JP7080297B2 - Departure timer provision method and system - Google Patents

Description

The present disclosure relates to a method and system for providing a departure timer, and specifically, a departure time is determined based on an estimated travel time of a route from a departure point to a destination and a target arrival time, and the determined departure time is determined. It relates to the method and system of providing a departure timer for setting a timer for.

With the rapid development of artificial intelligence technology and IoT (Internet Over Things) technology, AI speakers, smartphones, etc. equipped with intelligent individuals or virtual secretaries (Intelligent Personal Assistant) that provide users with specific services that respond to users' voice requests. Terminals such as are widely used. These intelligent personal assistants use artificial intelligence voice recognition technology to recognize user voice commands and provide services that respond to voice commands. For example, an AI speaker can make a call through a user's voice command, as well as a secretary such as running a specific application, providing weather information, providing information through an internet search, and so on. Role can be provided to the user.

A terminal equipped with a conventional intelligent personal assistant has provided a service that provides a recommended route from a first place to a second place in response to a user's request. Also, the estimated time to arrive at the second location along these recommended routes was provided together. Users of such services have had the inconvenience of having to directly calculate when they should leave to arrive at the second location. Also, as real-time traffic conditions change, it has been difficult for users to know when to leave the first location and arrive at the second location at their desired time. In addition, it has been difficult for users to get information about how much time they have left before they have to leave the first place in order to arrive at the second place at the desired time.

Korean Published Patent No. 10-2004-0086675

The present disclosure provides a method of providing a departure timer for solving the above-mentioned problems, a computer program and a device (system) stored in a recording medium.

A method and device for providing a departure timer that receives information necessary for setting a timer for a departure time such as a departure place, a destination, a means of transportation, and a target arrival time, and uses the received information to determine a departure time. I will provide a.

How to provide a timer for departure time, a timer for public transport arrival time, a departure timer that provides real-time traffic information, and a method for recognizing a user's request or command from the user's voice and based on the recognized user's request or command. The system is provided.

Provided is a method and an apparatus for providing a departure timer that provides a notification for the remaining time from the current time to the departure time through synthetic voice.

The present disclosure can be embodied in a variety of ways, including methods, devices (systems) or computer programs stored in readable storage media.

According to one embodiment of the present disclosure, the method of providing a departure timer through an intelligent personal assistant is to receive a starting point and a destination and a step of receiving the means of transportation used for the route from the starting point to the destination. And the step of receiving the target arrival time for the destination, and the step of determining the departure time based on the estimated travel time of the route from the departure point to the destination using the means of transportation and the received target arrival time. It includes a step of setting a timer for a set departure time and a step of outputting a notification based on the set timer.

According to another embodiment of the present disclosure, the method of providing a departure timer through an intelligent personal secretary selects the step of receiving a departure point and a destination and the means of transportation used for the route from the departure point to the destination. A step and a step to receive a user voice indicating an arrival timer request to public transport if the selected means of transportation is public transport, and a step from the origin to the destination if the request is recognized by the user voice. A step to receive real-time operation information for the first stop on the route, a step to determine the departure time based on the time when the real-time operation information and user voice are received, and a step to set a timer for the determined departure time. , Includes a step to output a notification based on a set timer.

Provided are computer-readable computer programs for executing the method of providing the departure timer described above according to the various embodiments of the present disclosure on a computer.

The system for providing a departure timer according to an embodiment of the present disclosure includes a memory and at least one processor concatenated with the memory and configured to execute a computer-readable instruction contained in the memory, at least one processor. Receives the origin and destination, receives the means of transportation used for the route from the origin to the destination, receives the target arrival time to the destination, and uses the means of transportation from the origin to the destination. It is configured to determine the departure time based on the estimated travel time of the route and the received target arrival time, set a timer for the determined departure time, and output a notification based on the set timer.

The system for providing a departure timer according to another embodiment of the present disclosure includes a memory and at least one processor concatenated with the memory and configured to execute a computer-readable instruction contained in the memory. The processor receives the origin and destination, selects the means of transportation used for the route from the origin to the destination, and if the selected means of transportation is public transportation, the arrival timer for public transportation. When the user voice indicating the request is received and the request is recognized from the user voice, the real-time operation information for the first stop on the route from the departure point to the destination is received, and the real-time operation information and the user voice are received. It is configured to set a timer for the departure time determined based on and output a notification based on the set timer.

In various embodiments of the present disclosure, an intelligent personal assistant can provide a departure time that can reach a destination up to a target arrival time for a destination directly specified by the user, with a timer setting for the departure time and the current time. Notifications based on departure time can be provided.

The embodiments of the present disclosure will be described with reference to the accompanying drawings described below, wherein similar reference numbers indicate similar elements, but are not limited thereto.
FIG. 3 illustrates an example of providing a departure timer through an intelligent personal assistant according to an embodiment of the present disclosure. FIG. 3 is a schematic diagram showing a configuration in which an information processing system is communicably connected to a plurality of user terminals in order to provide a departure timer according to an embodiment of the present disclosure. It is a block diagram which shows the internal structure of the user terminal and the information processing system which concerns on one Embodiment of this disclosure. It is a flowchart which shows the method of providing the departure timer which concerns on one Embodiment of this disclosure. It is a flowchart which shows the provision method (500) of the departure timer which concerns on other embodiment of this disclosure. It is a figure which shows the example which a notification is output based on the set timer which concerns on one Embodiment of this disclosure. It is a figure which shows the example which determines the departure time which concerns on one Example of this disclosure. It is a figure which shows the example which determines the departure time which concerns on the other embodiment of this disclosure. It is a figure which shows the example in which the timer which concerns on one Embodiment of this disclosure is updated. It is a figure which shows the example of the user interface for setting the departure timer which concerns on one Embodiment of this disclosure. It is a figure which shows the example of the user interface for setting the departure timer which concerns on the other embodiment of this disclosure. It is a drawing which shows the example which the map application is executed which concerns on the departure timer which concerns on one Embodiment of this disclosure. It is a drawing which shows the example which displays the preference place received from the map application which concerns on the departure timer which concerns on one Embodiment of this disclosure. It is a drawing which shows the example which the pictogram corresponding to the real-time road traffic condition which concerns on one Example of this disclosure is output. It is a figure which shows the example which the arrival timer for the public transportation which concerns on one Embodiment of this disclosure is set.

In the following, the specific contents for the implementation of the present disclosure will be described in detail with reference to the attached drawings. However, in the following description, if there is a risk of unnecessarily obscuring the gist of the present disclosure, specific description of widely known functions and configurations will be omitted.

In the attached drawings, the same or corresponding components are given the same reference numerals. Further, in the following description of the embodiment, the same or corresponding components may be omitted in duplicate. However, even if the description about the component is omitted, it is not intended that such a component is not included in the embodiment.

The advantages and features of the disclosed examples, and how to achieve them, will be clarified with reference to the examples described below with the accompanying drawings. However, the present disclosure is not limited to the embodiments disclosed below, but can be embodied in various forms different from each other, and the present embodiment merely makes the present disclosure complete and the present disclosure. Is provided to inform ordinary engineers of the scope of the invention.

