module 16.

  Then, the synchronous light emission control unit 22 receives the light emission control data D2 via the wireless LAN module 16, and controls the light emission unit 2A to emit light based on the light emission control data D2, thereby 0.5 second after the second. The light emitting unit 2A emits light according to the light emission pattern 1 (FIG. 4A).

  In this case, the mobile phone 3 that has received the light emission control data D2 is also controlled for light emission based on the light emission control data D2, and the first time is approximately the same as the light emission of the light emitting unit 2A (after 0.5 [seconds]). The light emitting unit 3A (FIG. 1) emits light according to the light emission pattern. As a result, the first light emission pattern emits light according to the synchronized state via the light emitting units 2A and 3A.

  In this way, the synchronized light emission control unit 22 can emit light in a state where the light emitting unit 2A of the mobile phone 2 and the light emitting unit 3A of the mobile phone 3 are synchronized.

(2-3) Synchronous light emission processing procedure Here, the synchronous light emission processing of the control unit 10 (the light emission pattern determining unit 21 and the synchronous light emission control unit 22) is performed according to the synchronous light emission processing procedure RT1 shown in FIG. Is called.

  That is, when an operation for starting the wireless LAN module is performed via the operation unit 13, the control unit 10 starts the synchronous light emission processing procedure RT1 in step SP0, and then proceeds to step SP1.

  Then, the control unit 10 determines the first light emission pattern in this step SP1, and generates light emission control data D2 based on the determined first light emission pattern in the subsequent step SP2, which is transmitted via the wireless LAN module 16. After the broadcast transmission, the process proceeds to the next step SP3.

  Here, the control unit 10 determines whether or not the light emission control data D2 transmitted by itself is received in step SP3, and when the light emission control data D2 is received, the light emission control data D2 is received in the subsequent step SP4. Based on the above, the light emission part 2A is controlled to emit light to emit light according to the first light emission pattern (FIG. 4A), this light emission state is maintained, and the process proceeds to the subsequent step SP5.

  In this case, the communication partner mobile phone 3 receives the light emission control data D2 broadcast from the mobile phone 2 and controls the light emission based on the light emission control data D2. The light emitting portion 3A (FIG. 1) emits light according to the light emission pattern (FIG. 4A).

  And the control part 10 determines whether the communication state changed in step SP5, and when changing to the said communication state, by performing the process similar to the above-mentioned step SP1-step SP4 in subsequent step SP6 Of the second to fifth light emission patterns (FIG. 4 or FIG. 5), the light emitting units 2A and 3A are caused to emit light in accordance with the light emission pattern corresponding to the determined communication state, and this light emission state is maintained. Then, the process proceeds to step SP7.

  Next, the control unit 10 determines whether or not the wireless communication path with the mobile phone 4 has been disconnected in this step SP7. If a negative result is obtained here, the control unit 10 returns to step SP5 and described above. When a positive result is obtained, the process proceeds to the next step SP8, and the synchronous light emission processing procedure RT1 is terminated.

  In this way, the control unit 10 is configured to execute a series of synchronous light emission processes.

(3) Regarding the cellular phone 3 (3-1) Configuration of the cellular phone 3 The cellular phone 3 has substantially the same configuration as the cellular phone 2, but the processing content in the control unit 30 (FIG. 2) is the same as that of the cellular phone 2. Only the control unit 30 of the mobile phone 3 will be described because it is different.

  The control unit 30 of the mobile phone 3 is configured to execute a process according to an operation from the operation unit 13 based on various programs stored in the storage memory 12, and the processing result is displayed on the display unit 14. While displaying appropriately, the light emitting unit 3A emits light appropriately according to the processing result.

  In this case, the control unit 30 executes communication processing and wireless communication processing in the same manner as the mobile phone 2, for example. Further, the control unit 30 acquires the light emission control data D2 transmitted from the mobile phone 2 through the wireless LAN module 16 (FIG. 2) when performing the wireless communication process, and based on the acquired light emission control data D2, the light emitting unit. The light emission processing for emitting light 3A (FIG. 2) can also be executed.

(3-2) Light emission process of control unit 30 If the contents of the light emission process in this control unit 30 are functionally classified, they can be divided into an information acquisition unit 31 and a light emission control unit 32 as shown in FIG. .

