KR101212928B1 - Device and method for establishing connections and controlling application via physical contact between devices - Google Patents

Abstract

The present invention relates to a method for controlling a wireless network connection of a device, a method for controlling an application program of the device, and a device for performing the corresponding control regarding the creation / release of a wireless network connection with another device when an impact is applied between the devices. The network connection control method, the application control method for performing the corresponding control regarding the setting / execution of the application when an impact is applied between the devices, the wireless network connection control function and the application control function using the device impact It is to provide a device provided.

Description

Method for controlling wireless network connection and application program using device shock and its device {DEVICE AND METHOD FOR ESTABLISHING CONNECTIONS AND CONTROLLING APPLICATION VIA PHYSICAL CONTACT BETWEEN DEVICES}

The present invention relates to a method for controlling a wireless network connection of a device, a method for controlling an application program of the device, and more particularly, to a corresponding control regarding the creation / release of a wireless network connection with another device when an impact is applied between the devices. Wireless network connection control method for performing the method, and application control method for performing the corresponding control regarding the setting / execution of the application program when the impact between the device, and wireless network connection control function and application using the device impact A device with a program control function is provided.

For example, the present invention impacts the device [eg; Direct control of the device, period of device oscillation, hitting the table on which the device is placed, contact between devices (hit, impact), etc., or allow the user to perform the appropriate controls on the creation / disconnection of the wireless network connection with other devices [the user To easily manipulate the interface for control, or to allow the user to easily operate the interface for controlling the application.

Recently, various kinds of wireless network technologies have been developed, and each wireless network technology uses a complicated process protocol to increase the scalability and efficiency of more functions.

For example, in the wireless network connection protocol between devices, in WPAN (Wireless Personal Area Network (Bluetooth, Zigbee, etc.)) and Wi-Fi, one device broadcasts an advertisement message (beacon signal) for network connection, and the other The device sends a response message to the advertisement message, and then creates a wireless network connection through a handshake process defined between the two devices.

On the other hand, mobile devices such as cell phones create connections by using the above-mentioned WPAN's Bluetooth or infrared communications and wired connectors.

Meanwhile, in the wireless USB, a dongle is used to create a wireless network connection between the dongle and the USB main body through a high speed broadband communication (UWB).

However, in the prior art as described above, the WPAN consists of a discovery and connection process of all devices in close proximity to the wireless network, which does not guarantee the user control and safety regarding the wireless network connection.

That is, the device may provide a control function by showing a list of all other devices that sent an advertisement message and a list of all other devices that responded to the advertisement message, but in this case, a screen or the like may be used to deliver the list to the user. A human interface device is essential and it is possible to provide a network connection function. However, this includes the operation of finding all the devices in the short distance in addition to the connection creation operation specified by the user, which is inefficient in terms of working time and energy consumption, especially in an environment in which many devices are densely packed. In addition, there is an energy dissipation factor that must be in the RF standby state in order to transmit or receive an RF to create a connection, and when the manual control is performed, inconvenience of requiring user control in every connection generation occurs.

In addition, there is a possibility of duplicated or misidentified names of discovered devices, giving users the inconvenience and security risks of identifying devices of the same name, and this prevents the user from properly controlling the wireless network connection. [Yes; BlueJacking].

In addition, although the wireless network connection information is shown to the user, the wireless network connection process is not intuitive, and only a user (an expert with knowledge and experience) who is familiar with the technical field or the corresponding connection tool can control the specific wireless network connection. I can do it.

On the other hand, the wireless network connection method between the mobile devices using the prior art as described above has the same problems as the above-mentioned WPAN, it is possible to provide a user interface, but the possibility of generating an incorrect connection due to duplication and misunderstanding of the device name Since all devices are located close to each other, the time spent for wireless network connection [device discovery] is long, so that the wireless network connection between devices is delayed and the control problem of RF function is the same.

On the other hand, in the prior art as described above, the wireless USB is a non-hoc wireless communication between the dongle and the USB main body, which is not the creation of an ad-hoc wireless network connection, but also through the generated wireless connection In order to perform the desired work, an additional wired work is required, in which the dongle is physically connected to another device.

In summary, the above-described conventional technologies do not provide an interface for non-expert users to intuitively recognize the connection settings between devices for wireless network connection, and the user does not select a device for wireless network connection. All wireless network connections are discovered and selected.

Therefore, non-expert users can easily operate the interface for wireless network connection control without knowledge and understanding of various kinds of wireless network technologies, and increase efficiency in terms of time and energy and security. There is an urgent need for technology that can improve the quality of the system.