The terms used herein will be briefly described, and the disclosed examples will be specifically described. As the terms used herein, we have selected common terms that are as widely used today as possible, taking into account the features in this disclosure, which are the intent or precedents of engineers in the relevant field, new techniques. It can change depending on the appearance of. In addition, there are some terms arbitrarily selected by the applicant in specific cases, and in this case, the meaning will be described in detail in the explanation part of the applicable invention. Therefore, the terms used in this disclosure should be defined based on the meaning of the terms and the general content of the present disclosure, rather than the simple names of the terms.

The singular representation herein includes multiple representations unless the context clearly specifies that it is singular. Also, multiple expressions include a singular expression unless the context clearly specifies that they are plural. When a part of the specification contains a component, it is possible to include other components further, rather than excluding other components, unless otherwise stated. Means.

Also, as used herein, the term "module" or "part" means a software or hardware component, and the "module" or "part" performs a role. However, "module" or "part" is not limited to software or hardware. A "module" or "part" can be configured to be in an addressable storage medium and can be configured to regenerate one or more processors. Therefore, as an example, a "module" or "part" can be a component such as a software component, an object-oriented software component, a class component, a task component, and a process, function, attribute, procedure, subroutine, or program code. Can include at least one of a segment, driver, firmware, microcode, circuit, data, database, data structure, table, array or variable. A component and a "module" or "part" may be combined by a smaller number of components and a "module" or "part", or further separated from an additional component into a "module" or "part". Can be done.

According to one embodiment of the present disclosure, a "module" or "part" can be embodied in a processor and memory. "Processor" should be broadly interpreted to include general purpose processors, central processing units (CPUs), microprocessors, digital signal processors (DSPs), controllers, microprocessors, state machines, and the like. In some environments, the "processor" can also refer to custom semiconductors (ASICs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs), and the like. "Processor" is, for example, a combination of DSP and microprocessor, a combination of multiple microprocessors, a combination of one or more microprocessors combined with a DSP core, or any other combination of such configurations. It can also refer to a combination of processing devices. Also, "memory" should be broadly interpreted to include any electronic component capable of storing electronic information. "Memory" includes random access memory (RAM), read-only memory (ROM), non-volatile random access memory (NVRAM), programmable read-only memory (PROM), erase-programmable read-only memory (EPROM), Various types such as electrically erasable PROM (EEPROM), flash memory, magnetic or optical data storage devices, processors such as registers-readable media, etc. can also be referred to. If the processor can read information from and / or record information in memory, the memory is said to be in electronic communication with the processor. The memory integrated in the processor is in electronic communication with the processor.

In this disclosure, an Intelligent Personal Assistant or Intelligent Personal Assistant is configured to process user-requested work and provide user-specific services, much like a personal assistant. Modules can be included. According to one embodiment, the intelligent personal assistant can be configured to receive voice commands from the user and provide services corresponding to the voice commands. Intelligent personal assistants can also be configured to provide synthetic speech for such services. For example, an intelligent personal assistant can receive voice commands from the user for the departure timer providing service and output a notification message to the timer for the departure time. At this time, the synthetic voice corresponding to the notification message can be output.

In the present disclosure, the timer can be configured to output synthetic speech and / or an image (video) at a predetermined time. These timers can be provided by an intelligent personal assistant. The departure timer can also tell you how much departure time is left before the time the user has to depart from the departure point to the destination. For example, if the current time is a specific time before a given departure time (eg, 20 minutes before), the departure timer will notify via audio and / or image that there is 20 minutes left until the departure time. Can inform the user. Here, the current time can be determined based on the time information received by the time module configured to measure the time by the processor. For example, the time module can be included in the user terminal along with the processor. As another example, the time module is included in a device separate from the processor and can transmit time information to the processor via wireless communication.

In the present disclosure, any algorithm or technique known in the field of speech recognition to perform Speech-to-Text (STT) can be used to recognize the user's speech. For example, an intelligent personal assistant can use an artificial intelligence voice-text transcription model to recognize a user's request and / or command from the user's voice. The speech-text transcription models of these artificial neural networks can output and generate text corresponding to a given speech. In addition, the speech-text transcription model of an artificial neural network can be trained using training data (for example, a set of speech and its corresponding text). And, unlike this, the intelligent personal assistant can compare the generated text with the reference text corresponding to the pre-stored request and recognize the user's request and / or command based on the comparison result. In contrast, an intelligent personal assistant can recognize requests and / or commands corresponding to text generated using natural language processing. Such speech recognition can be performed and output by an information processing system capable of controlling or managing a user terminal or an intelligent personal assistant.

In the present disclosure, any algorithm or technique known in the field of speech synthesis (TTS: Text-to-Speech) is used to output synthetic speech through an intelligent personal secretary. be able to. For example, an intelligent personal assistant can use a text-speech synthesis model of an artificial neural network to provide users with timer-based notifications of departure times. The text-speech synthesis models of these artificial neural networks can be configured to output or generate synthetic speech corresponding to a given text. In addition, the text-speech synthesis model of an artificial neural network can be trained using training data (for example, a set of text and the corresponding speech). Such speech synthesis can be performed and output by an information processing system capable of controlling or managing a user terminal or an intelligent personal assistant.

In the present disclosure, "means of transportation" can include, but is not limited to, any means of transportation used to move from origin to destination, including, for example, automobiles, public transportation. .. In addition, the means of transportation can mean each bus, subway, etc. corresponding to public transportation. For example, the means of transportation include "Line 2 subway", "Line 3 subway", "Shinbon Tang line subway", "3002 bus subway", "14th bus subway", "62-1 bus subway" and the like. be able to. On the other hand, in the present disclosure, the automobile can refer to any means of transportation (for example, a private car, a taxi, etc.) in which the user can move through one vehicle. In contrast, taxis are categorized as a separate mode of transportation, unlike public transport and automobiles, a service that calculates departure times by taking into account not only real-time traffic information, but also the arrival time of the taxi at the point of departure. Can be provided.

In the present disclosure, "real-time traffic information" is traffic information that is updated in real time or at a predetermined cycle (for example, every 1 minute or 5 minutes), and is road traffic information and / or at the time of update. Operation information (public transportation) can be included. In addition, real-time traffic information can include information such as traffic flow (smoothness, traffic congestion, driving, etc.), traffic accidents, and the presence or absence of construction work. Public transport operation information can include any information related to public transport to the stop (eg, bus, subway, etc.), such as estimated arrival time, operating timetable, operating interval, movement between stops. It can include the required time and so on.

In the present disclosure, the "departure timer providing system" may refer to a user terminal or an information providing system.

FIG. 1 is a drawing illustrating an example of providing a departure timer through an intelligent personal assistant according to an embodiment of the present disclosure. According to one embodiment, the user terminal (110) can include the Intelligent Personal Assistant and provide services through the intelligent personal assistant to the user (100). For example, such an intelligent personal secretary is provided to a user terminal (110) in the form of an application, receives user voice (eg, a command) via a microphone (not shown) of the user terminal, and receives voice. Synthetic voice can be output via the speaker (not shown) of the user terminal (110) in response to the command. Further, such an intelligent personal assistant can receive an input from the user (100) via the display (for example, a touch screen) of the user terminal (110) and display output information via the display.

