Various embodiments of the invention will now be described with reference to the accompanying drawings. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes various modifications, equivalents, and / or alternatives of the embodiments of the invention. In connection with the description of the drawings, like reference numerals may be used for similar components.
In this document, the expressions "have," "may," "include," or "include" may be used to denote the presence of a feature (eg, a numerical value, a function, Quot ;, and does not exclude the presence of additional features.
In this document, the expressions "A or B," "at least one of A and / or B," or "one or more of A and / or B," etc. may include all possible combinations of the listed items . For example, "A or B," "at least one of A and B," or "at least one of A or B" includes (1) at least one A, (2) Or (3) at least one A and at least one B all together.
Expressions such as " first, "second," first, "or" second, " as used in various embodiments, Not limited. The representations may be used to distinguish one component from another. For example, the first user equipment and the second user equipment may represent different user equipment, regardless of order or importance. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be named as the first component.
(Or functionally or communicatively) coupled with / to "another component (eg, a second component), or a component (eg, a second component) Quot; connected to ", it is to be understood that any such element may be directly connected to the other element or may be connected through another element (e.g., a third element). On the other hand, when it is mentioned that a component (e.g., a first component) is "directly connected" or "directly connected" to another component (e.g., a second component) It can be understood that there is no other component (e.g., a third component) between other components.
As used herein, the phrase " configured to " (or set) to be "adapted to, " To be designed to, "" adapted to, "" made to, "or" capable of ". The term " configured (or set) to "may not necessarily mean " specifically designed to" Instead, in some situations, the expression "configured to" may mean that the device can "do " with other devices or components. For example, a processor configured (or configured) to perform the phrases "A, B, and C" may be a processor dedicated to performing the operation (e.g., an embedded processor), or one or more software programs To a generic-purpose processor (e.g., a CPU or an application processor) that can perform the corresponding operations.
The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the scope of the other embodiments. The singular expressions may include plural expressions unless the context clearly dictates otherwise. All terms used herein, including technical or scientific terms, may have the same meaning as commonly understood by one of ordinary skill in the art. Commonly used predefined terms may be interpreted to have the same or similar meaning as the contextual meanings of the related art and are not to be construed as ideal or overly formal in meaning unless expressly defined in this document . In some cases, the terms defined in this document can not be construed to exclude embodiments of the present invention.
An electronic device in accordance with various embodiments of the present invention can be used in various applications such as, for example, a smartphone, a tablet personal computer, a mobile phone, a videophone, an e-book reader reader, a desktop PC, a laptop PC, a netbook computer, a workstation, a server, a personal digital assistant (PDA), a portable multimedia player (PMP) Medical devices, cameras or wearable devices such as smart glasses, head-mounted-devices (HMD), electronic apparel, electronic bracelets, electronic necklaces, electronic apps, A tattoo, a smart mirror, or a smart watch).
In some embodiments, the electronic device may be a smart home appliance. Smart home appliances include, for example, televisions, DVD players, audio, refrigerators, air conditioners, vacuum cleaners, ovens, microwave ovens, washing machines, air cleaners, set-top boxes, home automation control panel, security control panel, TV box (eg Samsung HomeSync ™, Apple TV ™ or Google TV ™), game consoles (eg Xbox ™, PlayStation ™) A camcorder, or an electronic photo frame.
In an alternative embodiment, the electronic device may be any of a variety of medical devices (e.g., various portable medical measurement devices such as a blood glucose meter, a heart rate meter, a blood pressure meter, or a body temperature meter), magnetic resonance angiography (MRA) A global positioning system receiver, an event data recorder (EDR), a flight data recorder (FDR), an automotive infotainment device, a navigation system, a navigation system, Electronic devices (eg marine navigation devices, gyro compass, etc.), avionics, security devices, head units for vehicles, industrial or home robots, ATMs (automatic teller's machines) point of sale or internet of things such as light bulbs, various sensors, electric or gas meters, sprinkler devices, fire alarms, thermostats, street lights, toasters, A water tank, a heater, a boiler, and the like).
According to some embodiments, the electronic device is a piece of furniture or a part of a building / structure, an electronic board, an electronic signature receiving device, a projector, Water, electricity, gas, or radio wave measuring instruments, etc.). In various embodiments, the electronic device may be a combination of one or more of the various devices described above. An electronic device according to some embodiments may be a flexible electronic device. In addition, the electronic device according to the embodiment of the present invention is not limited to the above-described devices, and may include a new electronic device according to technological advancement.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An electronic apparatus according to various embodiments will now be described with reference to the accompanying drawings. In this document, the term user may refer to a person using an electronic device or a device using an electronic device (e.g., an artificial intelligence electronic device).
1 is a diagram illustrating an example of a monitoring system according to an embodiment of the present invention.
Referring to FIG. 1, a monitoring system 10 according to one embodiment may include a monitoring device group 200, an electronic device 100, and a monitoring area 300 that include at least one monitoring device.
The monitoring system 10 described above can be used to collect at least one monitoring device belonging to the monitoring device group 200, to collect sensor information provided by the monitoring device group 200 based on the specified monitoring device or the electronic device 100, Information processing can be performed. The monitoring system 10 may process various service operations for the monitoring area 300 in which the monitoring device group 200 is disposed.
According to various embodiments, at least one monitoring device in the monitoring system 10, which belongs to the monitoring device group 200, includes a processor and may perform the processing on the collected sensor information alone. At least one monitoring device belonging to the monitoring device group 200 may transmit the collected sensor information to another monitoring device or may transmit function execution information according to the collected sensor information to at least one of the other monitoring devices or electronic devices 100 Can be delivered to one. The function execution information may include information that the corresponding device (e.g., an electronic device or a monitor device) outputs an alarm designated or irradiates the designated light. Further, the function execution information may include operation control information (e.g., turn-on or turn-off of the external electronic device) of the external electronic device. The settings for the monitoring device group 200 are performed using the electronic device 100 and sensor information collection and operation accordingly can be handled in the designated monitoring device within the monitoring device group 200. [ Alternatively, according to various embodiments, the monitoring system 10 may be operated on the basis of the monitoring device group 200 of the monitoring devices in which at least one instruction relating to the monitoring device operation is stored, without the configuration of the electronic device 100 have. For example, the designated monitoring device belonging to the monitoring device group 200 performs monitoring for the designated area according to the specified commands, and executes the function according to the sensor information (e.g., performs an alarm or transmits the function execution information to the peripheral monitoring device And the like) can be processed. When the monitoring operation function is performed by the monitoring device group 200 without the configuration of the electronic device 100, the designated monitoring device can perform the master function. For example, the designated monitoring device can control the start and end of monitoring of itself and the peripheral monitoring device, collect sensor information and analyze information, and execute functions according to information analysis.
The monitoring area 300 includes at least one object (e.g., a person or an external electronic device, etc.) disposed in a monitored area or in an area monitored by at least one monitoring device included in the monitoring device group 200 can do. At least one external electronic device (e.g., a home appliance) may be disposed in the monitoring area 300. For example, the monitoring area 300 may include an oven, a microwave device, a refrigerator, a washing machine, a TV, a coffee machine, a toaster, and the like. According to various embodiments, the monitoring area 300 may include at least one object, such as a person (e.g., a child) monitored by the monitoring device, as well as an external electronic device, a kettle Bottles, and soup bowls can also be placed.
The electronic device 100 may receive device identification information, device location information, etc. from at least one monitoring device belonging to the monitoring device group 200. The electronic device 100 may generate a monitoring setting screen based on the received monitoring device identification information, the monitoring device location information, and the map information. The map information may be received from an external server or input through an input interface. Or may receive map information from a monitoring device that includes map information. The electronic device 100 may output a monitoring setting screen and generate setting information for at least one monitoring device corresponding to the user input. The electronic device 100 may transmit the generated setting information to the monitoring device.
The electronic device 100 may output function execution information based on sensor information or sensor information transmitted by at least one monitoring device belonging to the monitoring device group 200. [ Alternatively, the electronic device 100 may perform function execution according to the function execution information provided by the monitoring apparatus (e.g., alarm delivery, call connection based on a specified telephone number, message delivery specified by a designated telephone number, Output, device control of the designated external electronic device, etc.).
2 is a diagram illustrating an example of an electronic device according to an embodiment of the present invention.
2, an electronic device 100 according to one embodiment includes an input unit 110, a memory 120, a communication interface 130, a display 140, an input / output interface 150, a communication interface 130, Processor 160 may be included. The electronic device 100 also transmits signals between the processor 160 and peripheral components such as the input unit 110, the communication interface 130, the display 140, and the input / output interface 150 And may further include a supporting bus.
The input unit 110 may support an input function of the electronic device 100. The input unit 110 may include, for example, at least one button, at least one switch, a keypad, and the like. According to various embodiments, when the display 140 of the electronic device 100 is formed as a touch screen, the display 140 may operate as an input 110. The input unit 110 may generate an input signal related to the setting of at least one monitoring device included in the monitoring device group 200 in response to a user input, and may transmit the input signal to the processor 160. The input unit 110 may generate an input signal related to the start and end of sensor information collection of the monitoring device 201, an input signal related to the execution of the designated function of the monitoring device 201, and the like according to user input.
The memory 120 may store data or programs related to the operation of the electronic device 100. [ For example, the memory 120 may store a kernel, a middleware, an application programming interface (API), an application program, and the like. According to one embodiment, the memory 120 stores data (e.g., UI (user interface) related information, map information, etc.) related to the setting of at least one monitoring device included in the monitoring device group 200, Setting information, and the like. Alternatively, the memory 120 may store identification information of at least one monitoring device, location information of the monitoring device, and the like. The memory 120 may store sensor information provided by the monitoring device group 200, function execution information related to the designated monitoring device control, information related to the designated external electronic device control, and the like. In addition, the memory 120 may store designated external server connection information, other specified electronic device connection information, and the like.
The communication interface 130 may include at least one communication module (e.g., communication functional hardware) associated with the communication function processing of the electronic device 100. [ For example, the communication interface 130 may include a short range communication module (e.g., a Bluetooth communication module or a WiFi communication module, or a WiFi direct communication module, etc.) capable of communicating with at least one monitoring device included in the monitoring device group 200 can do. In addition, the communication interface 130 may include a remote communication module or a mobile communication module capable of forming a communication channel with an external server or other electronic device.
The display 140 may output at least one user interface associated with the operation of the electronic device 100. According to one embodiment, the display 140 may output a setting UI associated with the function settings of the monitoring device group 200. [ Display 140 may output sensor information collection, information analysis, UI related to function execution according to analysis result, and the like. In addition, the display 140 may output a screen UI for transmitting a message to an external server or another designated electronic device, a UI for forming a communication channel with another electronic device, or the like according to the execution of the designated function.
The output interface 240 may process the data input / output function of the electronic device 100. For example, the output interface 240 may include an audio device, a vibrating device, a lamp, and the like. The output interface 240 may output the specified audio information in connection with the monitoring operation, or may perform the specified vibration pattern. In addition, the output interface 240 can perform lamp blinking in a designated pattern or lamp emission in a designated color in connection with monitoring operation.
The processor 160 may process signals or transfer of data in connection with operation of the electronic device 100. [ According to one embodiment, the processor 160 may form a communication channel with at least one monitoring device included in the monitoring device group 200, according to user input, a specified period, or a request of a designated monitoring device. The processor 160 may receive device identification information and location information of the monitoring device from the monitoring device. The processor 160 may output the setting UI related to the function setting of the monitoring devices to the display 140 based on the map information stored in the memory 120 and the received device identification information and the location information. The processor 160, in response to user input, may generate functional configuration information relating to functional configuration of the at least one monitoring device. The processor 160 may transmit the function setting information to the designated monitoring device or group 200 of monitoring devices.
The processor 160 may receive sensor information from at least one monitoring device. The processor 160 may analyze the received sensor information to perform the specified object detection. In addition, the processor 160 may determine the state of the object based on the sensor information analysis analysis. For example, the processor 160 may detect the temperature state of the object, the moving state of the object, the movement pattern of the object, or the specific device usage pattern of the object. The processor 160 may generate function execution information based on the detected information. Processor 160 may send function execution information to a designated monitoring device. Alternatively, the processor 160 may execute a user function (e.g., message transmission function, telephone connection function, alarm function, etc.) of the electronic device 100 in accordance with the function execution information. The processor 160 may perform turn-on or turn-off control of the monitoring device according to user input or according to a scheduling period.
3 is a diagram illustrating a monitoring apparatus according to an embodiment of the present invention.
3, a monitoring apparatus 201 according to an embodiment includes a thermal image sensor 210, a sensor memory 220, a communication module 230, an interface 240, an input / output module 250, Processor 260 may be included. This monitoring device 201 may include at least one monitoring device belonging to the monitoring device group 200. [
The thermal image sensor 210 may perform sensing for a designated region (for example, a predetermined region in the direction in which the monitoring apparatus is installed) under the control of the sensor processor 260. The thermal image sensor 210 may collect thermal image sensor information for a designated area periodically, real-time, or under the control of a specified monitoring device (or electronic device 100). The thermal image sensor 210 may transmit the collected sensor information to the sensor processor 260. Based on the operation of the thermal image sensor 210, the monitoring device 201 can provide a privacy effect of the user (for example, an effect of suppressing a user's face exposure or body exposure). The monitoring device 201 may include, for example, a connection device and a socket device connected to a power source. The connecting device may include a power connection and a lighting device. The socket device may include a sensor, a memory, a communication module, an interface, an input / output module, and a sensor processor. According to various embodiments, the connecting device may further include at least one sensor (e.g., a gas detection sensor, a temperature and humidity sensor, a dust sensor, etc.). The socket device may further include a lighting device. According to various embodiments, the connecting device and the socket device can be integrated.
The sensor memory 220 may store data or programs necessary for the operation of the monitoring apparatus 201. For example, the memory 220 for the sensor may include identification information of the monitoring device 201. [ The sensor memory 220 may store sensor information collected by the thermal image sensor 210. The sensor memory 220 may store the function execution information received from the designated monitoring device 201 or the electronic device 100. [ The sensor memory 220 may store designated alarm information or other electronic device connection information. The alarm information may include, for example, specified audio information or information such as illuminance, color, or flashing pattern of the illuminating device.