In addition, in terms of the interface, it is difficult to guarantee the user's wireless network connection control with the existing buttons and screen-oriented interfaces due to the miniaturization of the device and the diversification of functions. Accordingly, a new interface technology different from the existing interface is urgently required. . In other words, not only an interface for wireless network connection control, but also a simple and intuitive interface technology that enables a user to easily operate an interface for control regarding setting / execution of an application program is urgently needed.

Accordingly, the present invention has been proposed to solve the above problems and to meet the above demands, and to perform a corresponding control regarding the creation / release of a wireless network connection with another device when an impact is applied between devices. The network connection control method, the application control method for performing the corresponding control regarding the setting / execution of the application when an impact is applied between the devices, the wireless network connection control function and the application control function using the device impact The purpose is to provide a device provided.

For example, the present invention impacts the device [eg; Direct control of the device, period of device oscillation, hitting the table on which the device is placed, contact between devices (hit, impact), etc., or allow the user to perform the appropriate controls on the creation / disconnection of the wireless network connection with other devices [the user Its purpose is to make it easy to manipulate the interface for control, or to allow the user to easily operate the interface for controlling the application.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention which are not mentioned can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. It will also be readily apparent that the objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.

According to a first aspect of the present invention, there is provided a method of controlling a wireless network connection of a device, the method comprising: generating a corresponding shock event when sensing a shock applied from the outside; Searching for another device having a shock event at the same time by performing transmission and reception of a discovery message between devices based on the time at which the shock event occurred; And generating a wireless network connection between the devices by performing a predetermined protocol with the corresponding device according to the search result.

In addition, in the first method of the present invention, if no other device is detected as a result of the discovery of the device, the other method may have a special relationship defined in advance with respect to the impact event occurring within a certain time from the time when the shock event occurs. Creating a wireless network connection.

In addition, the first method of the present invention, when the wireless network between the device is connected, generating a wireless network disconnection shock event when sensing a shock applied from the outside; Searching for another device having a shock event at the same time by performing transmission and reception of a discovery message between devices based on a time when the wireless network disconnection shock event occurs; And if the found device is a device already connected according to the search result, performing a predetermined protocol with the corresponding device to release the wireless network connection between the devices.

On the other hand, the second method of the present invention, a method for controlling an application program of a device, comprising the steps of: generating a corresponding shock event when sensing a shock applied from the outside while the wireless network between devices is connected; Searching for another device having a shock event at the same time by performing transmission and reception of a discovery message between devices based on the time at which the shock event occurred; And delivering the search result to an application program to execute execution of a function provided by the application program and to change a setting.

In addition, the second method of the present invention, if no other device is found as a result of the device discovery, the execution of a predefined special function for the shock event generated within a certain time from the time the shock event occurs It further comprises the step.

On the other hand, the present invention provides a computer-readable recording medium having recorded thereon a program for realizing the first method or the second method.

On the other hand, the apparatus of the present invention, a device having a short-range wireless communication function, the shock sensor for sensing an impact applied from the outside; And detecting a shock value exceeding a predetermined threshold by the shock sensor, and performing discovery message transmission and reception between devices through a short range wireless communication unit based on the time when the shock event occurs, searching for another device having a shock event at the same time. And a control for creating a wireless network connection with the device.

The apparatus of the present invention may further include a timer for counting a time at which the shock event occurs, wherein the controller transmits a discovery message to another device in searching for a device, but a counting value obtained through the timer. It is used as a shock event occurrence time to include in the search message.

The apparatus of the present invention may further include an absolute time acquisition unit for acquiring a current time, wherein the controller transmits a discovery message to another device while searching for a device, and the shock event obtained through the absolute time acquisition unit. The absolute time of occurrence is included in the search message.

The present invention as described above has the effect of making it easy to create a device-to-device wireless network connection, the device-to-device wireless network connection simply by impacting the device.

In addition, the present invention has an effect that the user (s) can easily change and execute the settings of the device application program by simply impacting the device.

In addition, the present invention provides a user with a simple and intuitive interface, such as device impact, to create a personalized application wireless network that can meet the requirements of non-professional end users through easy control, You can easily modify the application, which allows you to configure personalized applications.

1 is a configuration diagram of an embodiment of a device to which the present invention is applied.
2 is a flowchart illustrating a method for controlling a wireless network connection using a device shock according to the present invention.
3 is an exemplary view for explaining a process of searching for an impact event generating device of FIG. 2;
FIG. 4 is a diagram for explaining an embodiment of a device search error tolerance value; FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, It can be easily carried out. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

The present invention provides a method of controlling a wireless network connection using a device shock [first embodiment], which performs a corresponding control regarding the creation / release of a wireless network connection with another device when an impact is applied to the device.