To provide a departure timer through an intelligent personal assistant, the user terminal (110) can receive a departure point and a destination. According to one embodiment, the user (100) can enter a starting point (eg, current location) and a destination via the user interface of an intelligent personal assistant displayed on the display of the user terminal (110). According to another embodiment, the user terminal (110) can receive these origins and / or destinations by recognizing the user voice received via the microphone of the user terminal (110). .. According to still another embodiment, the user terminal (110) can receive the departure place information determined based on the position information measured through the GPS (Global Positioning System) module. For example, such a GPS module can be mounted on or embedded in a user terminal (110).

The user terminal (110) can receive the means of transportation used for the route from the origin to the destination. According to one embodiment, the user (100) can select the means of transportation used for the route from origin to destination via the user interface of an intelligent personal assistant. Here, the means of transportation can include any means of transportation that can be used for the route from the origin to the destination, including, for example, automobiles, public transportation (buses, subways, etc.), walking, and the like. However, it is not limited to this. For example, if the user (100) inputs a departure point and a destination through the user interface of an intelligent personal assistant, the user terminal (110) may display one or more routes from the departure point to the destination. can. Then, when one route is selected from the displayed one or more routes, the user terminal (110) sets the means of transportation available for the selected route to the route from the departure point to the destination. It can be received as the means of transportation used.

The user terminal (110) can receive the target arrival time for the destination. According to one embodiment, the user (100) can enter a target arrival time to a destination via the user interface of an intelligent personal assistant. Here, the target arrival time with respect to the destination can refer to the time when the user (100) is about to arrive at the destination, and can be used to determine the departure time. For example, in order to prevent the user (100) from being late for the target arrival time for the destination, the user terminal (110) has a specific time (for example, 10 am) from the target arrival time received from the user (100). The departure time can be determined based on an earlier time (eg, 9:55 am) (eg, 5 minutes). That is, in order to calculate the departure time, not only the target arrival time but also the spare time can be taken into consideration.

The user terminal (110) can determine the departure time based on the estimated time required for the route from the departure point to the destination using the transportation means and the received target arrival time. According to one embodiment, the user (100) can utter a voice command (120) saying "Please give me a departure timer", and the user terminal (110) recognizes the received user voice. You can extract the command "Please give me a departure timer". In this case, the user terminal (110) can determine the departure time based on the estimated time required for the route from the departure point to the destination and the target arrival time. In contrast, if the origin, destination and / or target arrival time has not yet been received, the user terminal (110) can output an input request for information that has not been received.

According to one embodiment, the user terminal (110) divides one or more subroutes between routes from a departure point to a destination and calculates the time required to pass through each of the divided subroutes. Therefore, the estimated required time for the route from the departure point to the destination can be calculated. For this purpose, the user terminal (110) can use real-time traffic information (including operation information) received from another external system. On the other hand, the user terminal (110) can utilize the average time required to pass each or the route of each subroute (for example, the normal required time based on the pattern traffic information). According to another embodiment, the user terminal (110) is for a route from origin to destination calculated by an information processing system (eg, a server, cloud system, etc.) capable of controlling or performing an intelligent personal assistant. You can receive the estimated travel time.

The user terminal (110) can set a timer for the determined departure time. In one embodiment, the user terminal (110) may include a start utterance, a timer utterance, and an end utterance in the notification when setting a timer for a determined departure time. For example, if the start utterance time is 60 minutes, the timer utterance will be notified when the remaining time from the current time to the departure time is 50 minutes, 40 minutes, 30 minutes, 20 minutes, 10 minutes, 5 minutes, and 1 minute. Can be set. Also, when the current time reaches the departure time, the end utterance can be set as a notification. According to another embodiment, the user terminal (110) can determine the notification corresponding to the time difference between the current time and the determined departure time. Here, different notifications can be set according to the remaining time from the current time to the departure time. For example, the notification may include information about the time remaining from the current time to the departure time (eg, 5 minutes, 10 minutes, etc.) and utterances and / or images indicating guidance to the departure time. As yet another example, the notification may include different types, times and / or loudness of the horn sound, depending on the time remaining from the current time to the departure time. According to yet another embodiment, the user terminal (110) can set the notification cycle based on the time difference between the current time and the determined departure time. Here, the user terminal (110) can set the notification cycle earlier when the current time approaches the departure time. For example, the user terminal (110) notifies when the remaining time from the current time to the departure time is 60 minutes, 50 minutes, 40 minutes, 30 minutes, 20 minutes, 10 minutes, 5 minutes, 1 minute, and 0 minutes. Can be set.

The user terminal (110) can output the notification (130) based on the set timer. The user terminal (110) can output a synthetic voice for the notification determined based on the set timer via the speaker. Here, the speaker can be attached to the user terminal (110) or connected wirelessly. In one embodiment, the user terminal (110) responds to receiving the user voice "Please give me a departure timer", and the user terminal (110) notifies via the speaker to start the departure timer. Can be output. For example, if the start speech is set 25 minutes earlier than the departure time using public transportation, the user terminal (110) will say, "The YY bus that arrives 25 minutes later to go to work by XX o'clock. You can output a synthetic voice saying "Please get on. The timer will be executed now." Then, when the current time has passed 5 minutes, the user terminal (110) can output a synthetic voice such as "Buubu, the YY bus is scheduled to arrive in about 20 minutes." That is, the user terminal can output the synthesized voice for the determined alarm at the set notification cycle. In the present disclosure, it has been described that the user terminal (110) provides a synthetic voice as a notification based on a timer for the departure time, but the present invention is not limited to this, and the user terminal (110) may provide the notification using a pre-recorded voice. can.

FIG. 2 is a schematic diagram showing a configuration in which an information processing system (230) is communicably linked to a plurality of user terminals (210_1, 210_2, 210_3) in order to provide a departure timer according to an embodiment of the present disclosure. Is. The information processing system (230) can include a system capable of performing an intelligent personal secretary service (eg, a departure timer providing service) including a voice recognition service and a voice synthesis service via a network (220). In one embodiment, the information processing system (230) is a computer-runnable program (eg, a downloadable application) associated with a voice recognition and synthesis service for configuration and timer setting to set a timer for departure time. It can include one or more server devices and / or databases capable of storing, providing and executing data, or one or more distributed computing devices and / or distributed databases in a cloud computing service infrastructure. The departure timer providing service provided by the information processing system (230) can be provided to the user through an intelligent personal assistant installed in each of the plurality of user terminals (210_1, 210_2, 210_3). For example, an intelligent personal assistant can include a voice recognition service, a timer providing service for departure times, a voice synthesis service, and the like. The plurality of user terminals (210_1, 210_2, 210_3) can communicate with the information processing system (230) via the network (220). The network (220) can be configured to allow communication between a plurality of user terminals (210_1, 210_2, 210_3) and an information processing system (230). The network (220) may be, for example, an Ethernet, a wired home network (Power Line Communication), a telephone line communication device, a wired network such as RS-serial communication, a mobile communication network, or a WLAN (Wireless LAN), depending on the installation environment. ), Wi-Fi, Ethernet and ZigBee and the like, and can be configured by a wireless network or a combination thereof. The communication method is not limited, and not only the communication method utilizing the communication network (for example, mobile communication network, wired Internet, wireless Internet, broadcasting network, satellite network, etc.) that can be included in the network (220), but also the user terminal. Short-range wireless communication between (210_1, 210_1, 210_3) can also be included.