The communication module 230 may be, for example, a wireless communication module that can form a communication channel with the electronic device 100 or a designated monitoring device, or a Wi-Fi communication module that can be connected to a designated AP (access point) And the like. The communication module 230 may transmit its identification information and location information to the electronic device 100 or a designated monitoring device. Regarding location information transmission, the monitoring device 201 may further include a location information collection module. According to various embodiments, the monitoring device 201 may be located by user input of the electronic device 100.
The interface 240 may include a socket interface to be inserted into the connection device. The interface 240 receives power from the inserted connection device and can communicate to each configuration of the monitoring device 201 in response to the control of the sensor processor 260.
The input / output module 250 may include physical buttons or switches related to power control. The input / output module 250 may turn on or off the thermal image sensor 210 according to user input. The input / output module 250 may include an audio device or a lighting device. The input / output module 250 may emit the illumination device in accordance with the specified audio information or the specified illuminance, hue or blinking pattern in response to the control of the sensor processor 260.
The sensor processor 260 may collect device identification information or location information of other monitoring devices belonging to the monitoring device group 200 when the designated monitoring device operates as a master device. The sensor processor 260 may configure a monitoring map based on the collected device identification information and location information. In this operation, the sensor processor 260 analyzes the position of each other based on the communication channel environment between the plurality of monitoring devices (for example, the signal reception intensity or information analysis between mutually communicable monitoring devices, etc.) You can also configure the monitoring map with Alternatively, the processor 260 for sensors may receive a monitoring map associated with the location of the monitoring devices from the electronic device 100, an external server, or the like.
The sensor processor 260 may control the sensor information collection of the sensor itself or the peripheral monitoring apparatus according to the designated period. The sensor processor 260 performs information analysis based on the collected sensor information, and analyzes whether the specified condition is satisfied or the degree of deviation from the specified condition is equal to or greater than a reference value. The sensor processor 260 may process the specified function execution in response to the analysis result. For example, the sensor processor 260 may output specified alarm information through an audio device, a lighting device, or the like. Alternatively, the sensor processor 260 may transmit the function execution information corresponding to the analysis information to at least one of the peripheral monitoring apparatuses. Alternatively, the sensor processor 260 may transmit the function execution information to the monitoring device satisfying the specified condition.
According to various embodiments, when the monitoring device 201 operates as a slave device, the sensor processor 260 may send the sensor information collected in response to a request from the designated monitoring device or the electronic device 100, To the device or the electronic device 100. When the sensor processor 260 receives the function execution information from the designated monitoring device or the electronic device 100, the sensor processor 260 can output the alarm information according to the function execution information.
4 is a view for explaining a monitoring operation method related to electronic device operation according to an embodiment of the present invention.
Referring to FIG. 4, in connection with an electronic device-based monitoring and operation method according to one embodiment, at operation 401, the processor 160 may collect identification information and location information of the monitoring device. The processor 160 may activate a local communication module or a Wi-Fi communication module that can communicate with the monitoring device. The processor 160 may perform a peripheral scan operation based on the activated communication module to collect device identification information and location information from at least one monitoring device. The location information may include, for example, relative location information that is input upon installation of the monitoring device, collected based on the location information collection sensor included in the monitoring device, or analyzed based on the formation of the intercommunication network of the plurality of monitoring devices . According to various embodiments, the processor 160 may output the device identification information collected from the monitoring devices to the display 140 and provide the map information stored in the memory 120. The user may perform an input mapping a device identification information corresponding to the monitoring devices to a specific area of the map information. The processor 160 may map the location of monitoring devices to map information in response to user input. In this regard, the processor 160 may output a list of at least one monitoring devices capable of forming a communication channel. The user can designate at least one monitoring device location on the map information through the list check.
In operation 403, the processor 160 generates a monitoring setting screen related to the operation control of the received monitoring device, and outputs the generated monitoring setting screen. The monitoring setting screen may include, for example, at least a structure diagram of a certain area including a house, or a structure diagram of a certain area including at least an office. The monitoring configuration screen may include at least one object corresponding to the monitoring devices mapped on the map information.
At operation 405, the processor 160 may verify that the user input is received. The processor 160 may skip operation 407 if there is no additional user input. When a user input is received, at operation 407, the processor 160 may perform management area designation and management reference value setting in accordance with the input. For example, when the processor 160 selects an object corresponding to a monitoring device disposed at a specific point displayed on the monitoring setting screen, the processor 160 may provide a setting screen related to the function setting of the monitoring device. For example, the processor 160 may set an alarm function to be performed by the specific monitoring device, generation and delivery of the specified function execution information, or management reference value of the monitoring device according to user input. In this regard, the processor 160 may provide, for example, a temperature setting window. Alternatively, the processor 160 may provide a size setting window that can set a certain area to be monitored at a specified temperature range.
According to various embodiments, the processor 160 may provide an integrated configuration window in which the management reference values of all monitoring devices belonging to the monitoring device group 200 can be set. The management reference value may comprise, for example, at least one set temperature value. Alternatively, the management reference value may include at least one region size value designated for monitoring. Or management reference value may include at least one region size value designated and at least one set temperature value associated with the region.
At operation 409, the processor 160 may acknowledge the occurrence of an event related to the function termination. If there is no occurrence of an event related to the function termination, the processor 160 may branch back to the operation 403 and re-execute the following operation. The processor 160 may terminate the monitoring setting function when an event related to the function termination occurs. For example, the processor 160 may terminate the output of the monitoring setting screen, output another screen to the display 140 in response to the specified function execution, or switch the display 140 to the sleep state according to the condition.
According to the above-described various embodiments, an electronic device operating method related to monitoring operation includes an operation of outputting a monitoring setting screen based on map information mapping a position of at least one monitoring device, Setting a temperature reference value to be monitored or an area to be monitored, and transmitting the setting information according to the setting to the monitoring device.
According to various embodiments, the setting operation may include setting a plurality of temperature reference values that the monitoring device will monitor in response to user input.
According to various embodiments, the setting operation may include setting to output another alarm specified for each of the plurality of temperature reference values.
According to various embodiments, the setting operation may include changing the size of an area to be monitored according to the user input.
According to various embodiments, the setting operation may include setting the plurality of areas having the specified temperature range reference value to be monitored by the monitoring device to the same size or different sizes according to user input.
According to various embodiments, the method may further include verifying that sensor information provided by the monitoring device is included in the plurality of areas, and outputting a designated alarm when included.
According to various embodiments, the method may further include outputting another alarm designated for each of the plurality of areas.
According to various embodiments, the method may further include automatically detecting at least one region to be monitored based on the region analysis to be monitored, and displaying the automatically detected region to be selectable.
According to various embodiments, when the sensor information is received from the monitoring device, the method may include attempting to establish a call connection to another electronic device or an external server designated according to the temperature status of the object detected in the sensor information, .
According to various embodiments, the method includes determining a location of an object based on sensor information provided by the monitoring device, configuring a cleaning map such that at least a portion of the object is located in an intensive cleaning area or a final cleaning area, And transmitting the cleaning map to the cleaning device.
5 is a view showing an example of a monitoring setting screen of an electronic device according to an embodiment of the present invention.
5, the display 140 of the electronic device 100 has a monitoring setting UI (user interface) including a management area 510 and a setting area 520, as in the 501 state, Can be output. The management area 510 may include map information of an area where the designated monitoring device is disposed. According to various embodiments, the management area 510 may be arranged with at least one external electronic device. The setting area 520 includes a management area related object 521 related to the entire type of management areas and a specific management area, a first interest area selection object 523 for selecting a recommended interest area, A second region of interest selection object 525, and a menu region 527. The processor 160 of the electronic device 100 sets a plurality of temperature reference values for one monitoring device in response to a user input and sets a plurality of temperature reference values for the plurality of reference values Other alarms can be output. In addition, the processor 160 may set a plurality of areas to be monitored in a certain temperature range to have the same size or different sizes corresponding to a user input, and to check whether the received sensor information is related to the corresponding area. If the received sensor information is related to the corresponding region, the processor 160 may output a different alarm for each region. The comparison of the sensor information for the set temperature and region described above may be performed in the monitoring device. In this case, the processor 160 of the electronic device may process the execution or delivery of alarm information or function execution information delivered by the monitoring device.
The management area related object 521 may include a summary form or a thumbnail form of areas monitored by at least one monitoring device. When the management area related object 521 is selected, the entire management area can be displayed on the full screen of the display 140. [ When a specific area is selected from the entire management area, the processor 160 may display the corresponding area in the management area 510 of the display 140. [ Alternatively, when a touch input occurs on the management area related object 521, the processor 160 may display the area corresponding to the touch position as the management area 510. [
The first ROI selection object 523 may be an object that supports selection of an area to be managed in the management area 510. When the first ROI object 523 is selected, the processor 160 may support selection of at least one of the ROIs 510. According to one embodiment, the processor 160 may collect information of at least one external electronic device disposed in the management area 510. [ Processor 160 may automatically display external electronic devices that need to be managed according to a specified one of the external electronic devices. For example, as in the 503 state, the first ROI 531 and the second ROI 533 may indicate the automatically proposed region in the management region 510. Alternatively, the first interest object 531 and the second interest object 533 may be an object pointing to a designated area, depending on the user's selection.
The second ROI selection object 525 may support a function of arbitrarily designating the management area 510 according to user input. When the second ROI object 525 is selected, the processor 160 may output the guide object 535 to the designated location in the management area 510, as in the 505 state. The processor 160 may change the position and size of the guide object 535 according to user input. For example, the processor 160 may output a modified change guide object 535 to the management area 510, in accordance with user input, as in the 507 state.
The menu area 527 may be disposed below the setting area 520. The menu area 527 may include at least one virtual button that can complete or cancel the setting of the monitoring device, depending on user input, as in state 507. [
As described above, an electronic device according to an embodiment includes a memory for storing data related to monitoring device operation, a display for outputting a screen related to the operation of the monitoring device, a processor functionally connected to the memory and the display And the processor provides a monitoring setting screen based on the map information mapping the position of the at least one monitoring device and provides at least one of a temperature reference value to be monitored by the monitoring device or an area to be monitored And send the setting information to the monitoring device.
According to various embodiments, the processor may set a plurality of temperature reference values to be monitored by the monitoring device in response to a user input.
According to various embodiments, the processor may be configured to output different alarms designated by the plurality of reference values.
According to various embodiments, the processor may be configured to change the size of the region to be monitored in accordance with the user input.
According to various embodiments, the processor may set a plurality of areas having the specified temperature range reference value to be monitored by the monitoring device to the same size or different sizes according to user input.
According to various embodiments, the processor may be configured to check whether sensor information provided by the monitoring device is included in the plurality of areas, and to output a designated alarm if included.
According to various embodiments, the processor may be configured to output another alarm designated for each of the plurality of areas.
According to various embodiments, the processor may automatically detect at least one region to be monitored based on the region analysis to be monitored, and may display the automatically detected region to be selectable.
According to various embodiments, when the sensor information is received from the monitoring device, the processor is configured to attempt a call connection to another electronic device or an external server designated according to the temperature state of the object detected in the sensor information, or to transmit a designated message .
According to various embodiments, the processor may determine a location of an object based on sensor information provided by the monitoring device, configure a cleaning map such that at least some areas where the object is located are an intensive cleaning area or a final cleaning area, And to transmit the cleaning map to the cleaning device.
FIG. 6A is a view for explaining a monitoring operation method related to a danger guidance according to an embodiment of the present invention. FIG.
Referring to FIG. 6A, in connection with the monitoring operation method relating to the danger guidance, at operation 601, the sensor processor 260 of the monitoring device 201 can perform a sensing operation. For example, the processor 260 for a sensor can activate a thermal image sensor or thermal imager and collect sensor information (e.g., thermal image information) at specified intervals or in real time. The sensing operation of the processor 260 for the sensor may be performed corresponding to, for example, a request of a specified monitoring device, a request of the electronic device 100, or a set scheduling information or a user input.
At operation 603, the sensor processor 260 may perform an information analysis of the collected sensor information. For example, the sensor processor 260 may perform the object detection based on the collected sensor information. In this regard, the sensor processor 260 may determine an object of a predetermined temperature or higher as a designated object based on the acquired thermal image information. Alternatively, when the size of the object having the specified temperature value belongs to the designated size category, the sensor processor 260 can determine the object as the designated object. Alternatively, the processor 260 for the sensor can determine the designated movable external device as a designated object.
Based on the sensor information analysis, at operation 605, the sensor processor 260 may verify that the specified object has entered the designated area. If the designated object does not enter the designated area, the sensor processor 260 may omit the operation 607 below. If the designated object enters the designated area, at operation 607, the sensor processor 260 may perform a danger guiding operation. For example, the sensor processor 260 may control at least one of illuminance, color, and flashing pattern of the illumination device included in the monitoring device 201, or output audio information designated through the audio device. Alternatively, the sensor processor 260 may transmit the designated message to the electronic device 100 or the like. The sensor processor 260 may terminate the danger guiding operation when the designated object deviates from the designated area.
In operation 609, the processor for the sensor 260 can check whether there is an event related to the management termination. If there is no event related to the management end, the sensor processor 260 branches to the operation 601 and can re-execute the following operation.
6B is a diagram illustrating an example of a monitoring system 10 in connection with a risk guidance in accordance with an embodiment of the present invention.
Referring to FIG. 6B, a monitoring system 10 related to a risk guide according to an embodiment may include a monitoring device 201, an object 301, and an external electronic device 401.
The external electronic device 401 may be a device disposed in an area monitored by the monitoring device 201. [ The external electronic device 401 may be, for example, a cooking device that operates at a predetermined temperature or generates heat according to use. Alternatively, the external electronic device 401 may be a heater device for generating heat. Alternatively, the external electronic device 401 may be a washing machine or a washing machine, a vehicle, or the like.