On the other hand, the present invention proposes a 'application program control method using a device shock' [second embodiment] that performs the control related to the setting / execution of the application program when the device is shocked.

That is, the present invention gives a shock to the device [eg; Direct control of the device, period of device oscillation, hitting the table on which the device is placed, contact between devices (hit, impact), etc., or allow the user to perform the appropriate controls on the creation / disconnection of the wireless network connection with other devices [the user To easily manipulate the interface for control, or to allow the user to easily operate the interface for controlling the application.

For example, the present invention provides a user with a simple and intuitive interface, such as device impact, so that the user can easily control a dynamic wireless network connection creation / release control or dynamic application setup / execution control. This easy control allows users to configure personalized application wireless networks or personalized applications to meet their needs.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an embodiment of a device to which the present invention is applied.

As shown in FIG. 1, the device to which the present invention is applied includes a short range wireless communication unit [RF module] 11, a shock sensor (or vibration sensor, etc.) 12, a controller [CPU, MCU] 13, and a timer ( 14) and the like.

In the present invention, the short-range wireless communication unit 11 may be implemented by any wireless signal transmission / reception function such as Bluetooth, Wi-Fi, Zigbee, wireless USB, and the like, and an impact sensor. 12 is sufficient if it is implemented as a sensing function that can detect the shock, contact, vibration, etc. applied to the device.

Meanwhile, in the present invention, the timer 14 may be implemented by a hardware component such as a clock generator or a software program. Of course, such a timer 14 may be embedded in the control unit 13 and mounted.

As described above, the device of the present invention may be implemented as any wireless device regardless of the type, specifications, specifications, and network (protocol) types, for example, a mobile device such as a sensor network terminal, a smartphone, a mobile phone, a wireless USB memory, and the like. Media devices such as smart cards, MP3 players, and PMP players, radios, laptops, and wireless controllers (motes).

2 is a flowchart illustrating a method of controlling a wireless network connection using a device shock according to the present invention, and shows a process of creating a wireless network connection using the most basic algorithm in the present invention.

In addition, in the present invention, a wireless network connection creation / release process between a plurality of devices may be performed. Hereinafter, two devices will be described as examples for the purpose of understanding the present invention.

If the user (s) wants to create a wireless network connection between two devices [Note; Power of the device is on], the user (s) impacts each device (201). Here, it is preferable to apply the impact to each device at the same time point (same time zone) as the impact on the device, such as hitting the device directly with a hand or an object, giving a vibration to the device, or placing a table on which the device is placed. It can be done in a variety of ways, such as indirectly hitting or contacting the devices with each other (collision, impact, etc.). In addition, one user can impact two devices alone at the same time, or each of the two users can impact each device cooperatively at the same time.

Accordingly, the shock sensor 12 of each device senses a shock applied from the outside [user], and generates a shock event when the sensed shock value (impact strength) exceeds a threshold and transmits the shock event to the controller 13. (202). Here, the shock sensor 12 generates a shock event when the shock value exceeds the threshold value, which filters the occurrence of an unexpected shock event, such as a weak vibration, to generate a device-to-device wireless network connection due to an error. prevent.

Then, the controller 13 of each device recognizes the occurrence of the shock event and drives the timer 14 based on the time when the shock event occurred (203).

Then, the control unit 13 of each device drives the short range wireless communication unit 11 to transmit and receive signals between different devices based on the driving time of the timer 14 to generate another device at the same time (same time zone). Search for (204). This shock event generating device discovery process will be described in detail below with reference to FIG. 3.

Then, each device (control unit 13) generates a wireless network connection between the devices by performing a predetermined protocol with the corresponding device found according to the shock event generating device search result (205). Here, the predetermined protocol means a protocol used in the wireless network to which the device belongs, and is not limited to a specific protocol.

Additionally, in the present invention, the contents of the process of creating a wireless network connection may be provided to the user through a screen or a speaker, and accordingly, the user may select advanced setting, function change, and the like regarding wireless network connection creation according to a user's button selection. You can do that. Of course, this method is the same in the wireless network connection disconnection process and the application control process, which will be described below.

On the other hand, if each device (control unit 13) does not discover any other device as a result of the device search for the shock event occurrence [search failure], for example, if there is no other device that the shock event occurred at the same time (same time zone). (E.g., when a user only impacts one device), change the device to a state that creates a specific predefined connection (recognized as a shock event applied to a single device and return it to a predefined state). Command to change], the device creates or releases a wireless network connection between devices with a predefined special relationship for future shock events occurring within a certain time from the time of the shock event (eg, server-client relationship connection, parent -Child relationship connections, etc.).