In FIG. 2, an electronic clock (210_1), a speaker (210_2) and a mobile terminal (210_3) are illustrated as examples of user terminals, but the user terminals (210_1, 210_2, 210_3) are wired and / Or wireless communication is possible, speakers can be mounted or connected to output audio, and an intelligent personal assistant can be installed and run on any computing device. For example, user terminals include smartphones, mobile phones, AI speakers, navigation systems, computers, laptops, digital broadcasting terminals, PDAs (Personal Digital Assistants), PMPs (Portable Multimedia Players), tablet PCs, game consoles, and game consoles. Wearable devices, IoT (internet of things) devices, VR (virtual reality) devices, AR (augmented reality) devices, and the like can be included. Further, FIG. 2 shows that three user terminals (210_1, 210_2, 210_3) communicate with the information processing system (230) via the network (220), but the number is not limited to this and is different. The user terminal can also be configured to communicate with the information processing system (230) via the network (220).

In one embodiment, the information processing system (230) can provide a timer for departure time through an intelligent personal assistant operating on a user terminal (210_1, 210_2, 210_3). According to one embodiment, the information processing system (230) can generate a text corresponding to a user voice received through an intelligent personal assistant and recognize the user voice based on the generated text. Then, the information processing system (230) can provide the intelligent personal assistant with a command or information corresponding to the user voice recognized in this way. In addition, the information processing system (230) can generate synthetic voice corresponding to the remaining time based on the timer for the departure time, and output the generated synthetic voice through the intelligent personal assistant.

FIG. 3 is a block diagram showing an internal configuration of a user terminal (210) and an information processing system (230) according to an embodiment of the present disclosure. The user terminal (210) can refer to any computing device capable of being executed by an intelligent personal assistant and capable of wired / wireless communication, such as the electronic clock (210_1), speaker (210_2) and the speaker (210_2) of FIG. A mobile terminal (210_3) or the like can be included. As illustrated, the user terminal (210) can include a memory (312), a processor (314), a communication module (316) and an input / output interface (318). Similarly, the information processing system (230) can include a memory (332), a processor (334), a communication module (336) and an input / output interface (338). As illustrated in FIG. 3, the user terminal (210) and the information processing system (230) utilize their respective communication modules (316, 336) to transfer information and / or data via the network (220). Can be configured to be communicable. Further, the input / output device (320) inputs information and / or data to the user terminal (210) via the input / output interface (318), and inputs information and / or data generated from the user terminal (210). It can be configured to output.

The memory (312, 332) can include any non-temporary computer-readable recording medium. According to one embodiment, the memory (312, 332) is non-volatile such as RAM (random access memory), ROM (read only memory), disk drive, SSD (solid state drive), flash memory (flash memory), and the like. A large capacity storage device (permanent mass storage device) can be included. As another example, non-volatile large capacity storage devices such as ROMs, SSDs, flash memories, disk drives, etc. are used as separate permanent storage devices to be distinguished from memory, such as user terminals (210) or information processing systems (230). Can be included in. Further, the memory (312, 332) can store an operating system and at least one program code (for example, a code for an intelligent personal assistant installed and driven in a user terminal (210)). ..

Such software components can be loaded from a computer-readable recording medium separate from the memory (312, 332). Such separate computer-readable recording media can include recording media that can be directly linked to these user terminals (210) and information processing systems (230), such as floppy drives, disks, tapes, etc. It can include computer-readable recording media such as DVD / CD-ROM drives and memory cards. As another example, software components can also be loaded into memory (312, 332) via a communication module rather than a computer-readable recording medium. For example, at least one program is a computer program installed by a file provided by a file distribution system that distributes a developer or application installation file (eg, an application that provides an intelligent personal secretary service). Can be loaded into memory (312, 332) based on.

The processor (314, 334) can be configured to process the instructions of a computer program by performing basic arithmetic, logic and input / output operations. Instructions can be provided to the processor (314, 334) by memory (312, 332) or communication module (316, 336). For example, the processor (314, 334) can be configured to execute an instruction received based on a program code stored in a recording device such as a memory (312, 332).

The communication module (316, 336) can provide a configuration or function for the user terminal (210) and the information processing system (230) to communicate with each other via the network (220), and the user terminal (210) and the information processing system (230) can be provided. / Or the information processing system (230) can provide a configuration or function for communicating with another user terminal or another system (eg, a separate cloud system, a system that provides separate traffic status information, etc.). .. As an example, a request or data (for example, a user voice recognition request, a means of transportation) generated by a processor (314) of a user terminal (210) based on a program code stored in a recording device such as a memory (312). The communication module (request for the estimated travel time of the route from the used departure point to the destination, the request for determining the departure time related to the departure timer, the request for providing synthetic voice corresponding to the notification by the timer for the departure time, etc.) It can be transmitted by the information processing system (230) via the network (220) based on the control of 316). On the contrary, the control signals and instructions provided based on the control of the processor (334) of the information processing system (230) are transmitted to the communication module (210) of the user terminal (210) via the communication module (336) and the network (220). It can be received by the user terminal (210) through 316). For example, the user terminal (210) receives information recognized from the user voice, an estimated required time, a departure time, a synthetic voice corresponding to the notification, and the like from the information processing system (230) via the communication module (316). Can be done.

The input / output interface (318) can be a means for an interface with the input / output device (320). As an example, the input device is a device such as a camera, keyboard, mouse including a microphone, audio sensor and / or image sensor, and the output device is a device such as a display, speaker, haptic feedback device (haptic feedback device) and the like. Can be included. As another example, the input / output interface (318) can be a means for an interface with a device that integrates configurations or functions for performing inputs and outputs, such as a touch screen. .. For example, when the processor (314) of the user terminal (210) processes an instruction of a computer program loaded in the memory (312), the information and / or data provided by the information processing system (230) or another user terminal is processed. The service screen configured by the user and the image corresponding to the traffic condition or the notification can be displayed on the display via the input / output interface (318). In FIG. 3, the input / output device (320) is shown so as not to be included in the user terminal (210), but the present invention is not limited to this, and the input / output device (320) can be composed of the user terminal (210) and one device. .. Further, the input / output interface (338) of the information processing system (230) can be connected to the information processing system (230) or include the information processing system (230) for input or output (FIG. FIG. Can be a means for interface with (not shown). In FIG. 3, the input / output interface (318, 338) is illustrated as an element configured separately from the processor (314, 334), but the input / output interface (318, 338) is the processor (314). It can be configured to be included in 334).