The object 301 may have a certain temperature (e.g., body temperature) and may move through a certain area using a moving means (e.g., an arm, a leg, etc.). According to one embodiment, the object 301 may enter a management area monitored by the monitoring device 201. [ The management area may be, for example, a kitchen having a cooking utensil or the like, an area provided with a laundry room, a tool box or the like, a porch capable of entering and exiting the outside, a veranda or a garage capable of falling, and the like.
The monitoring device 201 can determine the access of the object 301 specified in the management area (e.g., kitchen, laundry room, tool room, porch, veranda, etc.) based on the thermal image information collected at a certain period or in real time. Alternatively, the monitoring device 201 may include a proximity sensor and may determine access of the designated object 301. [ Alternatively, the monitoring device 201 can determine the access of the designated object 301 using the thermal image sensor and the proximity sensor. The monitoring device 201 can output the danger guidance information when the designated object 301 enters the management area. For example, the monitoring apparatus 201 can output the specified danger guidance information using at least one of the lighting apparatus and the audio apparatus. Alternatively, the monitoring device 201 may output the danger guidance information when the object 301 has stayed in the area for a specified time or more or when the object 301 has entered the center of the area. The monitoring device 201 may output different risk information according to a position (e.g., a contour or a center or a position adjacent to a specific external electronic device) in the management area of the object 301. [
According to various embodiments, the monitoring device 201 may execute the access determination and risk guidance functions of the object 301 when the external electronic device 401 is executing a specific function. Alternatively, the monitoring device 201 can perform the function control of the external electronic device 401 when the designated object 301 enters the management area. For example, the monitoring device 201 may control to turn off the external electronic device 401.
7A is a view for explaining a monitoring operation method related to a specified temperature according to an embodiment of the present invention.
Referring to FIG. 7A, in relation to the monitoring operation method according to one embodiment, at operation 701, the sensor processor 260 controls the thermal image sensor 210 according to a specified period or in real time to perform sensing, Sensor information can be collected. At act 703, the sensor processor 260 may perform the received sensor information analysis. For example, the sensor processor 260 can check whether a specific object (an object corresponding to an object having a temperature set by the management reference value) is within the management area. If a particular object is within the management area, the sensor processor 260 may collect temperature information associated with the specified object. The designated object may include, for example, a human body having a certain temperature and size. In addition, the designated object may be at least one external electronic device installed in the management area managed by the monitoring device 201. [ Or the designated object may include a designated partial area (e.g., a window, a door, a vent, etc.) in the management area.
At act 705, the processor for sensors 260 may determine if the temperature of the specified object is above a reference value. If the temperature of the specified object is below the reference value, then operation 707 may be skipped. If the temperature of the designated object is greater than or equal to the reference value, then at act 707, the sensor processor 260 may perform temperature guidance or function control. For example, the sensor processor 260 may transmit guidance information on the temperature state to another monitoring device or the electronic device 100 if the designated object is equal to or greater than a reference value. Alternatively, the processor for sensors 260 may control the execution of at least one of the external electronic devices if the specified object is greater than or equal to a reference value.
In operation 709, the processor for the sensor 260 can check whether an event related to the management termination occurs. If there is no event related to the end of management, the sensor processor 260 branches to the operation 701 and can re-execute the following operation.
According to various embodiments, at operation 705, the processor for sensors 260 may determine if the temperature of the specified object is below a reference value. The sensor processor 260 may perform temperature guidance or function control when the temperature of the specified object is below a reference value. The sensor processor 260 may be configured to skip operation 707 if the temperature of the specified object is above a reference value.
According to one embodiment, the sensor processor 260 can perform detection of an overheat state in which the temperature of the cooker or the like is higher than a predetermined temperature, based on the temperature sensing of the above-described object. Alternatively, the sensor processor 260 may guide a situation where a specified object is out of a set temperature range, or may guide a situation where a specified object reaches a set temperature range. For example, the sensor processor 260 guides the baby's body temperature to a predetermined temperature so that the baby's health can be properly managed. Alternatively, the sensor processor 260 may be used when an object such as food, water, or milk reaches a specified temperature. Alternatively, the sensor processor 260 may open a window or a door so that the sensor processor 260 can indicate whether a process for the heat insulation state is necessary.
7B is a diagram illustrating a monitoring system related to temperature guidance according to an embodiment of the present invention.
Referring to FIG. 7B, the monitoring system 10 may include a first monitoring device 201, a first object 301, a second monitoring device 202, or an electronic device 100.
The first object 301 may include, for example, a human body (e.g., a baby) having a specified temperature value (e.g., body temperature). The first object 301 may be located in a management area managed by the monitoring device 201. [ The management area may be, for example, a sleeping room. Alternatively, the management area may be a play room.
The first monitoring device 201 may be disposed in the management area described above. The first monitoring device 201 may be disposed in at least one of the above-described management areas (e.g., a sleeping room or a playroom) to monitor the management area at a specified period or in real time. Also, the first monitoring device 201 can analyze the monitoring result (e.g., thermal image information) at a predetermined period or in real time. The first monitoring device 201 can check whether the temperature of the first object 301 is higher than a reference value (e.g., a high temperature state due to body heat) according to a result analysis. The first monitoring device 201 can output temperature guidance information if the temperature of the first object 301 is equal to or higher than the reference value. For example, the first monitoring device 201 can output the specified temperature guidance information using at least one of the lighting device and the audio device. The first monitoring device 201 can output different temperature guidance information according to the temperature magnitude of the first object 301. [ For example, when the temperature of the designated first object 301 is at the first temperature, the first monitoring device 201 may display the first type of information (e.g., first degree of illumination, first Color, first blink pattern, audio information of the first content). Alternatively, if the temperature of the designated first object 301 is at the second temperature, the first monitoring device 201 may display the second type of information (e.g., a second size different from the first size, The second blinking pattern system different from the first blinking pattern, and the audio information of the second content different from the first content).
According to various embodiments, the first monitoring device 201 may transmit temperature guidance information to the second monitoring device 202 or the electronic device 100. In this operation, the first monitoring device 201 may request the second monitoring device 202 to locate a specific object (e.g., an adult) and output the temperature guidance information to the second monitoring device 202. [ When the second monitoring device 202 receives the temperature guidance information from the first monitoring device 201, the second monitoring device 202 can output the corresponding information according to the designated method. For example, the second monitoring device 202 may output at least one of the illuminance, color, and flashing pattern of the lighting device depending on the temperature magnitude (e.g., the size of the body temperature value of the first object 301).
When receiving the temperature guidance information from the first monitoring device 201, the electronic device 100 can process the output of the corresponding information. For example, the electronic device 100 can convert temperature guidance information into designated audio information and output it. Alternatively, the electronic device 100 may output an image or text corresponding to temperature guidance information to the display. Alternatively, the electronic device 100 forms a communication channel with a specified external server (e.g., a police agency server, a fire server, etc.) and can automatically transmit the danger guidance information.
7C is a diagram illustrating a monitoring system in connection with functional control according to an embodiment of the present invention.
Referring to FIG. 7C, the monitoring system 10 may include a monitoring device 201, a second object 302, and an external electronic device 401.
The second object 302 may be, for example, at least one external electronic device or partial area disposed within the management area monitored by the monitoring device 201. [ For example, the second object 302 may be a washing machine. Alternatively, the second object 302 may be an edge area within the management area. According to various embodiments, the second object 302 may be a window or window pane within a management area, a door or door gap, vent, or the like.
The monitoring device 201 may collect sensor information on the management area and analyze the sensor information to check the status of the second object 302. [ For example, the monitoring device 201 can check if the second object 302 is in a leak state. Alternatively, the monitoring device 201 can check whether the object specified in the second object 302 is applied. Alternatively, the monitoring device 201 can check whether the state of the second object 302 is a door open state that affects the insulation. In this regard, the monitoring device 201 may analyze the thermal image information to analyze the distribution or flow of the liquid, or the air distribution or flow at a certain temperature. The monitoring device 201 outputs a designated alarm or outputs the designated alarm to the external electronic device 401 when the second object 302 is in a leak state, a specific liquid is applied to the second object 302, Control can be performed. For example, the monitoring device 201 may send a message to the external electronic device 401 that controls the external electronic device 401 to turn off. Alternatively, the monitoring device 201 may request an alarm output of the external electronic device 401 designated to output a specific message, in connection with the second object 302 state.
The external electronic device 401 may be turned off in response to the control of the monitoring device 201. [ Alternatively, the external electronic device 401 may output specific alarm information in response to the control of the monitoring device 201. [ According to various embodiments, the external electronic device 401 may receive the second object 302 status information from the monitoring device 201 and send the designated message to an external server associated with the processing of the second object 302 . For example, the external electronic device 401 may send a message requesting processing corresponding to the second object 302 to an external server. The external electronic device 401 can transmit the door lock release temporary key to the external server. The AS manager having the door lock releasing temporary key may visit the home or office disposed in the second object 302 and perform processing on the second object 302. [ At this time, the AS manager can visit the second object 302 using the door lock release temporary key even if there is no separate residence in the house or the office.
When the abnormal state for the second object 302 is released (for example, the temperature is changed to a temperature within a specified range or below a specified reference value), the monitoring device 201 transmits the information to the designated electronic device 100 Can guide. In addition, when the AS manager visits the home or office, the monitoring device 201 can guide the position where the second object 302 is disposed by using the lighting device or the audio device. For example, the monitoring device 201 at the position where the second object 302 is disposed may operate in a designated flashing pattern.
FIG. 8 is a diagram illustrating a temperature guide screen associated with an electronic device according to an exemplary embodiment of the present invention. Referring to FIG.
8, the display 140 of the electronic device 100 may include an information area 810, a temperature guidance area 820, a history area 830 in relation to the monitored area, as in the state 801 have. The information area 810 may display name information corresponding to an area where the monitoring device is disposed. The electronic device 100 may randomly select the name information, display it according to user input, or select one of the specified names stored in memory 120.
The temperature guidance area 820 can be displayed, for example, with respect to a specified object. The image associated with the specified object may vary depending on the type of object detected by the monitoring device. Also, the temperature guide area 820 can display temperature information of the designated object. The temperature information of the specified object can be changed according to the temperature information collected by the monitoring device.
The history area 830 may display the temperature information obtained during the designated time in the designated time image. For example, the history area 830 may display a graph corresponding to temperature change information of a designated object. According to various embodiments, the history area 830 may display a list of temperature change information of a specified object corresponding to a certain time unit. According to various embodiments, the history area 830 may display the lowest or highest temperature information of a designated object.
As in state 803, the electronic device 100 may display the changed temperature information in the temperature guidance area 820 when a temperature change of the designated object occurs. Also, the history area 830 may display information including the latest temperature information of the designated object. According to various embodiments, the electronic device 100 may output designated alarm information if the temperature of the designated object is greater than or equal to a reference value. For example, the electronic device 100 may output a screen flicker of the display 140, or a warning alarm message (e.g., a visual message or an audio message). Further, the electronic device 100 may output the vibration pattern specified in correspondence with the temperature value detection above the reference value.
9 is a diagram illustrating a monitoring operation method related to an intrusion guidance according to an embodiment of the present invention.
Referring to FIG. 9, in connection with the intrusion-guided monitoring operation method according to one embodiment, at operation 901, the sensor processor 260 may perform a sensing operation. For example, the processor 260 for a sensor may activate a thermal image sensor or thermal imager and collect sensor information according to a specified period or in real time. At act 903, the sensor processor 260 may perform an information analysis of the collected sensor information. For example, the sensor processor 260 may perform specific object detection based on the collected sensor information.
In operation 905, the sensor processor 260 can check whether the movement pattern of the object is different from the specified condition. If the movement pattern of the object is the same as the specified condition, the following operation 907 can be omitted. If the movement pattern of the object is different from the specified condition, at operation 907, the sensor processor 260 may process the intrusion notification. For example, the sensor processor 260 can confirm the identity of the moving pattern of the object with the designated moving pattern. In this regard, the sensor processor 260 can store and manage the designated movement pattern in the sensor memory. The sensor processor 260 can determine the movement pattern of an object other than the movement pattern of the specified object (e.g., an intruder) when the coincidence range of the movement pattern is less than the reference value. For example, the sensor processor 260 may control the lighting device based on at least one of the illuminance, color, and flashing pattern specified in connection with the intrusion guidance. Alternatively, the sensor processor 260 may output the specified intrusion guidance information as audio using the audio device. According to various implementations, the processor 260 for sensors may communicate intrusion guidance to the electronic device 100. The electronic device 100 receiving the intrusion guidance can output a screen including the intrusion guidance or output audio information. Alternatively, the electronic device 100 forms a communication channel with a designated external server (e.g., a police agency server, a fire station, etc.) and can automatically transmit intrusion guidance information.
At operation 909, the processor for the sensor 260 may check whether there is an event related to the management termination. The sensor processor 260 may branch back to the operation 901 and re-execute the following operation if no management termination related event occurs.
10A is a diagram illustrating a monitoring operation method related to external electronic device control according to an embodiment of the present invention.
Referring to FIG. 10A, in connection with an external electronic device-related monitoring method, in operation 1001, a processor 260 for a sensor may perform a sensing operation. For example, the processor 260 for a sensor may activate a thermal image sensor or thermal imager and collect sensor information according to a specified period or in real time. At operation 1003, the sensor processor 260 may perform an information analysis of the collected sensor information. For example, the sensor processor 260 may perform external electronic device-related object detection based on the collected sensor information.
At operation 1005, the sensor processor 260 can check whether the temperature of the external electronic device is different from the specified condition. If the temperature of the external electronic device is equal to the specified condition, the sensor processor 260 may omit the operation 1007 below. For example, the sensor processor 260 may omit operation 1007 if the operating temperature of the external electronic device is within the specified temperature range.