As another example, if each device does not discover any other device as a result of a device discovery for a shock event occurrence [discovery failure], for example, if no other device has encountered a shock event at the same time point (same time zone) (e.g., In the case where only one device has an impact, etc.), it is changed to a state in which the device performs a specific predefined action (recognized as a shock event applied to a single device and changed to a state in which a predefined action is performed). Command], the device executes a special function defined in advance for future shock events occurring within a certain time from the time of the shock event occurs, it can be extended to accept a variety of commands other than the basic operation.

In the present invention, the application program is any application such as a network-based application (eg, messenger, content downloader, file sharing, etc.) running on a wireless network, a device-based application (eg, content player, scheduler, etc.) running on a device. It is to be noted that it is not limited to a specific application.

Using a file sharing program as an example, when a device recognizes a shock event, information such as the occurrence of the event, the device (s) and the number of times that the same event occurred are transmitted to a file sharing program running on the device, and the file sharing is performed. The program can take this as a control command and execute functions such as sending and receiving files or synchronizing contents through a wireless network connection with the device (s).

As another example, when the device transmits information about the impact event to the content player program, the device may reproduce the previously stored content according to a predetermined user setting and output the same through the screen or the speaker.

Meanwhile, in the present invention, consideration is given to wireless network connection control between a device equipped with a shock sensor and a device without a shock sensor.

That is, a device without a shock sensor may use a user interface (eg, a screen) to display contents of a device search message according to occurrence of a shock event received from a device equipped with a shock sensor through a separate interface such as a sound or a screen. In this case, the wireless network connection is generated / released between the corresponding devices according to the user's selection.

Next, a process of searching for an impact event generating device will be described in detail with reference to FIG. 3.

FIG. 3 is an exemplary diagram for describing a shock event generating device discovery process of FIG. 2, and illustrates an RF communication attempt state of two devices for searching for another device in which a shock event occurs at the same time point (same time zone).

In FIG. 3, the devices A and B each search for another device in which a shock event occurs at the same time point (same time zone) based on the time (time point) at which the shock event occurred. Attempts to transmit data in order to do so, and transition to a data reception standby state at other times.

Here, the data transmitted by the device [device A or device B] to another device is a discovery message including a shock event occurrence time (time point) expressed as a timer driving counting value of the [device]. The other device [device B or device A] recognizes as a counterpart device having a shock event at the same time (same time zone) when the timer driving counting value of the counterpart device included in the discovery message matches itself. 3 is for explaining the simplest random impact event generating device search algorithm, but is not limited to this algorithm.

As shown in FIG. 3, a shock event occurred in each of the device A and the device B at a time 'T10', and this shock event occurrence time is represented by the number '0' in the timer. After the shock event occurs, the timer of each device is driven to start counting.

Basically, each of device A and device B waits to receive data transmitted from another device in which the shock event occurs at the same time point (same time zone) while waiting for data reception, but also actively at the same time point (same time zone) at random time. Perform data transmission to find another device that has a shock event.

In FIG. 3, each of the devices A and B performs data transmission for searching for another device having a shock event at the same time point (same time zone) at a random but identically selected 'T20' time. As data is transmitted, the two devices are failing to find each other. Accordingly, the device A performs data transmission at the time 'T30' and the device B performs the data reception at the 'T30' time. Accordingly, the two devices succeed in finding each other and perform a predetermined protocol to perform the wireless network between the devices. Create a connection.

However, in FIG. 3, a device having one short range wireless communication unit [single RF module] has been described as an example. In a device having multiple (two or more) short range wireless communication units, device A transmits data and device at the same time. Even if B performs data reception (or device A receives data and device B transmits data), the two devices may succeed in finding each other.

Meanwhile, in the present invention, the process of releasing a device-to-device wireless network connection is similar to the process of creating a device-to-device wireless network connection as described above.

That is, when devices that are connected to each other wireless network are activated with the wireless network disconnection function enabled, when a shock is applied to each device, according to the result of searching for another device having a shock event at the same time point (same time zone) The wireless network connection between the devices is released by performing a predetermined protocol with the corresponding device.

As described above, in the present invention, the user can easily create a device-to-device wireless network connection and release a device-to-device wireless network connection simply by applying a shock to the device.

Next, various additional techniques may be modified and added according to a network environment and an application in which the basic algorithm of the method for controlling a wireless network connection using the device impact of the present invention as described above is utilized. In addition, various additional techniques, which will be described below, may be modified and applied to an application program control method using the device impact of the present invention.

Firstly, a lock function, such as a button for enabling / disabling the wireless network connection control function of a device, for example, uncontrolled wireless network connection control between devices in case of a shock to the device. In order to prevent the creation / release of a wireless network connection, a device-specific wireless network connection control lock function may be set according to a user's selection.