The user terminal (210) and the information processing system (230) can include more components than those in FIG. However, it is not necessary to clearly illustrate the components of most prior art. According to one embodiment, the user terminal (210) can be embodied to include at least a portion of the input / output devices (320) described above. Further, the user terminal (210) can further include other components such as a GPS module, a transceiver, various sensors, a database, and the like. For example, when the user terminal (210) is a smartphone, it is possible to include components generally included in the smartphone, for example, an accelerometer, a gyro sensor, a camera module, various physical buttons, and a touch panel. Various components such as buttons, input / output ports, and vibrators for vibration can be further embodied in the user terminal (210).

According to one embodiment, the processor (314) of the user terminal (210) can be configured to operate an application or map application that provides an intelligent personal assistant service, including a departure timer providing service. At this time, the program code related to the corresponding application can be loaded into the memory (312) of the user terminal (210). While the application is running, the processor (314) of the user terminal (210) receives and / or communicates information and / or data provided by the input / output device (320) via the input / output interface (318). Information and / or data can be received from the information processing system (230) via the module (316), and the received information and / or data can be processed and stored in the memory (312). .. Further, such information and / or data can be provided to the information processing system (230) via the communication module (316).

While the application providing the intelligent personal secretary service is running, the processor (314) is a camera including a touch screen, microphone, touch pad, keyboard, audio sensor and / or image sensor coupled with an input / output interface (318). It is possible to receive input or selected audio, text, image, video, etc. via an input device such as, and store the received audio, text, image and / or video, etc. in the memory (312). It can be provided to the information processing system (230) via the communication module (316) and the network (220). In one embodiment, the processor (314) can provide the user voice received via the input device to the information processing system (230) via the network (220) and the communication module (316). Alternatively, the processor (314) may recognize the user voice and provide the recognized information to the information processing system (230) by transcribing the user voice into text using an arbitrary STT model. can.

The processor (334) of the information processing system (230) can be configured to manage, process and / or store information and / or data received from multiple user terminals and / or multiple external systems. .. In one embodiment, the processor (334) can recognize the user voice by transcribing the user voice received from the user terminal into text using an arbitrary STT model. The processor (334) can receive the departure point, the destination, the means of transportation and the target arrival time from the user terminal, and can determine the estimated required time of the route from the place of departure to the destination using the means of transportation. In this case, the processor (334) can utilize real-time traffic information (including operation information) and / or information regarding the average required time for each route or subroute. This information can be received and stored from a separate external system. In addition, the processor (334) can determine the departure time based on the determined estimated duration and the received target arrival time. Further, the processor (334) can set a timer for the determined departure time and provide the user terminal with information regarding the notification by the set timer. For example, the processor (334) can provide the user terminal with synthetic speech corresponding to the notification determined based on the remaining time from the current time to the determined departure time.

FIG. 4 is a flowchart showing a method (400) for providing a departure timer according to an embodiment of the present disclosure. In one embodiment, the method of providing a departure timer (400) can be performed by an information processing system (eg, a processor of the information processing system). In another embodiment, the method of providing a departure timer (400) can be performed by a user terminal (eg, the processor of the user terminal). For example, when the user terminal determines the departure time based on the estimated required time of the route from the departure point to the destination using the transportation means and the target arrival time, the user terminal determines each step of the method of providing the departure timer (400). Can be carried out. In yet another embodiment, the information processing system (eg, the processor of the information processing system) and the user terminal (eg, the processor of the user terminal) can perform the steps of the departure timer providing method (400) separately.

As illustrated, a method of providing a departure timer (400) can be disclosed as a step of receiving a departure point and a destination (S410). According to one embodiment, the origin and destination can be received via the user interface provided by the intelligent personal assistant. For example, the processor can receive an automatically determined departure point based on the location information of a user terminal that includes an intelligent personal assistant. The processor may also receive one or more preferred locations from a timer-related map application, and the destination may include one or more of the received preferred locations.

The processor can receive the means of transportation used for the route from the origin to the destination (S420). According to one embodiment, the means of transportation can be received via the user interface provided by the intelligent personal assistant. For example, the means of transportation can include automobiles, public transportation, walking and the like. Here, public transportation can include any means of transportation available to the public, including buses, subways, and the like.

The processor can receive the target arrival time for the destination (S430). According to one embodiment, the processor can output synthetic speech indicating a question about the target arrival time. In response to a synthetic voice indicating a question about the target arrival time, the processor can receive a user voice indicating the target arrival time. Then, the processor can recognize the target arrival time from the user voice.

The processor can determine the departure time based on the estimated travel time of the route from the origin to the destination using the means of transportation and the received target arrival time (S440). According to one embodiment, the processor can determine the estimated travel time based on real-time traffic information for the means of transportation used for the route from origin to destination. According to another embodiment, the processor can periodically receive real-time traffic information for the means of transportation used for the route from the origin to the destination. Each time the real-time traffic information is periodically received, the processor can update the estimated duration based on the real-time traffic information. The processor can then update the departure time based on the updated estimated travel time and target arrival time.

The processor can set a timer for the determined departure time (S450). According to one embodiment, the processor can receive a user voice indicating a timer request for a departure time. In this case, the processor can set a timer for the departure time based on the time the user voice is received. According to another embodiment, the processor can determine the notification corresponding to the time difference between the current time and the determined departure time. In addition, the processor can set the notification cycle based on the time difference between the current time and the determined departure time. According to yet another embodiment, if the departure time is updated based on the updated estimated duration and target arrival time, the processor may update the timer with the updated departure time and current time. can. At this time, the processor can set the notification cycle of the timer to be shorter if the updated departure time is earlier than the determined departure time. According to yet another embodiment, the processor can receive the day of the week and the start time for the automatic execution request of the timer. In this case, the processor can automatically set the timer based on the determined departure time and current time when the current time reaches the day and start time for the timer's automatic execution request.

Then, the processor can output the notification based on the set timer (S460). According to one embodiment, the processor can output synthetic speech (eg, TTS speech) corresponding to the notification by the set timer. For example, if the notification corresponding to the time difference between the current time and the determined departure time is determined and the notification cycle is set based on the time difference between the current time and the determined departure time, the processor is set. It is possible to output a synthetic voice for the notification determined by the notification cycle. As another embodiment, the processor can output a notification by a set timer with a predetermined sound (for example, a horn sound). In yet another embodiment, the processor can output a notification by a set timer using all of the synthetic speech and the predetermined sound.

According to one embodiment, the processor can terminate the timer when the current time reaches the departure time. In response to the step of terminating the timer, the processor can run a map application associated with the timer. For this, the processor can output a message as to whether to run the map application associated with the timer. In addition, the processor can receive a response indicating the execution of the map application and execute the timer-related map application based on the received response. The processor can then output information about the route from the origin to the destination via a map application associated with the timer.

According to one embodiment, the processor can receive a user voice indicating a request for real-time road traffic conditions. When the request is recognized from the received user voice, the processor can receive real-time road traffic information for the route from the origin to the destination. In addition, the processor can compare the estimated travel time with the average travel time, where the estimated travel time can be determined based on real-time road traffic information. Then, the processor can output the notification corresponding to the comparison result. In addition, the processor can output the pictograms corresponding to the comparison results.