If the temperature of the external electronic device is different from the specified temperature condition, then at operation 1009, the processor for sensors 260 may determine the operating state of the external electronic device, the operating state of the external electronic device 401, You can do one. For example, when the operating temperature of the external electronic device deviates from the specified temperature range, the processor 260 for the sensor can output guidance information on the failure of the external electronic device in a specified form. Alternatively, the processor 260 for the sensor can control to stop the operation when the external electronic device is in operation. Alternatively, the processor 260 for the sensor may control the execution of a specified function of another designated external electronic device. The processor 260 for the sensors can perform different illuminator controls with respect to operation status guidance, operation control or operation control of other external electronic devices, and the like. For example, the processor 260 for a sensor may perform illuminator control based on at least one of illuminance of a first size, a first color, and a first blink pattern in association with the operating state guidance. The sensor processor 260 may be configured to control the illumination of the illuminating device 260 based on at least one of illuminance of a second size different from the first size, a second color different from the first color, a second blinking pattern different from the first blinking pattern, Control can be performed.
In operation 1011, the processor for the sensor 260 can check whether there is an event related to the management termination. The sensor processor 260 may branch back to the operation 1001 and re-execute the following operation if no management termination related event occurs.
According to various embodiments, the processor 260 for sensors may send a message directed to a designated external server (e.g., an AS center) when an external electronic device fails or operates below a specified efficiency, Processing can be performed. Upon request for repair to the external server, the sensor processor 260 may issue a temporary key to temporarily open the door device and provide the temporary key to the external server. In addition, the sensor processor 260 can control the output of the designated audio information or the designated illuminator light emission for notification of the position of the external electronic device to be repaired, when the door device is opened with the designated temporary key.
10B is a diagram illustrating a monitoring system in connection with an external electronic device status guidance according to an embodiment of the present invention.
10B, the monitoring system 10 includes a first external electronic device 401, a first monitoring device 201, a second monitoring device 202, at least one second external electronic device 402, .
The first external electronic device 401 may be placed in a management area monitored by the first monitoring device 201. [ The first external electronic device 401 may be, for example, a device operating within a certain temperature range using the supplied power source. According to one embodiment, the first external electronic device 401 operates normally in the first temperature range, and may have an abnormal condition if out of the first temperature range.
The first monitoring device 201 is arranged to monitor a designated management area. For example, the first monitoring device 201 may be arranged to collect sensor information for at least some areas in which the first external electronic device 401 is located. The first monitoring device 201 may collect sensor information related to the first external electronic device 401 in response to a specified period or real time, or an external request. The first monitoring device 201 may collect the temperature information of the first external electronic device 401 by analyzing the collected sensor information.
The first monitoring device 201 can check whether the collected temperature information is within the temperature range related to the designated normal operation. When the first monitoring device 201 is in the normal operating temperature range, the first monitoring device 201 may not output guidance information related to the normal operation, or may control the light of illumination, color, and flashing pattern of the first size to be irradiated. Alternatively, when the first external device 401 is determined to be in a normal operation state, the first monitoring device 201 may omit the separate guidance information output.
When the first external device 401 is in the temperature range corresponding to the abnormal operation, the first monitoring device 201 outputs the corresponding guide information (for example, the illuminance of the second size, color, Light irradiation) can be controlled. Alternatively, the first monitoring device 201 may send information to the second monitoring device 202 or at least one second external electronic device 402 to guide the abnormal operation.
The first monitoring device 201 can store information on the normal operating temperature range of the first external electronic device 401 in the memory for the sensor in relation to the operation state determination of the first external electronic device 401 described above have. Alternatively, the first monitoring device 201 may receive information on the temperature range from the electronic device 100 or the like. Also, the first monitoring device 201 may store guidance information or function execution information to be performed in a normal operation range or an abnormal operation range in a memory for a sensor.
According to various embodiments, the first monitoring device 201 may include at least one microphone. The first monitoring device 201 may collect an audio signal according to the operation of the first external electronic device 401. The first monitoring device 201 may determine whether the collected audio signal is an audio signal corresponding to a designated normal operation category or an audio signal corresponding to an abnormal operation state. In this regard, the first monitoring device 201 stores the audio signal reference value in the normal operation state of the first external electronic device 401 and the audio signal reference value in the abnormal operation state in the memory for the sensor .
When the second monitoring device 202 receives the guidance information related to the abnormal operation state of the first external device 401 from the first monitoring device 201, the second monitoring device 202 can output the designated guidance information corresponding thereto. For example, the second monitoring device 202 can perform illumination illumination or audio information output corresponding to the guidance information using at least one of the illumination device or the audio device. According to one embodiment, the second monitoring device 202 may be a monitoring device in a management area where a specified object (e.g., a resident who lives in a house or office) is located. The second monitoring device 202 can transmit the detection of the object to the first monitoring device 201 when a specified object is detected according to the request of the first monitoring device 201 or during the detection of the object at a specified period or in real time. The first monitoring device 201 may request confirmation of whether there is object detection specified in the peripheral monitoring device for object detection if the first external electronic device 401 is in an abnormal operating state.
The at least one second external electronic device 402 may be an apparatus including an output device capable of outputting guidance information corresponding to a normal operation state or an abnormal operation state of the first external electronic device 401. For example, the second external electronic device 402 may include a display, an audio device, or the like capable of displaying guidance information. The second external electronic device 402 may form a communication channel with the first monitoring device 201 or the second monitoring device 202. When the second external electronic device 402 receives the guidance information from the first monitoring device 201 or the second monitoring device 202, the second external electronic device 402 can output the guidance information according to the designated method. According to one embodiment, the second external electronic device 402 may be a device located in an area where the designated object is located. According to one embodiment, the second external electronic device 402 can receive and output the guidance information from the second monitoring device 202 in the management area that has detected the specified object.
10C is a diagram of a monitoring system associated with external electronic device control in accordance with an embodiment of the present invention.
Referring to FIG. 10C, the monitoring system 10 may include a first external electronic device 401, a monitoring device 201, and a second external electronic device 402.
The first external electronic device 401 may be, for example, a device capable of changing the ambient temperature. Alternatively, the first external electronic device 401 may be a device capable of changing the ambient air pollution degree. For example, the first external electronic device 401 may be a cooking device such as an oven.
The monitoring device 201 may include an environmental sensor including a temperature / humidity sensor, a gas sensor, a dust sensor, and the like. The monitoring device 201 may collect sensor information on the environment of the first external electronic device 401 located in the management area using the environmental sensor. For example, the monitoring device 201 can detect air pollution, humidity, turbidity, etc. in the periphery of the first external electronic device 401. The monitoring device 201 may determine that the ambient conditions of the second external electronic device 402 associated with the air circulation are within a predetermined range if the peripheral condition of the first external electronic device 401 is greater than or equal to a specified reference value (e.g., Control information can be generated. The monitoring device 201 may communicate control information to the second external electronic device 402. [ The monitoring device 201 may generate and transmit other control information to the second external electronic device 402 depending on the size of the air pollution degree and the like. The monitoring device 201 may send a steady state message to the second external electronic device 402 if the peripheral portion of the first external electronic device 401 is changed and determined to be in the designated steady state category.
When the second external electronic device 402 receives the control information from the monitoring device 201, the second external electronic device 402 can perform a designated function based on the received control information. For example, the second external electronic device 402 may perform an air circulation function (or air purifying function) according to the received control information. Alternatively, when the second external electronic device 402 receives the control information related to the humidity control from the monitoring device 201, the second external electronic device 402 can perform the humidification control. The second external electronic device 402 may stop the function being performed upon receiving a steady state message for the periphery of the first external electronic device 401 from the monitoring device 201. [
11A is a diagram illustrating a monitoring operation method related to a usage pattern according to an embodiment of the present invention.
Referring to FIG. 11A, in connection with the monitoring operation method relating to the usage pattern according to one embodiment, as in the operation 1001 and the operation 1003 described above, in the operation 1101, the sensor processor 260 performs the sensing operation, Information analysis of the sensor information collected at 1103 can be performed. For example, the sensor processor 260 may collect a movement pattern of a specified object (e.g., an object at a certain temperature or higher) based on the collected sensor information.
At operation 1105, the processor for sensors 260 may collect usage patterns of external electronic devices. For example, the processor 260 for a sensor may perform object detection corresponding to a specified object and an external electronic device in the management area. The sensor processor 260 may collect the behavioral changes of the external electronic device by the specified object. According to one embodiment, when the user opens the refrigerator door to use the refrigerator, a sudden temperature change may occur in at least a portion of the refrigerator. The processor 260 for sensors can cumulatively detect the above-described change in operation of the external electronic device to collect usage patterns of the external electronic device. Alternatively, the sensor processor 260 may determine that an external electronic device is used when the distance between the designated object and the external electronic device is within a specified distance, and collect usage patterns based on the determined state.
In operation 1107, the processor for sensor 260 can check whether the usage pattern of the collected external electronic device satisfies the setting condition. The setting condition may be a predetermined usage pattern, for example, with respect to use of the external electronic device. Alternatively, the setting condition may be a condition in which the external electronic device utilization pattern of the designated object is made uniform. Alternatively, the setting condition may include a previous external electronic device usage pattern of the specified object.
If the usage pattern of the external electronic device satisfies the setting condition, at the operation 1109, the sensor processor 260 can process the guidance or function execution according to the condition satisfaction. For example, the sensor processor 260 may determine that the designated object is normally using the external electronic device. Accordingly, the processor 260 for the sensor can illuminate the light of the illuminating device more brightly and help to use the external electronic device when the designated object comes close to the external electronic device. Alternatively, the sensor processor 260 may output a greeting or the like designated by using the audio device.
If the usage pattern of the external electronic device does not satisfy the setting condition, at the operation 1111, the sensor processor 260 may process the guidance according to the usage pattern or perform the second function. For example, when a usage pattern that is relatively smaller than a designated usage pattern is detected, the sensor processor 260 may output a message to the designated electronic device 100 to inquire about the user's abnormality. The electronic device 100 may output the anomaly message or may transmit the anomaly message to another designated electronic device in response to receiving the anomaly message. Alternatively, the sensor processor 260 may output a message asking for an abnormality through an audio device. When the sensor processor 260 detects a specified object in the management area within a designated time after outputting the message, the sensor processor 260 can stop outputting the audio / video message or stop operating the audio device.
Alternatively, when a usage pattern relatively larger than the designated usage pattern is detected, the sensor processor 260 may output guidance information to guide the use of the external electronic device. For example, the sensor processor 260 may reduce the illuminance or operate the illuminating device in a color or flashing pattern having a warning meaning when the designated object approaches the external electronic device. Alternatively, the processor 260 for the sensor may output audio information to guide the use of the external electronic device when the designated object approaches the external electronic device. Alternatively, the processor 260 for the sensor may send information relating to the use of the external electronic device to the designated electronic device 100. The control information, audio information, information transmitted to the electronic device 100, and the like related to the illumination device control described above can be stored and operated in advance in the memory for the sensor.
In operation 1113, the processor for the sensor 260 can check if there is an event related to the management termination. The sensor processor 260 may branch back to the operation 1101 and re-execute the following operation if no management termination related event occurs.
11B is a diagram illustrating a monitoring system related to a usage pattern of an external electronic device according to an embodiment of the present invention.
11B, the monitoring system 10 includes a first object 301, a first external electronic device 401, a first monitoring device 201, a second monitoring device 202, a second external electronic device 401, (402).
The first object 301 may be, for example, a user who can use the first external electronic device 401. The first object 301 may have a predetermined temperature (e.g., body temperature) and be movable. When the first object 301 enters the management area in which the first monitoring device 201 is located, it can be determined that the first object 301 uses the first external device 401. Alternatively, if the first object 301 is located within a specified distance from the first external electronic device 401, it can be determined that the first external electronic device 401 is used.
The first external electronic device 401 may be a device located in the management area in which the first monitoring device 201 is disposed. The first external electronic device 401 may be a device whose temperature is changed according to the use of the first object 301. For example, the first external electronic device 401 may be a refrigerator, a wine refrigerator, a TV, a computer, or the like.
The first monitoring device 201 may obtain information about the first external electronic device 401 located in the management area. For example, the first monitoring device 201 may collect the location and shape of the first external electronic device 401, the operating temperature range, etc., based on user input or based on thermal image information. The first monitoring device 201 can collect information on the frequency of use, the usage time, and the like of the first external electronic device 401 based on the temperature change due to door opening or the like of the first external electronic device 401 . According to various embodiments, the first monitoring device 201 may determine to use the first external electronic device 401 if the specified object 301 is adjacent within a distance specified for the first external electronic device 401 . Alternatively, the first monitoring device 201 may determine that the temperature of the first external electronic device 401 has changed (for example, when the temperature of the first external electronic device 401 is changed within a distance designated by the first external electronic device 401 Or when a TV or a computer monitor is turned on).
The first monitoring device 201 may collect usage patterns for the first external electronic device 401 for a specified period of time. Alternatively, the first monitoring device 201 may receive and store a usage pattern specified by the user input or from the electronic device 100 or the like. For example, the user can generate a usage pattern by writing the number of times of using the refrigerator by using the electronic device 100, the number of times of using the TV or the computer for a day, the use time and the number of times. The electronic device 100 may deliver the generated usage pattern to the first monitoring device 201. [ The first monitoring device 201 can confirm whether the usage pattern for the designated time is the same as or similar to the stored usage pattern. The first monitoring device 201 can control the designated first guidance information and the first function execution when the usage patterns are the same or similar. The first monitoring device 201 can control the designated second guide information and the second function execution when the usage pattern has a difference of not less than a specified reference value. The first guidance information and the first function execution may correspond to the execution of the information or the function to encourage the use of the first external electronic device 401 or to guide it to the normal use state. The second guidance information and the second function execution may be encouraged to reduce the use of the first external electronic device 401 or may correspond to an information or function execution to guide the abnormal use state.
The second monitoring device 202 may form a communication channel with, for example, the first monitoring device 201 and receive the guidance information or function execution information designated from the first monitoring device 201. [ The second monitoring device 202 may control the lighting device corresponding to the received guidance information or function execution information or audio information output control of the audio device. According to various embodiments, the second monitoring device 202 may perform another object detection and may communicate to the first monitoring device 201 whether there is another object detected. The first monitoring device 201 may transmit the guidance information or the function execution information to the second monitoring device 202 where another object is detected. Based on this, the parent or spouse related to the user can obtain information on the usage pattern of the user.