Second, in the group ID concept, for example, in the process of searching for an impact event generating device, a group ID is included in transmission data to generate / release a wireless network connection between devices, thereby creating / releasing a wireless network connection only between devices having a predetermined group ID. The release may be performed, or device functions, device privileges, and the like after the wireless network connection may be limited. Here, the group ID is preferably set to an individual or affiliated SNS or a group (company, etc.), and in the case of using such a group ID, security of the wireless network connection between devices can be improved.

Third, in the basic wireless network connection control algorithm, the device operates based on the relative time when the shock event occurs using a timer, but the device knows the absolute time through the GPS module, the internal clock, and the mobile network synchronization time. In other words, the device may operate based on absolute time in comparing the time at which an impact event of another device occurs.

In addition, in an embodiment in which the device operates on the basis of the absolute time, the device additionally generates a random number (encryption information) having the absolute time as a seed, so that the transmission data may be added to the transmission data during the shock event generating device search process. The random number may be included to perform wireless network connection generation / release control between devices that have been randomly decoded.

Of course, in the process of searching for a shock event generating device by generating a random number using the aforementioned group ID, the group data may include a random number based on the group ID in the transmission data, or a random number is generated using a group ID and an absolute time to search for a shock event generating device. You can also include group ID + absolute time-based random numbers in the transmitted data. In the case of using such a group ID and / or an absolute time based random number, security of the wireless network connection between devices can be further improved.

Fourth, additional control by the user regarding the creation / release of a wireless network connection between devices is possible according to the number of impacts applied to the device by the user. For example, when a connection is created because a single shock is applied between devices within a predetermined time period, data transmission and reception between devices is performed every 5 minutes, and two shocks are applied between devices within a predetermined time period to create a connection. In this case, data transmission and reception between devices may be performed in one minute period. That is, by expressing additional control of the user through the number of impacts, the value related to connection setting between devices including a data transmission / reception period may be changed.

Fifth, the user may further control the device mode switching according to the different number of impacts applied to each device. For example, if a wireless network connection is made between two devices as a result of a shock between device A and device B after the shock is applied to device A, device A sensed two shocks at the time of wireless network connection and the device Because B senses a single shock, the difference in the number of impacts between these devices allows for a wireless network connection relationship between one device [device A or device B] as a parent node and another device [device B or device A] as a child node. Can be set.

Sixth, it is possible to establish a wireless network connection relationship between devices in a manner through measurement data of additionally attached sensors other than the different number of device impact methods described above.

For example, when the acceleration sensor is provided in the device, the wireless network connection relationship between the devices may be established by comparing each device movement value before or after the shock event occurs. Here, the acceleration sensor is an example of a sensor that makes a difference between the devices by detecting the positional movement of the device, which can be expressed by various sensors.

That is, each of the devices in which the shock event occurred at the same time point (same time zone) calculates a movement value (for example, expressed as a predetermined value or expressed as large / small) before or after the shock event is generated through the acceleration sensor. In the process of searching for an impact event generating device, its own movement value is included in the transmission data and transmitted to another device, and thus the wireless network connection relationship is established as a parent node or a child node through the movement value comparison between the devices. For example, a device having a relatively small moving value may be set as a parent node because it has a fixed state, and a device having a relatively large moving value has a moving state as a child node.

As another example, when a device includes a motion sensor, a wireless network connection relationship between devices may be established through each device motion value before or after the shock event occurs. Here, the motion sensor is a means for detecting the device rotation, shaking, character / number representation by the user.

That is, each device that has a shock event at the same time point (same time zone) before or after the shock event occurs through a motion sensor (eg, rotation value from left to right or a predetermined number of shaking values or a specific character / numeric expression value) ), And in the process of searching for an impact event generating device, transmits its own motion value to other devices in the transmission data, and transmits to the previously defined motion value based on its own motion value and other device motion values between devices. A wireless network connection relationship is established as a parent node or a child node. For example, a device that has been shaken once by a user is set as a parent node, and a device that has been shaken twice by a user may be set as a child node. In another example, a device that detects a motion of 'P' is a parent node. The device that detects the motion of 'C' can be operated as a child device.

As another example, when the device is equipped with a voice sensor (voice recognizer) or a sound sensor (sound measurer), the wireless network connection relationship between devices may be established through each device voice value (or sound value) before or after the shock event occurs. Can be. Here, the voice sensor is a means for recognizing words in a user spoken voice input to the device, and the acoustic sensor is a means for measuring a value of sound input to the device.