FIG. 5 is a flowchart showing a method (500) of providing a departure timer according to another embodiment of the present disclosure. In the present disclosure, the method of providing a departure timer (500) can be performed by a processor (eg, processor (314) and / or processor (334)). As illustrated in FIG. 5, the processor can receive a user voice containing a request associated with a departure timer (S510).

Then, the processor can recognize the user's request related to the departure timer from the received user voice (S520). According to one embodiment, the user's request can include a timer request for departure time, a real-time road traffic condition request, and a timer request for public transportation. Then, the processor can output the notification corresponding to the recognized request (S530).

If the received user voice indicates a timer request for the departure time, the processor may set a timer for the departure time and output a notification. According to one embodiment, a user voice indicating a timer request for the departure time can be received, and a timer for the departure time can be set based on the time when the user voice is received.

If the received user voice indicates a real-time road traffic condition request, the processor can output a notification for the real-time road traffic condition. For this, the processor can receive real-time road traffic information for the route from the origin to the destination. In addition, the processor can compare the expected travel time for the route from the origin to the destination with the average travel time for the same route and output a notification corresponding to the comparison result. Here, the estimated required time can be determined based on the received real-time road traffic information. The processor can also receive information about the average duration (eg, normal duration based on pattern traffic information) from an information processing system or an external system.

If the received user voice indicates a timer request for public transport, the processor may set a timer for public transport and output a notification. According to one embodiment, the processor can receive the origin and destination. The processor can also select the means of transportation used for the route from the origin to the destination. If the mode of transportation selected is public transport, the processor may receive a user voice indicating an arrival timer request for public transport. When such a user voice recognizes a request for an arrival timer for public transportation, the processor can receive real-time operation information for the first stop on the route from the origin to the destination. The processor can determine the departure time based on the time when the real-time operation information and user voice are received, can set a timer for the determined departure time, and can output a notification based on the set timer. can.

Table 1 below shows examples of user voices corresponding to each request. The processor can recognize the voice indicating the request in addition to the examples shown in the table below.

図６は、本開示の一実施例に係る設定されたタイマーに基づいて通知が出力される例示を示す図面である。このような通知を出力する過程は、プロセッサ（例えば、プロセッサ（３１４）および/またはプロセッサ（３３４））によって実行されることができる。ここで、設定されたタイマーに基づいて出力される通知は、合成音声、効果音などを含む聴覚的通知、ポップアップメッセージ通知、点滅通知などを含む視覚的な通知または振動通知のうち少なくとも１つであることができる。例えば、設定されたタイマーに基づいて出力される合成音声は、テキスト-音声合成人工ニューラルネットワークモデルを介して出力された音声であることができる。

FIG. 6 is a drawing showing an example in which a notification is output based on a set timer according to an embodiment of the present disclosure. The process of outputting such a notification can be performed by a processor (eg, processor (314) and / or processor (334)). Here, the notification output based on the set timer is at least one of an auditory notification including synthetic voice, a sound effect, a pop-up message notification, a blinking notification, and a visual notification or a vibration notification. There can be. For example, the synthetic speech output based on the set timer can be the speech output via the text-speech synthesis artificial neural network model.

According to the contents illustrated in FIG. 6, the notifications output from the time when the user voice is received to the departure time are timer start standby notification (610), timer start notification (620), remaining time notification (630), and the like. It can include, but is not limited to, a departure time imminent notification (640), a timer end notification (650), and the like, and the type and / or number of notifications can be different based on the timer settings. According to one embodiment, if the time difference between the time when the user voice indicating the timer request for the departure time is received and the departure time is 1 hour or less, the processor immediately sets or starts the timer, and therefore waits for the timer to start. The notification (610) may not be output. According to another embodiment, if the time when the user voice indicating the timer request for the departure time is received is the same as the departure time, a notification prompting the departure can be output. In yet another embodiment, if it is determined that the departure time is earlier than the time when the user voice indicating the timer request for the departure time is received, it is determined based on the time when the user voice is received. It is possible to output a notification including information on the estimated arrival time.

When the processor sets or starts the timer, it can output a timer start notification (620) to notify the start of the timer. For example, when a user voice indicating a request for a timer for the departure time is received, the timer for the departure time is set and the timer start notification (620) can be output. As another example, if the time difference between the time when the user voice indicating the timer request for the departure time is received and the departure time exceeds the preset maximum time difference, the processor outputs a timer start wait notification (610). After that, when the time difference between the current time and the departure time becomes less than or equal to the preset maximum time difference (for example, 60 minutes, 90 minutes, 120 minutes, etc.), a timer start notification (620) is output in response to the timer. Can be set or started. As yet another example, the time difference between the time when the user voice indicating the timer request for the departure time is received and the departure time is between the first criterion (for example, 90 minutes) and the second criterion (for example, 60 minutes). If the above is true, the processor can output a timer start wait notification (610) to set or start the timer. After that, when the time difference between the current time and the departure time reaches the second criterion, the timer start notification (620) can be output in response to the second criterion. Here, the time difference corresponding to the first criterion can be larger than the time difference corresponding to the second criterion.

As illustrated, the processor may output a timer start wait notification (610) if the difference between the time the user voice indicating the timer request for the departure time is received and the departure time is 65 minutes. Then, the processor can output a timer start notification (620) when the difference between the current time and the departure time becomes 60 minutes. For example, the timer start notification (620) may be output in the form of a synthetic voice containing information about the departure time, the time when the user voice indicating the timer request for the departure time is received, the time difference between the departure time, and the like. can.

Also, after the timer start notification (620), the remaining time notification (630) or the departure time approach notification (640) is synthesized including information on the time difference between the current time and the departure time, that is, the remaining time from the current time to the departure time. It can be output in the form of voice.

Table 2 below shows an example of synthetic speech for each notification category. The processor can output the synthetic voice and the sound effect (for example, the sound of a horn such as "Boo Boo") together. The part displayed in middle brackets below is the destination (De: place name or identification information such as house, company, etc.) for the timer, target arrival time (a, b), time difference between current time and departure time (De). Information on c, d), estimated required time (e, f), public transportation information (n: bus route number, subway route number, etc.) can be inserted.

プロセッサは、予想所要時間およびターゲット到着時間に基づいて決定された出発時間と現在時間の間の時間差に対応する通知を決定し、決定された通知を出力することができる。一実施例によると、現在時間と決定された出発時間の間の時間差に基づいて通知周期を設定することができ、設定された通知周期で合成音声を出力することができる。例えば、図示されたように、現在時間と決定された出発時間の間の時間差が、３０分から５９分５９秒の間に含まれる場合、１０分の周期で合成音声を出力し、５分から２９分５９秒の間に含まれる場合、５分の周期で合成音声が出力し、０分から４分５９秒の間に含まれる場合、１分の周期で合成音声を出力することができる。ここで、合成音声は、現在時間と決定された出発時間の間の時間差に関する情報を含むことができる。

The processor can determine the notification corresponding to the time difference between the departure time and the current time determined based on the estimated duration and the target arrival time, and output the determined notification. According to one embodiment, the notification cycle can be set based on the time difference between the current time and the determined departure time, and the synthetic voice can be output in the set notification cycle. For example, as shown in the figure, if the time difference between the current time and the determined departure time is included between 30 minutes and 59 minutes 59 seconds, the synthesized speech is output in a cycle of 10 minutes and 5 minutes to 29 minutes. If it is included in the interval of 59 seconds, the synthetic voice can be output in a cycle of 5 minutes, and if it is included in the period of 0 minutes to 4 minutes 59 seconds, the synthetic voice can be output in a cycle of 1 minute. Here, the synthetic speech can include information about the time difference between the current time and the determined departure time.