The second external electronic device 402 may receive the guidance information or function execution information from the first monitoring device 201, the second monitoring device 202, or the electronic device. The second external electronic device 402 may be a device including a display or an audio device. For example, the second external electronic device 402 may be a TV. When the guide information is received, the second external electronic device 402 may output a screen or a popup message corresponding to the guide information.
12A is a diagram illustrating a monitoring operation method related to a type of an external electronic device according to an embodiment of the present invention.
Referring to FIG. 12A, with respect to the monitoring and operating method relating to the type of external electronic device according to an embodiment, as in the operations 1101 and 1103 described above, in the operation 1201, the sensor processor 260 performs a sensing operation , And analyze information on the sensor information collected in operation 1203. According to one embodiment, the sensor processor 260 can determine what state the external electronic device is currently in. For example, the sensor processor 260 can confirm whether the door of the refrigerator is opened or the door is closed, through thermal image information. Alternatively, the sensor processor 260 can check whether the TV is on or closed, based on the temperature change detected in the monitor.
At operation 1205, the sensor processor 260 may determine the type of external electronic device based on the information analysis. For example, the sensor processor 260 may determine the type of a refrigerator, a TV, a cooking device, or the like based on temperature information of an external electronic device. According to various embodiments, the type information of the external electronic device can be stored in advance in the memory for the sensor. Or the type information of the external electronic device can be received from the electronic device 100 or the like. In this case, operation 1205 may be omitted.
At operation 1207, the sensor processor 260 may check the conditions established according to the type of external electronic device. In this regard, the sensor processor 260 may store a list or a table in which setting conditions are recorded according to the type of the external electronic device, in the memory for the sensor. The list or table may be input at the time of manufacturing the monitoring device or may be received from the electronic device 100 or the like.
At operation 1209, the sensor processor 260 may verify that the information analysis result meets the checked condition. For example, the sensor processor 260 can confirm whether or not the door of the refrigerator is maintained for the specified time or longer, according to the setting condition. Or whether the TV is on for a specified period of time or after a specified period of time.
If the information analysis result does not satisfy the checked condition, the sensor processor 260 may skip operation 1211. [ If the information analysis result satisfies the identified condition, then the sensor processor 260 may process the state guidance or related function control at operation 1211. For example, the sensor processor 260 may output designated state guidance information when the door open state of the refrigerator is maintained for a specified time or more. Or the sensor processor 260 may output the specified status guidance information or transmit the TV turn-off command to the TV when the TV on state is maintained for a specified time or more. The status guidance information may include illumination device control or audio information output for guiding the occurrence of an abnormal state of the external electronic device.
In operation 1213, the processor for the sensor 260 may check whether there is an event related to the management termination. The sensor processor 260 may branch back to the operation 1201 and re-execute the following operation if no management termination related event occurs.
Figure 12B illustrates a monitoring system in connection with operating a first type of external electronics device in accordance with an embodiment of the present invention.
12B, the monitoring system 10 includes a first external electronic device 401 of a first type, a first monitoring device 201, at least one second external electronic device 402 of a second type, A second monitoring device 202 may be included.
The first external electronic device 401 may be, for example, a device located in the management area of the first monitoring device 201. [ The first external electronic device 401 may be a device (for example, a refrigerator, a TV, or the like) whose temperature is changed according to an operating state.
The first monitoring device 201 may monitor the first external electronic device 401 and determine whether a temperature change of the first external electronic device 401 occurs. The first monitoring device 201 can check the type of the first external electronic device 401 and confirm the setting information related to the first external electronic device 401 that has been confirmed. In this regard, the first monitoring device 201 can store and manage the setting information in the sensor memory. The first monitoring device 201 can confirm the setting information and the temperature change of the first external electronic device 401 to determine guidance information or function execution information to be output in association with the first external electronic device 401. [ Or the first monitoring device 201 may omit the separate guidance information output or function control when the temperature change of the first external electronic device 401 belongs to the normal state category. The setting information is generated through the monitoring setting UI of the electronic device 100 described above, and the electronic device 100 can transmit the setting information to the first monitoring device 201. [
According to various embodiments, the first monitoring device 201 can detect a temperature change according to the door open state when the first external electronic device 401 is a refrigerator. The first monitoring device 201 can perform the designated guidance information output when the temperature change is maintained for a specified time or longer (for example, when the state of the specified temperature or lower is detected for a predetermined time or longer because the refrigerator door is not closed). In this operation, the first monitoring device 201 may forward the guidance information to the at least one second external electronic device 402. Alternatively, the first monitoring device 201 may detect a temperature change in accordance with the display on or off state of the first external electronic device 401 if the first external electronic device 401 is a smart phone or a tablet PC . When the temperature state corresponding to the ON state is maintained for a certain period of time, the first monitoring device 201 can output the designated guidance information or deliver it to the at least one second external electronic device 402. According to various embodiments, the first monitoring device 201 may be configured to retrieve a second monitoring device 202 having a specified object (e.g., another user located in the management areas managed by the monitoring device group) can do. The first monitoring device 201 may transmit the guidance information to at least one second monitoring device 202.
The at least one second external electronic device 402 may be, for example, a user peripheral device. For example, the second external electronic device 402 may include a camera device, and may be a device capable of verifying whether a specified object exists through a peripheral search. Or the second external electronic device 402 may be an apparatus including information output means (e.g., a display, an audio device, a lamp, etc.). When the second external electronic device 402 receives the guidance information from the first monitoring device 201 or the second monitoring device 202, the second external electronic device 402 performs guidance information processing (e.g., outputting on the display screen, Information can be output, or the lamp can be controlled with a designated color or flashing pattern). In this regard, the second external electronic device 402 can store and manage the output information mapped to the guidance information received from the first monitoring device 201 or the second monitoring device 202. [ When the guidance information is received, the second external electronic device 402 can confirm the output information to be mapped and output it via a display, an audio device, a lamp, or the like according to the method written in the output information.
The second monitoring device 202 can check whether the designated object is located in the management area in accordance with the specified period or real time or the first monitoring device 201 request. When the designated object is located in the management area, the second monitoring device 202 may transmit the information to the first monitoring device 201. [ The second monitoring device 202 receives guidance information from the first monitoring device 201 (for example, guidance information on an abnormality in the refrigerator door open state, guide information on a state in which a TV on state has elapsed, Guidance information on a state in which the turned-on state of the phone has passed a designated time, and the like). The second monitoring device 202 may perform control of at least one of the lighting device or the audio device in response to the received guidance information.
12C is a diagram illustrating a monitoring system associated with a second type of external electronic device operation in accordance with an embodiment of the present invention.
12C, the monitoring system 10 includes a first external electronic device 401, a first monitoring device 201, a second monitoring device 202 or a second external electronic device 402 of a second type, . ≪ / RTI >
The first external electronic device 401 may be a device (e.g., a cooking device) in which at least one of the apparatus temperature or the ambient temperature is changed according to an operation. The first external electronic device 401 may be disposed in the management area monitored by the first monitoring device 201. [ The first external electronic device 401 can operate according to user operation or according to the set schedule information.
The first monitoring device 201 may monitor a management area including an area where the first external electronic device 401 is disposed. The first monitoring device 201 can output guidance information related to the first external electronic device 401 when the ambient temperature of the first external electronic device 401 is changed to be equal to or greater than the reference value. Alternatively, the first monitoring device 201 may monitor the status information of the first external electronic device 401 (e.g., the current temperature information, the time information of the operation of the first external electronic device 401, 401) can be collected. The first monitoring device 201 may transmit the collected status information to the second monitoring device 202 or the second external device 402. [ In the above-described operation control, the first monitoring device 201 can confirm the setting information stored in association with the first external electronic device 401. [ The setting information may include a to-do list to be performed according to the temperature of the first external electronic device 401 or the ambient temperature. The setting information may be generated or updated based on, for example, the monitoring setting UI of the electronic device 100 described in FIG. 5 and the like, and the first monitoring device 201 may receive the setting information from the electronic device 100.
Referring to the to-do list, the first monitoring device 201 directly outputs guidance information corresponding thereto if the first external electronic device 401 is in a first temperature state (for example, at least one of a lighting device or an audio device Can be controlled. Alternatively, the first monitoring device 201 may transmit the designated guidance information to the second monitoring device 202 or the second external electronic device 402 when the first external electronic device 401 is in the second temperature state. Alternatively, the first monitoring device 201 may transmit the designated guidance information to the electronic device 100 or a designated external server when the first external electronic device 401 is in the third temperature state. According to various embodiments, the first monitoring device 201 is connected to the second monitoring device 202 (e.g., a monitoring device associated with the management area in which the specified object is currently located) for each of the temperature states of the first external electronic device 401 It may transmit the designated first guide information or transmit the second guide information assigned to all the monitoring devices belonging to the monitoring device group. According to various embodiments, the first monitoring device 201 may transmit the guidance information to the designated electronic device if a specified object (e.g., the first external electronic device 401 user) is not detected within the monitoring device group.
When the second monitoring device 202 receives the guidance information from the first monitoring device 201, the second monitoring device 202 can output the received guidance information according to the designated manner. The second monitoring device 202 may be, for example, a monitoring device related to the area in which the specified object is currently located.
The second external electronic device 402 may output the guidance information received from the first monitoring device 201 using at least one of the output devices held by the second external electronic device 402. For example, when the second external electronic device 402 includes a display and an audio device, it may output at least one of an image corresponding to the guide information, a text screen, or audio information.
12D is a diagram illustrating a monitoring system associated with operating a third type of external electronics device in accordance with an embodiment of the present invention.
Referring to FIG. 12D, the monitoring system 10 may include a first external electronic device 401 of a third type, a monitoring device 201, or an external server 1200.
The first external electronic device 401 of the third kind may be, for example, a household electrical appliance. The first external electronic device 401 may be located within the management area monitored by the monitoring device 201. [ The first external electronic device 401 may have different operating temperature values for the normal operation state and the abnormal operation state.
The monitoring device 201 may collect temperature information according to the operating state of the first external electronic device 401. The monitoring device 201 can check whether the first external electronic device 401 is operating normally or the first external electronic device 401 is in a degraded state based on the temperature information. For example, when the operating temperature of the first external electronic device 401 exceeds a predetermined range (e.g., the setting information related to the predetermined range is stored and managed in the storage area of the monitoring device 201) , It can be determined that the first external electronic device 401 is in an abnormal state or an error state in which the predetermined constant efficiency can not be obtained. The setting information may be set based on the monitoring setting UI of the electronic device 100. [ The monitoring device 201 may receive the setting information from the electronic device 100. [
According to various embodiments, the monitoring device 201 may determine if an abnormality has occurred in the first external electronic device 401 based on the failure table. The failure table may be a table indicating a failure location or a failure state according to the temperature state of the first external electronic device 401. The monitoring device 201 can transmit information on the cause of the failure of the first external electronic device 401 to the designated external server 1200. [ In this operation, the monitoring device 201 can access the external server 1200 related to the first external electronic device 401 using the Internet network based on the Wi-Fi communication module.
According to various embodiments, the monitoring device 201 may transmit identification information and failure cause information associated with the first external electronic device 401 to the external server 1200. [ In this regard, the monitoring device 201 may acquire the device identification information of the first external electronic device 401 from the first external electronic device 401, or acquire it from the first external electronic device 401 can do. Alternatively, the monitoring device 201 may transmit information about the cause of the failure of the first external electronic device 401 to the electronic device 100, and may transmit the electronic device 100 to the external server 1200. The monitoring device 201 can automatically request a home service related to the failure cause process to the external server 1200. [ When the monitoring apparatus 201 receives home service information (e.g., information on an article visit schedule and purpose, etc.) from the external server 1200, the monitoring apparatus 201 can transmit the home service information to the electronic device or other external electronic device.
The external server 1200 may communicate with the monitoring device 201 and receive failure source information and identification information of the first external electronic device 401 from the monitoring device 201. The external server 1200 can generate and transmit the home service information related to the failure processing of the first external electronic device 401 to the monitoring apparatus 201. [ Alternatively, the external server 1200 may send home service information to the electronic device 100 registered with the monitoring device 201. [
13A is a view for explaining a monitoring operation method related to a cleaning function according to an embodiment of the present invention.
Referring to FIG. 13A, in operation 1301, a plurality of monitoring devices belonging to a monitoring device group can perform a sensing operation for each area in connection with the cleaning operation related monitoring operation method according to an embodiment.
In operation 1303, an electronic device 100 (hereinafter referred to as a designated monitoring device reference description) that processes sensor information provided by a monitoring device group or a monitoring device group, among the monitoring device groups, . In this regard, the designated monitoring device of the monitoring device can receive information on the existence of the object from the entire monitoring device. The specified monitoring device can configure a cleaning map to clean up areas that do not have objects first. In connection with the cleaning map generation, the designated monitoring device 201 can store and manage map information for the area to be cleaned. The designated monitoring device can configure a cleaning map to minimize the movement of the cleaning device during cleaning map configuration. For example, the designated monitoring device can be set so that the zone in the minimum distance among the positions adjacent to the current position of the cleaning apparatus is the next cleaning zone. Alternatively, the specified monitoring device can configure the cleaning map such that the area where the designated object exists in the entire cleaning area becomes the last area, and the moving line moving through the remaining areas becomes the minimum. If the designated monitoring device has more than one zone in which the object exists, a cleaning map can be configured to clean the zone from a small number of objects. According to various embodiments, the cleaning map may be generated based on the monitoring setting UI of the electronic device 100. [ The monitoring device may receive the cleaning map from the electronic device 100.
In operation 1305, the designated monitoring device can perform a cleaning execution request. For example, the designated monitoring device can deliver the created cleaning map and the cleaning start request message to the cleaning device. In this regard, the cleaning device may include a communication module capable of communicating with the monitoring device, a memory for storing the received cleaning map, and a processor for processing to perform cleaning according to the cleaning map.
In operation 1307, the specified monitoring device can confirm that the designated object is moving. If there is no movement of the designated object, the designated monitoring apparatus can skip operation 1309 and operation 1311 below. If movement of the designated object occurs, at operation 1309, the designated monitoring device may perform a cleaning map update. For example, a designated monitoring device may reconfigure a cleaning map to first clean areas that do not have a specified object.