That is, each device that has an impact event at the same time point (same time zone) recognizes the voice value (eg, parent / child) before or after the shock event is generated through the voice sensor, and transmits data in the process of searching for an impact event generating device. Transmits to the other device by including its own voice value, and establishes a wireless network connection relationship as a parent node or a child node corresponding to a predefined voice value based on its own voice value and another device voice value. . For example, a device spoken by a user as a parent may be set as a parent node, and a device spoken by a user as a child may be set as a child node.

Meanwhile, as described above, the device performs a process of searching for another device in which the shock event occurs at the same time point (same time zone) based on a timer-based time or an absolute time.

However, since all hardware clocks for driving time have errors, the error value increases as time passes after the shock event occurs, and the impact is applied at the same time point (same time zone) due to the accumulation of such error values. The device may be misidentified as a device that generated an impact event at different times between devices.

Accordingly, in the present invention, the device impacts at the same time point (same time zone) for a time corresponding to a device search error tolerance value in which the error range value of the time-driven clock generated by hardware after the shock event is set in proportion to the elapsed time. Performs a process of searching for another device that has an event. For example, device discovery problems caused by hardware time driven clock errors can be solved. This can be expressed as Equation 1 below.

Where ε is the time error value, α is the hardware time-driven clock error value [ppm], n is the total number of devices, t _o is the shock event occurrence time (time), t is the elapsed time, and r is the device search error tolerance value. Respectively.

That is, the absolute time error range of an arbitrary device is expressed by Equation 1, and summed up for all devices as shown in Equation 2 below.

The maximum value / minimum value of the absolute time error range from Equation 2 is expressed by Equation 3 below.

If any device calculates an error value allowance range for another device based on Equation 3, this should be twice the error range, which is expressed by Equation 4 below.

FIG. 4 is a diagram illustrating an embodiment of a device search error tolerance value, in which an arbitrary device searches for another device having a shock event occurring at the same time point (same time zone) at the time 't ₀ '. It shows the margin of error to allow for time.

Next, a description will be given of a method of controlling an application using a device shock, which performs a corresponding control regarding setting / execution of an application program when a shock is applied to a device, for example.

The application control method using the device shock can be implemented in the same manner as in the first embodiment of the present invention (the method for controlling the wireless network connection using the device shock) as described above.

That is, after a device-to-device wireless network connection is made (with a device connected to a wireless network) according to the first embodiment of the present invention or in a conventional manner, each device recognizes the occurrence of a shock event when an impact is applied to each device. The solution [preferably as an application-controlled shock event] searches for other devices that generated a shock event at the same time (same time zone) based on the time the shock event occurred.

Then, when the device discovery is successful, each device transmits the shock event generation device discovery result to the application program, and the application program performs a change of settings or execution of a function corresponding to the received device discovery result information (eg Change access rights on the connection between two devices, start / end data transfer, etc.).

Of course, it will be readily understood by those skilled in the art that the various additional techniques described in the first embodiment of the present invention are also applicable to the second embodiment. For example, each device participating in the wireless network may be differentially configured (granted) with network relationships and roles defined in the network or application.

Finally, application examples of the first and second embodiments of the present invention will be described in detail.

As mentioned above, the present invention relates to a wireless network such as a sensor network, a mobile device such as a smartphone, a mobile phone, a media device such as a wireless USB memory, a smart card, an MP3 player, a PMP player, a radio, a laptop, a wireless controller (mote It can be applied to all products based on wireless communication, and can be applied to systems, services, and solutions such as P2P or machine to machine (M2M) between devices.

For example, when the present invention is applied to a sensor network, even non-expert general users can simply specify a network routing path between devices, thereby improving energy efficiency in a fixed communication environment, and Can achieve the desired network configuration. It can be produced / sold as a product such as a sensor network kit that is simply installed and used by the user.

Meanwhile, when the present invention is applied to an application program, a user may easily assign a different task to each device, which may be reflected in real time so that a corresponding application of the device may be operated.

Meanwhile, when the present invention is applied to a P2P connection between mobile devices, the corresponding devices may generate a short range wireless communication connection through the generation of an impact between the mobile devices, thereby creating and providing an infrastructure of a network program. This ensures a secure P2P connection by better expressing the user's willingness to connect to the wireless network compared to the traditional approach of searching and selecting all nearby devices. In addition, by expressing the user's expanded control intention through various additional techniques proposed in the present invention, the user may perform an operation desired without manipulating other interfaces of the mobile device.

Meanwhile, even when the present invention is applied to an M2M connection, the same effect as a P2P connection can be obtained. For example, according to the present invention, when the mobile device and the display device generate a wireless network connection, the content screen played by the mobile device is generated. To the display device.