FIG. 7 is a drawing showing an example in which the departure time according to the embodiment of the present disclosure is determined. The process of determining such a departure time can be performed by a processor (eg, processor (314) and / or processor (334)). According to one embodiment, when the user requests the start of the departure timer, the processor can output a synthetic voice notifying the start of the departure timer. As shown in the figure, a synthetic voice saying "The departure timer will start. To arrive by 11:00 am, please depart about 20 minutes later and take the 14th bus." can.

The processor can determine the departure time (730) based on the estimated travel time and target arrival time (720) of the route from the origin to the destination using the means of transportation to provide the departure timer service. ..

In one embodiment, if the means of transportation is public transport, the estimated travel time for the route from the departure point to the destination is the walking travel time from the departure point to the first boarding stop (712), at the first stop. It can correspond to the total estimated required time including all the estimated required time (710) and the spare time (714) from the time of boarding public transportation to the time of arriving at the destination. Here, the estimated travel time (710) from the public transport boarding time at the first stop to the arrival time at the destination includes the public transport travel time and the walking travel time from the last stop to the destination. be able to. In addition, when multiple public transportation systems are used on the route from the departure point to the destination, the estimated travel time (710) from the time of boarding the public transportation system at the first stop to the time of arrival at the destination is public. Walking travel time between transportation transfers can be further included. On the other hand, the walking travel time (712) from the departure point to the first stop is calculated by adding the departure and / or preparation time or waiting time at the first stop to the walking time from the departure point to the first stop. Can be done.

The processor can determine the estimated duration of the route from origin to destination based on real-time traffic information for the means of transportation used for the route from origin to destination. That is, if the mode of transportation used for the route from the origin to the destination is one or more public transports, the real-time operation information (740) for one or more public transports used on the route. Based on this, the estimated travel time from the departure point to the destination can be determined.

According to one embodiment, the processor determines the first public transport boarding time, estimated arrival time and spare time (714) based on real-time public transport operation information (740) and target arrival time (720). Can be done. For example, the processor will arrive at the destination at 10 o'clock if the user gets on a bus that stops 15 minutes later (10:05) at the first stop based on real-time operation information (740) of public transportation. Arriving at 45 minutes means arriving at the destination at 10:55 when boarding a bus that stops 25 minutes later (10:15), 35 minutes later (10:25) If you take a bus that stops at), you can calculate that you will arrive at your destination at 11:05. The processor sets the first public transport time at 10:15, which is the boarding time that the user can arrive at the destination before the target arrival time (720) at 10:55, which is close to the target arrival time. It can be determined as the boarding time.

That is, the processor can determine the bus boarding time (first public transport boarding time) at 10:15 and the estimated arrival time at 10:55, as shown in the illustrated timetable (700). The spare time (714) can be determined to be 5 minutes, which is the time between the scheduled arrival time (750) and the target arrival time (720). Therefore, the processor is 5 minutes on foot from the departure point to the first stop (712), and the estimated travel time from the public transport boarding time at the first stop to the time to reach the destination (710). The estimated travel time of the route from the departure point to the destination can be calculated as 50 minutes by combining the 40 minutes and the spare time of 5 minutes. Further, the processor determines the departure time (730) as 10:10, which is obtained by subtracting the estimated required time of 50 minutes for the route from the departure point to the destination from 11:00, which is the target arrival time (720). Can be done.

The processor can periodically receive real-time traffic information for the mode of transportation used for the route from the origin to the destination, and each time the real-time traffic information is periodically received, it is based on the real-time traffic information. You can update the estimated travel time of the route from the departure point to the destination. That is, if the mode of transportation used for the route is one or more public transports, the processor periodically receives real-time operational information (740) for the one or more public transports used for the route. And every time the real-time operation information (740) is periodically received, the estimated travel time and departure time (730) of the route from the departure point to the destination are updated based on the real-time operation information (740). can do.

According to one embodiment, the processor periodically receives the real-time operation information (740), and based on the real-time operation information (740), the public transportation boarding time, the estimated arrival time, and the margin at the first stop. The time (714) can be updated. For example, it is possible to receive real-time operation information (740) in which the bus stop time at the first boarding stop changes from 25 minutes (10:15) to 27 minutes (10:17). In this case, the processor can update the first public transport boarding time, which was 10:15, to 10:17, and the estimated arrival time to 10:57 accordingly. Further, the spare time (714) can be updated from the conventional 5 minutes to 3 minutes, which is the time between the newly determined scheduled arrival time (10:57) and the target arrival time (11:00). .. Therefore, the processor is 40 minutes, which is the estimated travel time (710) from the public transport boarding time at the first stop to the time to arrive at the destination, and the walking travel time (712) from the departure point to the first boarding stop. The estimated travel time of the route from the departure point to the destination can be updated from 50 minutes to 48 minutes by combining the 5 minutes and the updated spare time of 3 minutes. The processor can update the departure time (730) from 10:10 to 10:12 based on the updated estimated travel time of the route from the departure point to the destination.

As another example, based on existing operation information, if the user gets on a bus that stops 15 minutes later (10:05) at the first stop, he / she arrives at the destination at 10:45. If you board a bus that stops 25 minutes later (10:15), it is expected that you will arrive at your destination at 10:55, but due to changes in real-time operation information (740), the user will be the first stop. If you board a bus that stops 15 minutes later (10:05), you will arrive at your destination at 10:53, and if you board a bus that stops 25 minutes later (10:15), you will arrive at your destination. It can be expected to arrive at the destination at 11:03. In this case, in order for the user to arrive before the target arrival time, the processor updates the first public transport boarding time from 10:15 to 10:05 and the estimated arrival time from 10:55 to 10:53. can do. In other words, the estimated travel time (710) from the public transport boarding time at the first stop to the time to arrive at the destination has been updated from 40 minutes to 48 minutes, and the spare time has also been updated from 5 minutes to 7 minutes (updated arrival schedule). It can be updated to the time between 10:53, which is the time, and 11:00, which is the target arrival time. This allows the processor to update the estimated travel time of the route from origin to destination from 50 minutes to 1 hour, based on the updated estimated travel time of the route from origin to destination. (730) can be updated at 10 o'clock.

FIG. 8 is a drawing illustrating an example in which the departure time according to another embodiment of the present disclosure is determined. The process of determining such a departure time can be performed by a processor (eg, processor (314) and / or processor (334)). The processor determines the departure time (830) based on the estimated travel time (810) and target arrival time (820) of the route from the departure point to the destination using the means of transportation in order to provide the departure timer service. be able to. To this end, the estimated travel time (810) can be determined based on real-time traffic information for the means of transportation used for the route from origin to destination. In one embodiment, if the mode of transportation used for the route from origin to destination is a vehicle, the estimated travel time (810) is in real-time road traffic information (840) for vehicles on the roads included in the route. Can be determined on the basis.