If movement of the designated object has occurred, at operation 1311, the specified monitoring device may request to perform cleaning, based on the updated cleaning map. In this regard, the designated monitoring device may send an updated cleaning map to the cleaning device. In operation 1313, it is possible to check whether there is an occurrence of an event related to completion of cleaning. If there is no occurrence of an event related to the completion of the cleaning, the designated monitoring apparatus branches to operation 1307 and can re-execute the following operation.
13B is a diagram illustrating an example of a cleaning function related monitoring system according to an embodiment of the present invention.
Referring to FIG. 13B, the monitoring system 10 may include an object 301, at least one monitoring device 201, and a cleaning device 401.
The object 301 may, for example, have a certain temperature and correspond to a movable object. For example, the object 301 may be an animal. The object 301 may move a management area in which at least one monitoring device 201 is located.
The at least one monitoring device 201 may perform monitoring for a specified management area. The monitoring device 201 can detect the object 301 by analyzing the obtained sensor information. According to one embodiment, the monitoring device 201 can perform monitoring and detect the object 301 according to a specified period (e.g., a cleaning cycle). The monitoring device 201 performs monitoring in a designated cycle, but can perform real-time monitoring until completion of cleaning. Accordingly, when the object 301 moves, the monitoring apparatus 201 can collect position information of the moving object or the current object 301. [ The monitoring device 201 may configure a cleaning map based on the location information of the object 301. [ For example, the monitoring device 201 may collect movement lines of the object 301, and may generate a cleaning map including the moving lines of the object 301. In this case, the cleaning apparatus 401 can clean the area including at least the moving line of the object 301. When the object 301 continuously moves, the monitoring device 201 may configure a cleaning map to stop the cleaning at a point of time when the moving moving line is overlapped. The monitoring device 201 can transmit the generated cleaning map to the cleaning device 401. [
The cleaning device 401 may perform cleaning based on a cleaning map provided by the monitoring device 201. According to one embodiment, the cleaning device 401 may perform cleaning at a designated period. When the cleaning cycle arrives, the cleaning device 401 transmits the cleaning cycle to the monitoring device 201, and receives a cleaning map corresponding to the optimum cleaning movement line.
13C is a diagram illustrating another example of the cleaning function related monitoring system according to an embodiment of the present invention.
Referring to FIG. 13C, the monitoring system 10 may include an object 301, a monitoring device group 200, and a cleaning device 401.
The object 301 may be a movable object having a certain temperature, for example, a person. The object 301 may be located in at least one management area among the management areas 1300 managed by the monitoring device group 200. [ For example, the object 301 may be located in the fourth management area 1304, as shown.
The monitoring device group 200 may include a plurality of monitoring devices. A plurality of monitoring devices may be disposed in the management areas 1300, respectively. A designated monitoring device 201 among a plurality of monitoring devices can configure a cleaning map when a cleaning cycle comes. In this operation, the designated monitoring device 201 can collect information on the existence of the object 301 or the like from other monitoring devices. For example, the specified monitoring device 201 generates a cleaning map to clean the area where the object 301 is not currently positioned, and to clean the area where the object 301 is located when the cleaning of the area is completed can do.
According to various embodiments, the designated monitoring apparatus 201 calculates an optimum copper line for the entire area, and when the object 301 exists in the calculated optimum copper line, the object 301 is moved to another area where cleaning is completed . For example, when the designated monitoring device 201 confirms that the cleaning device 401 has entered the specific area (e.g., determines the movement of the cleaning device 401 through the thermal image information) Can output the guidance information designated to move to the area where cleaning has been completed. According to one embodiment, the designated monitoring device 201 may use at least one of an illumination device or an audio device to guide the object 301 to move to a cleaned area. In the case of the lighting device, the designated monitoring device 201 can reduce the illuminance of illumination of the area where the object 301 is located, irradiate light of a specified color for cleaning, or irradiate light with a designated blinking pattern. In addition, the designated monitoring device 201 can control the output of the illumination designated by the monitoring device of the cleaned area, thereby guiding the object 301 to move to the corresponding area.
The cleaning device 401 may perform cleaning on the management areas 1300 based on the cleaning map received from the designated monitoring device 201. [ For example, when the object 301 is located in the fourth management area 1304, the cleaning device 401 searches the first management area 1301, the second management area 1302, and the third management area 1302 1303 may be cleaned first, and the fourth management area 1304 may be finally cleaned. According to various embodiments, when the object 301 moves from the fourth management area 1304 to the third management area 1303 while the cleaning apparatus 401 has cleaned the first management area 1301, The cleaning apparatus 401 can first clean the second management area 1302 and the fourth management area 1304 and finally clean the third management area 1303 according to the updated cleaning map.
FIG. 14 is a view for explaining a monitoring operation method according to a position of a designated object according to an embodiment of the present invention.
Referring to FIG. 14, in operation 1401, a plurality of monitoring devices included in the monitoring device group 200 perform sensing for each zone at installed locations, can do. The plurality of monitoring apparatuses can perform a sensing operation according to a request of a predetermined period or real time or electronic device 100 or the like. In operation 1403, the designated monitoring device (or an electronic device that performs processing of sensor information collected by the monitoring device group) can verify that a region of interest is detected. The region of interest may include, for example, an area where a temperature exceeding a specified reference value is detected, or a region where a temperature lower than a specified reference value is detected.
If a region of interest is not detected, the designated monitoring device may skip operations 1405 and 1407 below. If a region of interest is detected, the designated monitoring device may detect the location of the designated object in operation 1405. In this regard, the designated monitoring device may send a message to the plurality of monitoring devices to confirm whether the designated object exists. A monitoring device having a designated object among a plurality of monitoring devices can transmit the corresponding location information to a designated monitoring device.
In operation 1407, the designated monitoring device can process the monitoring information to the monitoring device at the location where the designated object is located. For example, the designated monitoring device can transmit the guidance information designated with respect to its own location information to the monitoring device where the object is located. According to one embodiment, the guidance information set so that the illumination of the color corresponding to the location of the designated monitoring device is output from the monitoring device where the object is located can be transmitted. According to various embodiments, a designated monitoring device may output a self-directed guidance information while transmitting a message requesting to output the guidance information designated to the monitoring device where the object is located. For example, if a region of interest is detected, the designated monitoring device and the monitoring device in which the object is located can illuminate the light in the same color or the same flashing pattern. According to various embodiments, audio information that guides the location of the designated monitoring device may be output through the audio device of the monitoring device where the object is located.
In operation 1409, the designated monitoring apparatus can confirm whether there is an event occurrence related to termination management by region. If an event related to termination of management by region does not occur, the designated monitoring apparatus branches to the operation 1401 and can re-execute the following operation.
15A is a view for explaining a monitoring operation method related to output of interest information according to an embodiment of the present invention.
Referring to FIG. 15A, in connection with a monitoring operation method related to output of interest information according to an embodiment, in operation 1501, a plurality of monitoring devices included in the monitoring device group 200 may perform area-specific sensing . In operation 1503, the designated monitoring device (or an electronic device that performs processing of the sensor information provided by the plurality of monitoring devices) can confirm that the interest information is detected. The interest information may include, for example, information as to whether the specified object is at the specified position, information on whether or not the specified object is attained in the temperature condition, and the like. If there is no detection of interest information, the designated monitoring device may skip operations 1505 and 1507 below.
If interest information is detected, at operation 1505, the designated monitoring device may process the priority-based interest information guidance. For example, the designated monitoring device may output guidance information corresponding to the relatively high priority interest information among the detected interest information through at least one of the illumination device and the audio device. The priority information for the interest information may be defined and stored and managed.
At operation 1507, the designated monitoring device can verify that it satisfies the unloading condition. If the interest removal condition is not satisfied, the designated monitoring device may branch back to operation 1505 and re-execute the process of priority-based interest information guidance. According to one embodiment, the designated monitoring apparatus can output guide information differently according to the elapsed time since the guide information output corresponding to the interest information. For example, the designated monitoring apparatus can increase the illuminance of illumination over time, change the illumination color to a lighter color or darker color, or speed up the rate of change of the blinking pattern. Alternatively, the specified monitoring apparatus can gradually change the volume of the audio information output through the audio device gradually. The designated monitoring apparatus can confirm whether interest cancellation conditions for the remaining interest information have occurred when interest cancellation conditions for interest information of high priority among generated interest information occur. For example, the designated monitoring device can confirm the temperature of another external electronic device when the temperature of the relatively high priority device among the plurality of external electronic devices is changed to the normal temperature range. If the temperature of the other external electronic device is abnormal, the designated monitoring device may branch back to operation 1505 and re-execute the following operation.
If the care-of-release condition is satisfied, at operation 1509, the designated monitoring device can check if there is an event occurrence related to the management termination. If an event related to the management termination does not occur, the designated monitoring apparatus branches to the operation 1501 and can re-execute the following operation.
According to one embodiment, the designated monitoring device is configured to store first interest information in which the body temperature of a person located in the first management area is abnormal, and second interest information in which the temperature of the external electronic device located in the second management area is in an abnormal temperature range Can be obtained. In this case, the designated monitoring device can confirm the priority of the first interest information and the second interest information (e.g., the first interest information may have a high priority according to the setting information). The specified monitoring device cancels the first interest information (e.g., when the other object (e.g., another person) specified in the first management area enters or the body temperature of the person corresponding to the first interest information returns to the normal body temperature Can be included in the setting information). Even if the first interest information is released, the designated monitoring apparatus can output the guidance information corresponding thereto if the second interest information is valid. According to various embodiments, the designated monitoring apparatus can output guidance information corresponding to each interest information in an alternating manner corresponding to a plurality of interest information. In this operation, the designated monitoring apparatus outputs the guidance information output time or output time corresponding to the relatively high priority interest information as the output time or the output number of the guidance information corresponding to the interest information with a relatively low priority (Or more).
15B is a view for explaining another example of a monitoring operation method related to device function control according to an embodiment of the present invention.
Referring to FIG. 15B, in connection with the monitoring operation method related to device function control according to one embodiment, in operation 1521, a plurality of monitoring devices included in the monitoring device group 200 may perform area-specific sensing. The designated monitoring device among the plurality of monitoring devices can collect sensor information sensed by the plurality of monitoring devices. In this operation, a plurality of monitoring devices can transmit respective identification information and sensor information to the designated monitoring device. Each monitoring device can provide its own location information to a designated monitoring device. The location information of each of the monitoring devices may be specified by a user input or may include relative estimated location information based on a signal transmitted / received between the monitoring devices, as described above.
At operation 1523, the designated monitoring device can verify that the specified object is detected based on the collected sensor information. If the specified object is not detected, then operation 1529 may be performed to perform the following operations. In this regard, a designated monitoring device can verify that an object at a certain temperature or above (e.g., human body temperature, etc.) is detected.
In operation 1525, if a specified object is detected, the designated monitoring device may analyze the number of objects or the density of the object. For example, the designated monitoring apparatus can analyze how many (or how many) objects are present in the area (or section) where the object is detected, and the distance between the objects. The designated monitoring device can determine the density among the objects based on the detected information.
In operation 1527, the designated monitoring device may perform functional control of at least one monitoring device or at least one external electronic device based on the analysis results. For example, the designated monitoring device can control to increase the illuminance of the monitoring device corresponding to the area where the object is detected. Alternatively, the designated monitoring device can control to turn off the illumination of the monitoring device corresponding to the area where the object is not detected. According to various embodiments, a designated monitoring device may handle functional control of at least one external electronic device disposed in the section, corresponding to the number of specified objects or the density of the object. In this regard, a designated monitoring device may pre-store location information of at least one external electronic device. Alternatively, the designated monitoring device may receive position information of at least one external electronic device from another monitoring device. According to one embodiment, the designated monitoring device can deliver to the external electronic device in the form of an air circulation device or a temperature control device, an air circulation degree or temperature regulation degree value according to at least one of the number and density of objects. The external electronic device can perform air circulation or temperature control corresponding to the received air circulation level value or the temperature regulation level value.
In operation 1529, the designated monitoring device can check if an input event related to the management termination occurs. If the specified monitoring device does not generate an input event related to the termination of management, it may branch to the operation before step 1521 and re-execute the following operation. When an input event related to the management termination occurs, the designated monitoring device can terminate the device function control.
15C is a diagram illustrating an example of a device function control environment according to an embodiment of the present invention.
15C, a device function control environment according to one embodiment includes, for example, a plurality of monitoring devices 201, 202, 203, 204, at least one external electronic device 401, 402, 403, And may include at least one designated object (301, 302, 303).
The plurality of monitoring devices 201, 202, 203, and 204 may be installed in a ceiling of a certain space such as an office, a house, a library, etc. at regular intervals (for example, Spacing). ≪ / RTI > At least one monitoring device of the plurality of monitoring devices 201, 202, 203, 204 may operate as a master device and the remaining monitoring devices may operate as a slave device. For example, the first monitoring device 201 may operate as a master device, and the second to fourth monitoring devices 204 may operate as a slave device.
The plurality of monitoring devices 201, 202, 203, and 204 may be disposed in a predetermined area or a designated section, respectively. The plurality of monitoring devices 201, 202, 203, 204 may include a lighting device. Or a plurality of monitoring devices 201, 202, 203, 204 may communicate with at least one external electronic device 401, 402, 403, For example, the first monitoring device 201 may communicate with the first external electronic device 401 and the second monitoring device 202 may communicate with the second external electronic device 402.
The at least one external electronic device 401, 402, 403, 404 may form a communication channel with, for example, at least one monitoring device. At least one external electronic device (401, 402, 403, 404) may perform a designated function in response to a control signal received from the monitoring device. For example, at least one of the external electronic devices 401, 402, 403, 404 may be an air cleaning device that provides an air circulation function. Alternatively, at least one of the external electronic devices 401, 402, 403, 404 may be a temperature controller that provides a temperature control function. Alternatively, at least one of the external electronic devices 401, 402, 403, 404 may be a cleaning device.