  The information acquisition unit 31 acquires the light emission control data D2 transmitted from the mobile phone 2 by receiving it via the wireless LAN module 16 (FIG. 2), and sends the acquired light emission control data D2 to the light emission control unit 32. Send it out.

  The light emission control unit 32 controls the light emission unit 3A to emit light based on the light emission control data D2, thereby causing the light emission unit 3A to emit light according to the first light emission pattern, for example, after 0.5 [seconds].

  In this case, the mobile phone 2 that has received the light emission control data D2 is also controlled for light emission based on the light emission control data D2, and the first time is approximately the same as the light emission of the light emitting unit 3A (after 0.5 [seconds]). The light emitting unit 2A (FIG. 1) emits light according to the light emission pattern. As a result, the first light emission pattern emits light according to the synchronized state via the light emitting units 2A and 3A.

(3-3) Light emission processing procedure Here, the light emission processing of the control unit 30 (the information acquisition unit 31 and the light emission control unit 32) described above is performed by software processing according to the synchronous light emission processing procedure RT2 shown in FIG.

  That is, for example, when an operation for starting the wireless LAN module is performed via the operation unit 13, the control unit 30 starts the light emission processing procedure RT2 in step SP10, and then proceeds to step SP11.

  Then, the control unit 30 determines whether or not the light emission control data D2 transmitted from the mobile phone 2 is received in step SP11, and when the light emission control data D2 is received, the light emission control data is received in the subsequent step SP12. By controlling the light emission of the light emitting unit 3A based on D2, for example, light is emitted according to the first light emission pattern (FIG. 4A), this light emission state is maintained, and the process proceeds to subsequent step SP13.

  In this case, the mobile telephone 2 that is the communication subject receives the light emission control data D2 transmitted by itself, and the light emission is controlled based on the light emission control data D2, and the first light emission pattern ( According to FIG. 4 (A)), the light emitting section 2A (FIG. 1) emits light.

  The control unit 30 determines whether or not the wireless communication path with the mobile phone 2 has been disconnected in step SP13. If a negative result is obtained here, the control unit 30 returns to step SP11 and returns to the above-described case. When the process is repeated and an affirmative result is obtained, the process proceeds to the next step SP14 and the light emission processing procedure RT2 is terminated.

  In this way, the control unit 30 is configured to execute a series of light emission processes.

(4) Operation and Effect In the above configuration, the mobile phone 2 in the communication system 1 is in a communication state (communication channel establishment state, communication channel maintenance state, information transmission state, communication channel disconnection state, and radio wave strength state). Accordingly, one of the first to fifth light emission patterns is determined, and the light emitting unit 2A of the own device and the light emitting unit 3A of the mobile phone 3 are caused to emit light in accordance with the determined light emission pattern.

  Therefore, in this communication system 1, it is as if the cellular phone 2 and the cellular phone 3 are connected with each other to the users of the cellular phone 2 and the cellular phone 3 through the light emitted by the synchronized light emission pattern. It can be grasped by guiding it like a wired communication path.

  In this case, the cellular phone 2 causes the light emitting units 2A and 3A to emit light in a synchronized state in accordance with the first to fifth light emission patterns having different light emission periods depending on the communication state. It is also possible for the users of the mobile phone 2 and the mobile phone 3 to easily grasp the communication state via the light emitted from the mobile phone.

  Further, the cellular phone 2 emits light of 100 [%] and 30 [%] alternately and appropriately at predetermined intervals without causing the light emitting units 2A and 3A to flash and emit light. Compared with the case where flashing light emission is performed, a situation in which a brain disorder such as epilepsy is caused between the users holding the mobile phones 2 and 3 can be avoided by a smaller amount of brightness, and the light emitting unit 2A And fatigue of the eyes of the user viewing 3A can be reduced.

  According to the above configuration, the first to fifth light emission patterns are determined according to the communication state, and the light emitting unit 2A of the mobile phone 2 and the light emitting unit 3A of the mobile phone 3 are synchronized according to the determined light emission pattern. By emitting light in a state, the users of the mobile phones 2 and 3 can grasp the space between the mobile phone 2 and the mobile phone 3 as if they were wired communication paths. Therefore, the communication state can be easily grasped, and thus the usability can be improved.