On the other hand, when the present invention is applied to a wireless USB memory can be changed into a method of connecting through the impact (contact) with the other device that supports USB from the existing method of communication between the two divided into the dongle and the main body, and utilizes this As an example, even in an environment where many PCs exist, a user can generate a desired wireless network connection by generating a simple shock event between a computer and a USB device to which the user wishes to connect. For example, in the case of the conventional WPAN, there is a problem of security and efficiency because it can access USB memory through numerous computers, and the existing method using the dongle does not directly fix the dongle every time the network is connected. Since the work needs to be connected, it can be said that there is practically no difference from the wired connection to the user, and in this regard, the improved contents can be confirmed through the technical contents of the present invention.

Meanwhile, as an example in which the present invention is applied to an MP3 player, music may be provided to a user through a separate speaker of content sound played in the MP3 player through an M2M connection.

On the other hand, when the present invention is applied to a smart card can be utilized as a security device as a tool for controlling the smart card access, it can be utilized for transactions between the smart card and the smart card through various control inputs.

However, considering that the present invention requires the support of a hardware device for wireless network connection in all devices in the currently released product, the field to be applied preferentially is a field of connection between a single device, rather than a connection between heterogeneous devices, The business model applies to areas with local and closed network characteristics, such as newly built / sold sensor networks, rather than personalized devices such as mobile, where hardware functional support (e.g. device changes) is relatively slow or requires individual investment. It would be more advantageous to the side.

On the other hand, various methods of the present invention as described above can be written in a computer program. And the code and code segments constituting the program can be easily deduced by a computer programmer in the field. In addition, the written program is stored in a computer-readable recording medium (information storage medium), and read and executed by a computer to implement the method of the present invention. The recording medium may include any type of computer readable recording medium.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

11: near field communication unit
12: shock sensor
13:
14: timer

Claims (32)