According to various embodiments, at least one external electronic device 401, 402, 403, 404 may communicate with each monitoring device. For example, the first external electronic device 401 may communicate with the first monitoring device 201 and the second external electronic device 402 may communicate with the second monitoring device 202. Alternatively, the third external electronic device 403 may communicate with the third monitoring device 203 and the fourth external electronic device 404 may communicate with the fourth monitoring device 204. According to various embodiments, the external electronic devices 401, 402, 403, 404 communicate with the first monitoring device 201 and perform a designated function in response to the control signal transmitted by the first monitoring device 201 can do.
The at least one designated objects 301,302 and 303 may for example be moved into or out of a sensing area in which a plurality of monitoring devices 201, 202, 203 and 204 sense, . For example, the at least one designated object 301, 302, 303 may be a device having a constant body temperature, such as a person or animal.
According to one embodiment, the first monitoring device 201 collects sensor information of a plurality of monitoring devices 201, 202, 203, and 204 as a master device, and determines the presence or absence of a designated object based on the collected sensor information , The number of specified objects, and the density of specified objects. The figure shows that the first monitoring device 201 has a first object 301 in its area and the second object 302 and the third object 302 in the area in which the second monitoring device 202 is sensing, It can be judged that there is an image 303. In addition, the first monitoring device 201 can determine that the designated object does not exist in the area where the third monitoring device 203 and the fourth monitoring device 204 are located.
When the external electronic device is an air circulation device, the first monitoring device 201 transmits a control signal so that the first external electronic device 401 performs the first air circulation function, and the second external electronic device 402 2 air-circulation function. The second air circulation function may be a function of requesting a relatively high level or high speed air circulation as compared with the first air circulation function. When the external electronic device is a temperature control device, the first monitoring device 201 transmits a control signal so that the first external electronic device 401 performs the first temperature control function, and the second external electronic device 402 2 control signal to perform the temperature control function. The second temperature regulation function may be a function to form a relatively low temperature as compared with the first temperature regulation function. The control signal may be transmitted to the monitoring device of the corresponding area by the first monitoring device 201, and may be transmitted to the external electronic device. When the external electronic device is a cleaning device, the first monitoring device 201 transmits a control signal so that the first external electronic device 401 performs a first level cleaning function, and the second external electronic device 402 The control signal can be transmitted to perform the second level cleaning function. The second cleaning function may be a function of requesting cleaning at a relatively high level or high intensity as compared with the first cleaning function.
According to various embodiments, the first monitoring device 201 may perform a lighting control function. For example, the first monitoring device 201 may control the illumination of the first illuminance in its area, and may transmit the control signal to the second monitoring device 202 to illuminate the illumination of the second illumination. Also, the first monitoring device 201 can transmit a control signal so that the third monitoring device 203 and the fourth monitoring device 204 do not irradiate light. Thereby, the illumination device of the second monitoring device 202 irradiates the light of the relatively brightest illuminance, and the third monitoring device 203 and the fourth monitoring device 204 do not perform separate light irradiation have.
According to various embodiments, when the movement of the specified objects 301, 302, 303 occurs and the number or density of the regions and objects in which the objects are detected, the first monitoring device 201 In response, control the lighting devices or external electronic devices 401, 402, 403, 404 of the monitoring devices to perform the specified function. According to various embodiments, the first monitoring device 201 may control the functions of external electronic devices differently according to the number of specified objects, the density of the specified objects, and the holding time of the density state of the specified objects. For example, as the holding time of the specific density state is increased, the first monitoring device 201 can increase the degree of air circulation in the corresponding region or increase the cleaning strength.
16 is a view for explaining a monitoring operation method related to a user pattern according to an embodiment of the present invention.
Referring to FIG. 16, in the monitoring operation method related to the user pattern according to the embodiment, in operation 1601, the designated monitoring apparatus can confirm whether there is door utilization information reception. In the case where there is no reception of the door use information, the operation can be skipped and the operation can be branched to the operation 1613 for performing the processing related to the management end. In connection with the collection of door usage information, the door device may include a sensor for sensing opening and closing, a communication interface for transmitting sensor information to a designated monitoring device, and a processor for device control. When the door is opened or closed, the door device can transmit the corresponding sensor information to the designated monitoring device.
When the door utilization information is received, in operation 1603, the designated monitoring device can control the sensing operation. For example, the designated monitoring device may request sensor information collection from at least one monitoring device belonging to the monitoring device group 200. At operation 1605, the specified monitoring device may collect activity patterns associated with the specified object. According to one embodiment, when the sensor information is collected, the designated monitoring device can analyze the collected sensor information, extract the object, and obtain the activity pattern of the extracted object. For example, the designated monitoring device can collect moving moving lines and the like of an object entered through the door.
In operation 1607, the designated monitoring device can compare the acquired activity pattern with the reference pattern. In this regard, the designated monitoring device can store the reference pattern. The reference pattern may be generated based on an activity pattern of an object for a predetermined period, for example. Alternatively, the reference pattern may be generated according to a user input based on a monitoring setting UI of the electronic device 100. [
In operation 1609, the specified monitoring apparatus can check whether there is an abnormality according to the comparison result. For example, the designated monitoring apparatus can confirm whether the difference between the activity pattern and the reference pattern occurs above a specified value. If there is no abnormality, the designated monitoring apparatus can skip the operation 1611 below. If an error occurs, the designated monitoring device can perform the notification operation at operation 1611. [
According to one embodiment, the designated monitoring device can control the transmission of the message specified by the designated telephone number. According to various embodiments, a designated monitoring device may communicate an anomaly occurrence to the designated electronic device 100. [ According to the scheduled information, the electronic device 100 may transmit the designated message according to the abnormal occurrence to another specified electronic device or an external server or the like.
In operation 1613, the designated monitoring device can check if an input event related to the management termination occurs. If there is no input event related to the management termination, the designated monitoring apparatus branches to the operation 1601 and can re-execute the following operation.
According to various embodiments described above, a monitoring device according to one embodiment may include at least one of a thermal image sensor for collecting sensor information corresponding to an infrared image, a lighting device for illuminating designated light, or an audio device for illuminating designated audio information A memory (e.g., memory for the sensor) that stores data related to the thermal image sensor control or the lighting device control, a processor functionally coupled to the thermal image sensor, the lighting device, the audio device, or the memory, And the processor detects the object related information based on the collected sensor information, and based on the detected object related information, the processor outputs the designated light corresponding to the designated alarm information or the designated alarm information And may be set to output corresponding audio information.
According to various embodiments, the processor may be configured to illuminate light with a first magnitude of illumination, a first color, and a first blink pattern when the temperature associated with the specified object is outside a specified temperature range.
According to various embodiments, the processor may be configured to illuminate light with a first magnitude of illumination, a first color, and a first blink pattern when the temperature associated with the specified object reaches a specified temperature range.
According to various embodiments, the processor determines the type of the operation state of the object based on the temperature associated with the designated object, and sets at least one of the illumination, the color, and the flashing pattern differently according to the type of the operation state .
According to various embodiments, the processor can be configured to illuminate the light of the illuminance, hue and flashing pattern set in association with the hazard guide when an object retrieved at a specified temperature within the region monitored by the thermal image sensor enters .
According to various embodiments, the monitoring device further comprises a communication module capable of forming a communication channel, wherein the processor is further configured to determine whether the object retrieved at a specified temperature is within an area monitored by the thermal image sensor, And to control the operation state of the external electronic device located in the monitoring area to be the designated state when the detected temperature is the specified temperature.
According to various embodiments, when the object retrieved at the specified temperature enters the area monitored by the thermal image sensor, the processor checks the operation state of the external electronic device located in the monitoring area based on the collected sensor information , And may be set to irradiate light of a specified illuminance, hue, and flashing pattern according to the operating state of the external electronic device.
According to various embodiments, the monitoring device further comprises a communication module forming a communication channel, wherein the processor is operable to communicate information corresponding to an operating state of the external electronic device and a virtual temporary key for unlocking the designated door device to an external server And when receiving the release from the door device via the virtual temporary key, it may be set to illuminate the light of the specified illuminance, hue and flashing pattern.
According to various embodiments, the processor determines a movement pattern or an activity pattern of the object based on the detected object-related information, and when the collected movement pattern or the activity pattern is different from the specified reference pattern, It can be set to irradiate the light of the blinking pattern.
According to various embodiments, the processor may compare a usage pattern of an external electronic device in an area monitored by the thermal image sensor with a reference pattern based on the detected object-related information, Pattern light.
According to various embodiments, the processor may be configured to establish a communication channel with a peripheral monitoring device in which other objects are located and to transmit the alarm information to the peripheral monitoring device.
According to various embodiments, the processor may be configured to communicate the alarm information to at least one external electronic device.
According to various embodiments described above, a monitoring apparatus according to an embodiment may include a thermal image sensor for collecting sensor information corresponding to a thermal image, a memory for storing data relating to the thermal image sensor control or cleaning control, A sensor and a processor functionally coupled to the memory, wherein the processor determines a location of the object based on the sensor information, and configures a cleaning map such that at least some areas where the object is located are an intensive cleaning zone or a final cleaning zone . ≪ / RTI >
According to various embodiments, the processor may be configured to determine movement of the object based on the sensor information, and to update the cleaning map according to movement of the object.
According to various embodiments, the monitoring device may further comprise a communication module capable of forming a communication channel, and the processor may be configured to transmit the cleaning map to the designated cleaning device using the communication module.
According to various embodiments, the processor may be configured to illuminate light of a specified size of illumination, hue, and flashing pattern corresponding to a cleaning device entry when the cleaning device enters a zone monitored for cleaning.
According to various embodiments, the processor may be configured to cause the monitoring device, in which the object is located, to illuminate light of a predetermined size, color, and flashing pattern during a cleaning period of the cleaning device.
According to various embodiments, the processor may be configured to output optical or audio information of a specified type that induces movement of the object when the object is located in the next cleaning zone of the cleaning apparatus.
17 is a diagram showing an example of the structure of a monitoring apparatus according to an embodiment of the present invention.
Referring to FIG. 17, the monitoring device 1700 may include a connection device 1710 and a socket device 1720.
The connection device 1710 includes a cable 1711, a connection case 1712, a temperature and humidity sensor 1713, a gas sensor 1714, a dust sensor 1715, a first sensor board 1716, a first illuminator 1717 , A speaker 1718, and a socket hole 1701. [ The cable 1711 may be electrically connected to a permanent power source or a separately provided battery and may receive power from a permanent power source or a battery and deliver it to a designated configuration of the connection device 1710, for example, the first sensor board 1716. Alternatively, the cable 1711 may be connected to the first illuminator 1717. Alternatively, the cable 1711 may be connected to the socket hole 1701, and may supply power to the socket device 1720 inserted in the socket hole 1701. The connection case 1712 surrounds one end of the cable 1711 and connects the main components such as the temperature and humidity sensor 1713, the gas sensor 1714, the dust sensor 1715, the first sensor board 1716, ), A first illumination device 1717, a speaker 1718, etc.). The connection case 1712 may be formed in various shapes according to a design method.
The temperature / humidity sensor 1713 is connected to the first sensor board 1716, and can collect temperature or humidity sensor information corresponding to the control of the first sensor board 1716. The gas sensor 1714 may collect sensor information on the gas generation corresponding to the control of the first sensor board 1716. The dust sensor 1715 may collect sensor information on dust generation corresponding to the control of the first sensor board 1716. The sensors can transmit the sensor information to the socket device 1720 when the status of the sensors exceeds a specified reference value. The first illuminator 1717 may be disposed in a predetermined region of the side of the connection case 1712. For example, the first illuminator 1717 may be disposed at the edge portion of the surface on which the socket hole 1701 is formed. The first illuminator 1717 can directly receive the power through the cable 1711 and illuminate it. Alternatively, the first illuminating device 1717 may illuminate with a predetermined illuminance, color, or flashing pattern according to the control of the first sensor board 1716. In the drawing, the first illuminating device 1717 is arranged to illuminate in a direction in which the socket holes 1701 are arranged, but the present invention is not limited thereto. For example, the first illuminator 1717 may be disposed on the side surface of the connection case 1712, and may be dimmed in the lateral direction. The speaker 1718 can output the designated audio information corresponding to the control of the first sensor board 1716. For example, the speaker 1718 can output the audio information mentioned in the above-mentioned drawings.
The socket device 1720 includes a socket interface 1721, a socket case 1722, a thermal camera 1723_1 (e.g., the thermal image sensor 210), a second illumination device 1723_2, an illuminance sensor 1724, A proximity sensor 1725, an infrared sensor 1726, a microphone 1727, a processing board 1728 and a second sensor board 1729.
The socket interface 1721 may take the form of a male screw thread that can be inserted into a socket hole 1701 disposed in the connector 1710. The socket interface 1721 can be inserted into the socket hole 1701 or out of the socket hole 1701 while rotating clockwise or counterclockwise. The upper case of the socket case 1722 may be provided in the shape of a male screw, and the middle and lower sides thereof may be provided in the form of a plate or disc. A second illumination device 1723_2, an illuminance sensor 1724, a proximity sensor 1725, an infrared sensor 1726, a microphone 1727, a processing board 1728, and the like are disposed inside the socket case 1722, And a second sensor board 1729.
The thermal image camera 1723_1 may be activated in response to the control of the processing board 1728 to collect sensor information (e.g., a thermal image). The thermal camera 1723_1 may communicate the acquired sensor information to the processing board 1728. [
The second illumination device 1723_2 may be disposed at a position spaced apart from the point where the thermal camera 1723_1 is disposed, for example, at a specified interval. According to one embodiment, the second illumination device 1723_2 may be arranged to irradiate light at an angle that does not overlap the sensor area sensed by the thermal imaging camera 1723_1. Alternatively, the second illuminating device 1723_2 can be arranged such that the light irradiated to the sensor area sensed by the thermal imaging camera 1723_1 is below a specified rate of the total light irradiated from the illuminating device. The second illuminator 1723_2 may comprise, for example, at least one lamp.