(5) Other Embodiments In the above-described embodiments, the case where the light emitting unit 2A is applied as the notification means for notifying the communication state has been described. However, the present invention is not limited to this, and for example, a display unit Various other notification means such as a speaker, a vibrator, or an odor generating unit that generates an odor can be applied.

  In this case, the existing notification means may be shared as a notification means for notifying the communication state, a dedicated notification means for notifying the communication state may be provided, or two or more of the same or different kinds of notifications may be provided. A means may be used in combination.

  In the above-described embodiment, the case where the light emitting units 2A and 3A having the shape shown in FIG. 1 are provided at the positions shown in FIG. 1 as notification means for notifying the communication state has been described. The invention is not limited to this, and other light emitting portions having various shapes may be provided at various other positions.

  Furthermore, in the above-described embodiment, the communication pattern (communication channel establishment state, communication channel maintenance state, information transmission state, communication channel disconnection) is used as the notification pattern determination unit that determines the notification pattern of the notification unit according to the communication state. When the light emission pattern determining unit 21 that determines the first to fifth light emission patterns (FIG. 4 or FIG. 5) having different light emission periods of the light emitting units 2A and 3A according to the state and the radio wave intensity state is applied. As described above, the present invention is not limited to this, and the light emission cycle of the first to fifth light emission patterns (FIG. 4 or FIG. 5) is changed or the third light emission pattern and the fourth light emission pattern are changed in the information transmission state. And the fifth light emission pattern, for example, the radio wave intensity state is divided into a good level, a medium level and a low level, and the light emission patterns having different light emission periods depending on the level state Etc. that determining, in response to various other communication state can be applied to the light emitting pattern determination unit for determining the various other light emitting patterns.

  Further, in this case, the first to fifth light emission patterns (FIG. 4 or FIG. 5) for alternately emitting light of 100 [%] and lightness of 30 [%] in a predetermined cycle are set. For example, a color may be added when emitting light of 100 [%] (or 30 [%]). In short, the first lightness and the second lightness smaller than the first lightness Any pattern may be used as long as the light is alternately emitted.

  Furthermore, in this case, the second lightness is selected to be 30%. However, for example, avoiding a situation that causes brain damage, or a lightness that reduces eye fatigue, including a balance with color, etc. In short, it is only necessary that the brightness is selected as smooth brightness for the user.

  Further, in the above-described embodiment, as a control means for controlling the light emitting units 2A and 3A in a synchronized state according to the light emission pattern, light emission is started according to the predetermined light emission pattern 0.5 seconds after reception. Although the case where the light emitting units 2A and 3A are caused to emit light in synchronization with each other based on the light emission control data D2 to be performed has been described, the present invention is not limited thereto, and is based on the light emission control data designating the time stamp. You may make it light-emit according to the state which synchronized light-emitting part 2A and 3A.

  In this case, both the mobile phones 2 and 3 described the case where the light emitting unit 2A is made to emit light according to a predetermined light emission pattern after a predetermined time has elapsed after receiving the broadcast transmission light control data D2. In addition to this, considering the time from when the mobile phone 2 transmits the broadcast to when the mobile phone 3 receives it, the light emitting unit 2A is made to emit light after delaying only that time. Also good. In this case, the light emission units 2A and 3A can be made to emit light according to a synchronized state.

  Further, in the above-described embodiment, the wireless LAN modules are activated while the mobile phone 2 and the mobile phone 3 are close to each other, and predetermined authentication processing is performed mutually with the output of the wireless LAN module lowered. However, the present invention is not limited to this, and instead of this, the cellular phone 2 and the cellular phone 3 are close to each other and are different from the wireless LAN module. For example, authentication processing may be performed mutually by a short-range wireless method such as an electromagnetic induction method, or may be performed mutually by an infrared method.

  Furthermore, in the above-described embodiment, the case where the mobile phone 2 and the mobile phone 3 communicate with each other via a wireless LAN has been described. However, the present invention is not limited to this, and Bluetooth communication, Home RF, wireless 1394, IEEE ( (Institude of Electrical and Electronics Engineers) 802.11b Wi-Fi, IEEE802.11a, and other various wireless communication schemes may be used for communication. In this case, if the mobile phone 2 and the mobile phone 3 are provided with a module corresponding to the wireless communication method instead of the wireless LAN module 16 (FIG. 2), the same effect as the above-described embodiment can be obtained. it can.