In the wireless network connection control method between devices,
Sensing an impact applied from the outside;
Generating a shock event when the shock is sensed;
Searching for another device by transmitting and receiving a discovery message when the shock event occurs; And
And generating a device-to-device wireless network connection by performing a predetermined protocol with the at least one other device on which the shock event occurs. The method of claim 1, wherein generating the shock event,
And generating a corresponding shock event when the shock value sensed in the sensing step exceeds a predetermined threshold value. The method of claim 1,
The search message includes the occurrence time of the shock event,
The occurrence time of the shock event, the wireless network connection control method using a device shock, characterized in that represented by the timer drive counting value of the device. The method of claim 1,
The discovery message includes a generation time of the shock event, and the generation time of the shock event is expressed in absolute time. The method according to claim 3 or 4,
The searching of the device may include searching for another device for a time corresponding to a search error tolerance value of the device,
The discovery error tolerance value of the device is set in proportion to the elapsed time from the impact event occurrence time wireless network connection control method using a device shock. The method of claim 1,
Sensing an impact from the outside while the device-to-device wireless network is connected;
Generating a wireless network disconnection shock event when sensing an impact from the outside;
Searching for another device having a shock event at the same time by transmitting and receiving a discovery message between devices based on the time when the wireless network disconnection shock event occurs; And
If the searched device according to the search result is a device already connected to the wireless network connection control method using a device shock further comprising the step of performing a predetermined protocol with the device to release the wireless network connection between the devices. The method according to claim 6,
The method may further include providing a content of the wireless network connection creation process or the content of the wireless network connection release process to the user, wherein the user setting and the function change setting are previously defined by the user's selection. How to control wireless network connection using shock. 7. The method according to claim 1 or 6,
When a device without a shock sensor receives a device discovery message for a shock event occurrence from a device equipped with a shock sensor, the contents of the received device discovery message are provided to a user through a user interface, but the user's selection The method of controlling a wireless network connection using a device shock, characterized in that the device-to-device wireless network connection is generated or the device-to-device wireless network connection is released. The method of claim 1 or 6, wherein the searching for the device comprises:
A method of controlling a wireless network connection using a device shock, comprising: transmitting a discovery message including an impact event occurrence time and a group ID to another device; The method of claim 9, wherein the search message,
Device shock, characterized in that the shock event generation time includes the encrypted information, or the group ID is seeded encryption information, or the shock event occurrence time and the group ID is encrypted information seeded; Wireless network connection control method using a. The method of claim 1 or 6, wherein the sensed shock has a predetermined number of times,
The method of controlling a wireless network connection using a device shock, characterized in that for changing the value of the device-to-device wireless network connection setting through the number of shocks. 7. The method according to claim 1 or 6,
A device shock, characterized in that for establishing a wireless network connection relationship between devices by comparing the measured value of the acceleration sensor of each device before or after the shock event, or the measured value of the motion sensor of each device before or after the shock event occurs. Wireless network connection control method using a. 7. The method according to claim 1 or 6,
The wireless network connection control method using the device shock, characterized in that for setting the wireless network connection relationship between the device through the measurement value of the voice sensor or the acoustic sensor of each device before or after the impact event. The method of claim 1 or 6, wherein generating the shock event comprises:
If the wireless network connection control lock function is set, the wireless network connection control method using the device shock, characterized in that the shock event does not occur according to the shock sensing. In the application program control method of the device,
Sensing an impact from the outside while the device-to-device wireless network is connected;
Generating a shock event when sensing a shock applied from the outside;
Searching for at least one other device having a shock event at the same time by performing transmission and reception of a discovery message between the devices when the shock event occurs; And
And transmitting the search result to an application program to execute execution of a function provided by the application program and to change a setting. The method of claim 15, wherein generating the shock event,
And a corresponding shock event is generated when the sensed shock value exceeds a threshold. 16. The method of claim 15, wherein the shock event occurrence time included in the search message is
Application program control method using a device shock, characterized in that expressed as a timer drive counting value of the device. 16. The method of claim 15, wherein the shock event occurrence time included in the search message is
Application program control method using a device shock, characterized in that expressed in absolute time. The method according to claim 17 or 18,
Discovering the device,
Searches for another device during the time corresponding to the device's search error tolerance value.
And the search error tolerance value of the device is set in proportion to the elapsed time from the impact event occurrence time. The method of claim 15,
Providing the contents of the application function execution and the setting change process to the user, the application control using a device shock, characterized in that the predefined user settings, function change settings are made by the user's selection Way. The method of claim 15,
When a device without a shock sensor receives a device discovery message for a shock event occurrence from a device equipped with a shock sensor, the contents of the received device discovery message are provided to a user through a user interface, but the user's selection The application program control method using a device shock characterized in that the application function function and the setting change or the predefined function execution between the corresponding device is performed. The method of claim 15, wherein searching for the device comprises:
A method for controlling an application program using a device shock, comprising: transmitting a discovery message including a shock event occurrence time and a group ID to another device; The method of claim 22, wherein the search message,
Device shock, characterized in that the shock event generation time includes the encrypted information, or the group ID is seeded encryption information, or the shock event occurrence time and the group ID is encrypted information seeded; Application control method using. The method of claim 15, wherein the sensed shock has a predetermined number of times,
The application program control method using a device shock, characterized in that for changing the value of the application program function execution and the setting change through the number of shocks. The method of claim 15,
A device shock, characterized in that for establishing a wireless network connection relationship between devices by comparing the measured value of the acceleration sensor of each device before or after the shock event, or the measured value of the motion sensor of each device before or after the shock event occurs. Wireless network connection control method using a. The method of claim 15,
The wireless network connection control method using the device shock, characterized in that for setting the wireless network connection relationship between the device through the measurement value of the voice sensor or the acoustic sensor of each device before or after the impact event. The method of claim 15, wherein generating the shock event,
If the application control lock function is set, the application program control method using a device shock, characterized in that does not generate a shock event according to the shock sensing. A computer-readable recording medium having recorded thereon a program for implementing the method of any one of claims 1 to 4. In a device equipped with a near field communication function,
A shock sensor that senses a shock applied from the outside and generates a shock event when the strength of the shock exceeds a threshold; And
As a shock event exceeding a threshold occurs in the shock sensor, a search message is transmitted and received between devices based on a time when the shock event occurs, thereby searching for at least one other device having a shock event at the same time. And a control unit for creating a wireless network connection with the corresponding device. 30. The apparatus of claim 29, further comprising an absolute time obtaining unit for obtaining a current time, wherein the control unit comprises:
A device having a wireless network connection control function using a device shock, wherein the device transmits a discovery message to another device, but includes the absolute time of the shock event occurrence obtained through the absolute time acquisition unit in the discovery message. . The method of claim 29 or 30, wherein the control unit,
When the device-to-device wireless network is already connected, the impact sensor senses a shock value exceeding a threshold value to generate a wireless network disconnection shock event, and based on the time when the wireless network disconnection shock event occurs, the short range wireless communication unit A device equipped with a wireless network connection control function using a device shock, characterized in that the device performs a discovery message transmission and reception through the device to search for at least one other device having a shock event at the same time to release the wireless network connection with the corresponding device. The method of claim 29 or 30, wherein the control unit,
When the device-to-device wireless network is already connected, an application control shock event is generated when the shock sensor senses an impact value exceeding a threshold value, and the device is connected to the device through a short range wireless communication unit based on a time when the application control shock event occurs. Device shock, characterized in that for performing at least one other device having a shock event at the same time by performing a search message transmission and reception between the devices and changing the function settings or the execution of the function function provided by the application program between the devices Device equipped with a wireless network connection control function using.

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