The illuminance sensor 1724 may sense an illuminance value for a certain area. The proximity sensor 1725 can sense object proximity to a certain direction. For example, the proximity sensor 1725 may collect sensor information corresponding to an access of a predetermined size object (e.g., user) in the monitored area. The infrared sensor 1726 can collect infrared sensor information for a certain direction by irradiating infrared rays. The microphone 1727 may collect audio signals generated in a direction or a front direction that the monitoring apparatus 1700 is directed to and transmit the audio signals to the processing board. The second sensor board 1729 can control the operation of the illuminance sensor 1724, the proximity sensor 1725, the infrared sensor 1726, and the like in accordance with the control of the processing board 1728 or independently. According to various embodiments, the second sensor board 1729 may perform control of the thermal imaging camera 1723_1.
The processing board 1728 may perform control of the at least one sensor or thermal camera 1723_1. The processing board 1728 may control at least one sensor and the thermal image sensor 1723_1 to collect sensor information about a monitoring area in a predetermined period. The processing board 1728 may perform at least one of the various functions described above based on the collected sensor information. For example, the processing board 1728 may be configured to detect overtemperature, under temperature, external electronic device status, device usage pattern detection, user activity pattern detection, intrusion detection, hazardous zone status detection, Function operation, function control of the external electronic device, and alarm output in response to detection.
According to various embodiments, the processing board 1728 may perform filtering on images provided by the thermal imaging camera 1723_1. For example, the processing board 1728 may include a thermal sensing value for a specified object in a state in which light is irradiated in the second illuminating device 1723_2 and a thermal sensed value in the second illuminating device 1723_2, The noise value by the second illumination device 1723_2 can be extracted through comparison of the thermal sensed values for the first illumination device 1723_2. The processing board 1728 may filter the extracted noise values to perform object detection for the area monitored by the thermal imaging camera 1723_1. The noise value may be received, for example, from the electronic device 100 or from a designated external server or the like. The above-described processing board 1728 may correspond to the sensor processor described above with reference to FIG.
Figure 18a is a first angular view of a monitoring device exterior in accordance with an embodiment of the present invention and Figure 18b is a second angular view of a monitoring device exterior in accordance with an embodiment of the present invention.
18A and 18B, the monitoring device 1800 may include a fixed portion 1819, a connecting device 1810, and a socket device 1820.
One side of the fixing portion 1819 is connected to the cable 1811 of the connecting device 1810 and the other side of the fixing portion 1819 can be disposed in an area for fixing the monitoring device 1800, for example, a ceiling or a wall. The fixing portion 1819 may cover a connection portion between the cable 1811 and the permanent power source, for example. The fixing portion 1819 may have a hole at the center thereof through which the cable 1811 can penetrate. Although the fixing portion 1819 is shown in a disc shape in the drawing, it can be changed into various shapes (e.g., a square, a triangle, etc.) according to a design method.
The connecting device 1810 penetrates the hole formed at one side of the fixing portion 1819 and includes the main components of the connecting device 1810 (e.g., at least one sensor, a first illuminator, a microphone, an audio device, A cable 1811 connected to at least one of the cables 1811, and a connection case 1812 surrounding one side of the cable and on which the main components are mounted. As described above, the connection case 1812 may be provided in various shapes such as a cap shape, a cap shape, a dish shape, or the like. The connection case 1812 may be provided with a plastic structure or the like. Or the connection case 1812 may be formed of a metal material at least partially in order to radiate heat generated in the main structures disposed inside. According to various embodiments, a socket hole in which a socket device 1820 can be inserted is provided at a central portion of the connection case 1812, and a first illumination device can be disposed around the socket hole. Alternatively, an air passage for heat radiation may be disposed around the socket hole into which the socket device 1820 is inserted. Accordingly, the socket hole peripheral portion 1830 may include at least one of the first illuminating device or the air circulating path. According to various embodiments, at least one illuminator may be disposed on the disc periphery of the connection case 1812.
The socket device 1820 is connected to a socket interface 240 and a socket interface 240 that can be inserted into a socket hole of the connection device 1810 and includes a socket case 1820 having at least one sensor 1822). The socket interface 240 may be formed at least in part, for example, as shown. In addition, the socket interface 240 may include at least one electrical contact capable of receiving power required to operate the socket device 1820. According to various implementations, the socket interface 240 may be electrically coupled to the linking device 1810 to perform signaling associated with the operation of the at least one sensor module disposed in the linking device 1810.
19 is a diagram showing an example of an integrated monitoring apparatus according to an embodiment of the present invention.
19, an integrated monitoring apparatus 1900 according to an embodiment of the present invention may include a fixing unit 1919, a connecting apparatus 1910, and a socket apparatus 1920.
The fixing portion 1919 may have substantially the same configuration as the fixing portion described above with reference to FIG. 18 and the like. The connecting device 1910 may include a cable 1911 connected to the fixing part. The cable 1911 can supply power to various electronic components or socket devices 1920 disposed within the connection device 1910. In addition, the cable 1911 serves to support the connection device 1910 and the socket device 1920.
The connection device 1910 may include, for example, a connection case 1912 which is generally disc-shaped. In the drawing, the front surface of the connection case 1912 is shown as a round shape protruding downward, but the present invention is not limited thereto. The shape of the connection case 1912 can be changed in various forms according to the designer's intention. A cable 1911 is connected to the rear side of the connection device 1910, and a socket device 1920 is connected to the front side. In this connection, the connection case 1912 includes a hole through which the cable 1911 is inserted to the rear side, and a socket interface through which the socket device 1920 can be inserted may be provided on the front side.
The socket interface is provided in a shape recessed inwardly so that the socket device 1920 can be inserted therein, and a fastening shape corresponding to a thread shape, a hook shape, or a snug shape provided at a connection portion of the socket device 1920 can be disposed have. An illumination device including at least one lamp may be disposed on a side surface (e.g., a rim of the disc) of the connection case 1912. Thus, when power is supplied, light of a specified color can be irradiated on the side of the connection case 1912. The position of the lighting device can be changed according to the designer's intention.
According to various embodiments, an air circulation passage 1919 for dissipating heat generated in the lighting device or heat generated in the socket device 1920 may be disposed on one side of the connecting device 1910. The air circulation passage 1919 penetrates the inside and the outside of the connection case 1912 and may be provided in at least a part of the region.
The socket device 1920 may be removably attached to the connection device 1910. For example, when a socket interface is provided in the connection device 1910, the socket device 1920 may be inserted or extracted into the socket interface by external pressure. The socket device 1920 may be electrically connected to the cable 1911 or may be electrically connected to a power management device of the connection device 1910 to which the cable 1911 is connected. The socket device 1920 may activate at least one sensor based on the supplied power source. Or the socket device 1920 can operate the audio device based on the supplied power source.
20 is a view showing an example of a socket device according to an embodiment of the present invention.
20, the first socket device 2100 may include a first socket case 2122, a thermal camera 2110, an audio device 2120, and a lighting device 2130. The first socket device 2100 may include a processor associated with the control of the thermal imaging camera 2110, the lighting device 2130, and the audio device 2120. The processor may perform control of at least one of the thermal image camera 2110, the illumination device 2130, and the audio device 2120 according to user input or designated schedule information.
The first socket case 2122 may be provided with three socket inserting holes into which the thermal image camera 2110, the lighting device 2130 and the audio device 2120 can be respectively inserted. The thermal imaging camera 2110, the lighting device 2130, and the audio device 2120 can be inserted and removed at each socket inserting opening. The first socket case 2122 may be provided such that the central portions of the inserted structures (e.g., the thermal imaging camera 2110, the lighting device 2130, and the audio device 2120) are oriented at different angles, respectively. Accordingly, the first socket case 2122 is provided in a generally triangular shape, and three circles having a predetermined inclination from the central portion of the case to the outside can be provided in a shape sharing at least a part of the mutual calls.
The thermal image camera 2110 can obtain a thermal image. The thermal camera 2110 can be arranged to point in one direction. When the first socket case 2122 is rotatable, the direction indicated by the thermal camera 2110 may be periodically changed. The thermal imaging camera 2110 may communicate acquired sensor information (e.g., the thermal imaging image) to the processor.
The lighting device 2130 may be disposed in the first socket case 2122 and structurally different from the direction indicated by the thermal imaging camera 2110. The illuminating device 2130 can irradiate light with a specified size of illuminance, hue and flashing pattern under the control of the processor. For example, the lighting device 2130 may illuminate or have a turn-off state in the first illumination, the first color, and the first blink pattern in the monitoring step. The illuminating device 2130 can illuminate light according to at least one of a second illuminance different from the first illuminance, a second color different from the first illuminance, and a second blinking pattern different from the first illuminance pattern in the alarm step. According to various embodiments, the first socket case 2122 may be made of a transparent or opaque material, and the lighting device 2130 may be provided in a form capable of irradiating the first socket case 2122 with light . In this case, the first socket case 2122 may have a light emission state at a predetermined illumination level in a monitoring step or an alarm step.
The audio device 2120 can output the specified audio information under the control of the processor. According to one embodiment, the audio device 2120 may output the designated audio information corresponding to the sensor information monitored in the alarm step. For example, the audio device 2120 may include audio information to guide the entry of a specified object into a dangerous area, audio information to guide the status of a designated external electronic device, audio information that indicates the current temperature of the specified object, Information on movement of a designated object, or audio information according to an external electronic device usage pattern.
The second socket device 2200 includes a second socket case 2222 and two components of the thermal imaging camera 2110, the lighting device 2130 and the audio device 2120 mounted on the second socket case 2222 . ≪ / RTI > For example, the second socket device 2200 may include a thermal imaging camera 2110 and a lighting device 2130. Alternatively, the second socket device 2200 may include a thermal imaging camera 2110 and an audio device 2120. According to various embodiments, the second socket device 2200 is arranged such that the thermal imaging camera 2110 and the audio device 2120 are arranged side by side, and the lighting device 2130 is arranged to illuminate the surface of the second socket case 2222 . ≪ / RTI > In this regard, at least a part of the second socket case 2222 may be made of a transparent material or a material having a certain transmittance. The second socket case 2222 may include a socket interface 2221 that can be connected to the connection device at one end. The second socket case 2222 can be provided so that the thermal imaging camera 2110 and the audio device 2120 (or the lighting device 2130) of the same size or different sizes can be disposed. For example, the thermal camera 2110 and the audio device 2120 may be provided at one end in a round shape. Accordingly, the second socket case 2222 may include insertion holes of a predetermined size to which the thermal imaging camera 2110 and the audio device 2120 can be respectively disposed. When the thermal camera 2110 and the audio device 2120 are disposed adjacent to each other within a certain distance, at least a part of the above-mentioned insertion holes of the second socket case 2222 can overlap each other. The second socket case 2222 may include a processor associated with controlling the thermal imaging camera 2110, the lighting device 2130, and the audio device 2120 on the inside. In addition, the second socket case 2222 may include a communication module capable of communicating with the peripheral monitoring device.
The third socket device 2300 may include a third socket case 2322 and a thermal camera 2110. One side of the third socket case 2322 may include a socket interface 2321 that can be connected to the connection device. The third socket case 2322 is generally cylindrical in shape and may have a structure in which a thermal image camera 2110 can acquire sensor information on one side. A processor capable of performing control and signal processing of the thermal imaging camera 2110 may be disposed inside the third socket case 2322. Inside the third socket case 2322, a communication module capable of communicating with the peripheral monitoring device may be disposed.
The first socket device 2100 described above can be mounted on the connecting device described with reference to FIG. When the second socket device 2200 and the third socket device 2300 have a case shape, the connection device is provided in a form in which the second socket device 2200 or the third socket device 2300 can be inserted .
21 is a view showing another example of a socket device according to an embodiment of the present invention.
Referring to FIG. 21, the fourth socket device 2400 may include a fourth socket case 2422 and a thermal camera 2410. A first type socket interface 2421 may be disposed at one end of the fourth socket case 2422. The first type socket interface 2421 may include a cylindrical body and a first fastening portion provided at one side of the body (e.g., at least one protruding portion protruding outward from the surface of one side of the body by a predetermined height). The first type socket interface 2421 may be inserted along the rail groove provided in the connecting device, and may be rotated and fixed and fixed at a predetermined position. The first fastening portion is moved by a predetermined depth to the inside of the case by an external pressure (for example, a force received while being inserted into the rail groove of the connecting device) and the external pressure is released (for example, It is possible to fix the fourth socket device 2400 more firmly while being restored to the original state. The fourth socket case 2422 may be provided so as to surround the periphery of the thermal camera 2410 while exposing one end of the thermal camera 2410 to collect sensor information. A processor, a communication module, a memory, and the like related to the control of the fourth socket device 2400 may be installed inside the fourth socket case 2422.
The fifth socket device 2500 may include a fifth socket case 2522 and a thermal imaging camera 2510. A second type socket interface 2521 may be disposed at one end of the fifth socket case 2522. The second type socket interface 2521 may include a cylindrical body and a second fastening portion (e.g., male thread) formed along the body surface. The first type socket interface 2521 may be inserted along the female thread provided in the connecting device and then contacted with the electrical contacts disposed in the connecting device at a predetermined position. The second fastening part can be detached from the connecting device when an external pressure acts in a direction opposite to the rotating direction in the inserting process. The fifth socket case 2522 may be provided so as to surround the periphery of the thermal camera 2410 while exposing one end of the thermal camera 2510 for collecting sensor information, similar to the fourth socket case 2422. A processor, a communication module, a memory, and the like related to the control of the fifth socket device 2500 may be installed inside the fifth socket case 2522.
Modules or program modules according to various embodiments may include at least one or more of the elements described above, some of which may be omitted, or may further include additional other elements. Operations performed by modules, program modules, or other components in accordance with various embodiments may be performed in a sequential, parallel, iterative, or heuristic manner. Also, some operations may be performed in a different order, omitted, or other operations may be added.
And the embodiments disclosed in this document are provided for the explanation and understanding of the disclosed technical contents, and do not limit the scope of the present invention. Accordingly, the scope of the present invention should be construed as including all modifications or various other embodiments based on the technical idea of the present invention.