  In this case, the mobile phone 2 and the mobile phone 3 are applied as communication devices. However, the present invention is not limited to this, and for example, a PDA, an information repeater, a personal computer, a refrigerator, a microwave oven, a cooler, headphones, a watch, Various other electronic devices having a module corresponding to a wireless communication method such as a lighting fixture can be widely applied as a communication device.

  In addition, although communication is performed between the mobile phone 2 as the communication subject and the mobile phone 3 as the communication partner, the communication is not limited thereto, and communication is performed between the mobile phone 2 and a plurality of electronic devices. May be. Even in this case, the same effect as the above-described embodiment can be obtained.

  Furthermore, although the communication system 1 configured by the mobile phone 2 and the mobile phone 3 is applied, the communication system 1 is applied to a communication system (so-called home network system) configured by various home appliances instead of the communication system 1. You may do it. In this case, since it is possible to provide the residents with assistance in a space that is easy to live in, the usability can be further improved.

It is a basic diagram which shows the whole structure of a communication system. It is a block diagram which shows the structure of a mobile telephone. It is a functional block diagram which shows the process (1) of a control part. It is a basic diagram which shows a light emission pattern (1). It is a basic diagram which shows a light emission pattern (2). It is a flowchart which shows a synchronous light emission processing procedure. It is a functional block diagram which shows the process (2) of a control part. It is a flowchart which shows the light emission processing procedure.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Communication system 2, 3, 6 ... Mobile phone, 2A, 3A ... Light emission part, 10, 30 ... Control part, 16 ... Wireless LAN module, 21 ... Light emission pattern determination part, 22 ... Synchronous light emission control unit.

Claims (12)

A communication device that communicates with other communication devices by a predetermined wireless communication method,
Notification pattern determining means for determining a notification pattern according to a communication state with another communication device ;
According notification pattern determined by the notification pattern determining means, and notifying means for notifying the communication state,
A communication apparatus comprising: notification pattern information representing a notification pattern determined by the notification pattern determination means; and transmission means for transmitting notification timing information representing a timing at which the notification means should start notification to the other communication apparatus. The communication device according to claim 1, wherein the notification timing information is information for notifying the notification unit of the other communication device a predetermined time later than the notification by the notification unit of the communication device. The communication device according to claim 1, wherein the notification timing information is information for notifying the other communication device notification means at the same timing as the communication device in consideration of a communication delay time with the other communication device. The notification pattern determination means is
The communication apparatus according to claim 1, 2 or 3, wherein a notification pattern related to a state in which a communication path is to be established with the communication partner is determined according to the state. The notification pattern determination means is
The communication apparatus according to claim 1, 2 or 3, wherein a notification pattern related to a state in which establishment of a communication path with the communication partner is maintained is determined according to the state. The notification pattern determination means is
The communication apparatus according to claim 1, 2, or 3, wherein a notification pattern related to a state in which information is transmitted to the communication partner is determined according to the state. The notification pattern determination means is
The communication device according to claim 1, 2, or 3, wherein a notification pattern related to a state in which the communication path is to be disconnected is determined according to the state. The notification pattern determination means is
The communication apparatus according to claim 5 or 6, wherein when the establishment of the communication path is maintained, a notification pattern related to a state of radio wave intensity is further determined . The notification means is a light emitting means or a vibrating means,
The communication apparatus according to claim 1 , wherein the notification pattern has a light emission period or a vibration period that differs depending on each state. The notification means is a light emitting means,
The communication apparatus according to claim 1 , wherein the notification pattern emits light with different emission colors according to each state . The light emitting week period,
10. The communication device according to claim 8 , wherein the communication device has a cycle in which the first brightness and the second brightness that is smaller than the first brightness and brighter than the extinguishing light are alternately emitted. Communication device and another communication device is a communication system for communicating with a wireless communication system,
Above Symbol communication device,
Notification pattern determining means for determining a notification pattern according to a communication state with another communication device ;
According notification pattern determined by the notification pattern determining means, and notifying means for notifying the upper Symbol communications state,
Sending means for sending notice pattern information representing the notice pattern determined by the notice pattern determining means, and notice timing information representing the timing at which the notice means should start the notice to the other communication device;
Have
The other communication device is
Receiving means for receiving notification pattern information and notification timing information transmitted from the communication device;
A communication system comprising: notification means for notifying according to notification pattern information and timing information received by the receiving means .

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