For example, as shown in the illustrated timetable (800), the estimated required time (810) is calculated based on the real-time road traffic conditions of A Road, B Expressway, and C Road included in the route from the departure point to the destination. Can be decided. In FIG. 8, the processor expects that it will take 20 minutes by car to reach the destination from the starting point, 30 minutes on the B highway, and 10 minutes on the C road. The required time (810) can be determined as one hour. Such an estimated required time (810) can be increased or decreased according to the real-time road traffic information (840) even if the same route is applied. Since the time obtained by subtracting the estimated required time (810) from the target arrival time (820) can be determined as the departure time (830), in FIG. 8, the processor is 10 o'clock, which is obtained by subtracting 1 hour from 11 o'clock. Can be determined as the departure time (830).

In one embodiment, if the mode of transportation used for the route from origin to destination is an automobile, the processor periodically provides real-time road traffic information (840) for one or more roads contained in the route. Can be received. Each time the real-time road traffic information (840) is periodically received, the processor can update the estimated travel time (810) based on the real-time road traffic information (840). For example, when the travel time on the B expressway is updated from 30 minutes to 40 minutes according to the real-time road traffic condition for the B expressway among the routes from the departure point to the destination shown in FIG. 8, the estimated required time (810) can be updated from 1 hour to 1 hour and 10 minutes. Since the departure time (830) can be updated based on the updated estimated travel time and target arrival time (820), the processor should update the departure time (830) from 10:00 to 9:50. Can be done.

FIG. 9 is a drawing showing an example in which the timer according to the embodiment of the present disclosure is updated. The process of updating such a timer can be performed by a processor (eg, processor (314) and / or processor (334)). The processor can periodically receive real-time traffic information for the means of transportation used for the route from the origin to the destination. For example, the processor can receive real-time traffic information from an information processing system and / or a traffic information providing server at fixed time intervals such as n minutes and n seconds. Each time the real-time traffic information is periodically received, the processor can update the estimated duration based on the real-time traffic information. The processor can update the departure time based on the updated estimated duration and target arrival time, and can use the updated departure time and current time to update the timer.

For example, as illustrated, the processor uses a timer set at 25 minutes 0 seconds (25:00) to time from 25 minutes 0 seconds (25:00) to 13 minutes 0 seconds (13:00). The remaining time that decreases along with the flow can be shown on the display. By updating the estimated duration and departure time, the processor can take advantage of the updated departure and current times to update the remaining time of the timer from 13 minutes to 10 minutes. As a result, the remaining time displayed on the display can be changed from 13:00 (910) to 10:00 (920). After that, the updated timer can show the remaining time on the display, which decreases with the flow of time from 10 minutes 0 seconds (10:00) to 0 minutes 0 seconds (00:00).

In one embodiment, the processor may set the timer notification cycle to be shorter if the updated departure time is earlier than the determined departure time (ie, the departure time before the update). For example, if the departure time is updated earlier, the processor can update the current time and the remaining time of the timer determined at the departure time to decrease, setting the timer notification cycle shorter. be able to.

In FIG. 9, the timer set at 25 minutes and 0 seconds (25:00) can be set so that the notification is output every 5 minutes. Since the updated departure time is 3 minutes earlier than the determined departure time, the timer can be updated to 10 minutes 00 seconds remaining time, which was 13 minutes 00 seconds, and the notification cycle of the updated timer is 3 minutes. Can be set to. This causes the processor to output a notification in 5-minute cycles based on the set timer, i.e., 25 minutes and 20 minutes remaining, based on the updated timer, as shown. The notification can be output in a cycle of 3 minutes, that is, when the remaining time is 10 minutes, 7 minutes, 4 minutes, and 1 minute.

In FIG. 9, the timer is updated once when the updated departure time is earlier than the determined departure time, but the present invention is not limited to this. For example, if the updated departure time is later than the determined departure time, the timer can be updated accordingly. As another example, the processor can update the timer multiple times depending on the cycle at which real-time traffic information is received.

FIG. 10 is a drawing illustrating an example of a user interface for setting a departure timer according to an embodiment of the present disclosure. To provide a departure timer, the user terminal can receive a departure point, a destination, and a means of transportation. For this, the user can enter a starting point, a destination, and a means of transportation through the user interface. The origin, destination and means of transportation thus received can be provided to the processor (eg, processor (314) and / or processor (334)).

In the first operation (1000), the user can enter the starting point and the destination as text in the corresponding areas (1002, 1004), respectively. In contrast, the user may set each of the origin and destination by selecting one of the location lists (not shown) searched using location-related keywords. can. For example, as illustrated, "Station A" as the starting point and "Company" as the destination can be entered or selected via the user interface.

In one embodiment, the departure point can be automatically determined based on the location information of the user terminal. For example, the processor can determine the departure point based on the position information measured through the GPS module built in or mounted on the user terminal. In addition, these departure points can be determined before the estimated time required for timer setting is determined. For example, when a user voice indicating a timer request for a departure time is received, the processor can determine the departure location based on the location information measured through the GPS module. Alternatively, when the day of the week and the start time requested for automatic execution are reached, the processor can automatically determine the departure place based on the location information of the user terminal.

In one embodiment, in the first operation (1000), the processor can select the vehicle as the means of transportation by receiving a touch input to the region (1006) of the user interface indicating the vehicle. Then, the estimated required time (1008) of the route from the departure place to the destination using the automobile can be displayed through the screen. Such an estimated required time (1008) can be determined by using real-time traffic information. Alternatively, the estimated travel time (1008) can be determined to be an average travel time that does not reflect real-time traffic information. For example, the estimated travel time (1008) can be determined to be the average time required to drive from the origin to the destination during the departure time zone.

According to another embodiment, in the second operation (1020), the processor may select the means of transportation for public transportation by receiving a touch input to the area (1022) indicating the public transportation of the user interface. can. A list of public transport candidates (1024), including one or more routes and modes of transportation (such as one or more routes and / or subways) from the origin to the destination and the estimated travel time for them, is displayed on the display. Can be displayed. As illustrated in the second operation (1020), the first route from A station to the company (A station-> B station-> C station-> company) and the first means of transportation (Line 4, 2). Lines 6), 2nd route (A station-> D station-> E station-> company) and 2nd means of transportation (4th line, 3rd line, 6th line) may be displayed. can. The user selects the first means of transportation, Route 4, Line 2, and Line 3, as the means of transportation from the starting point to the destination through touch input to the area corresponding to the first route and the first means of transportation. be able to. On the other hand, if no input indicating the user's selection is received, the first route and the first mode of transportation with the shortest estimated travel time among the routes and modes of transportation included in the public transport candidate list (1024) are selected. It can be selected automatically.

The estimated travel time displayed in the public transport candidate list (1024) can refer to the average travel time for the route as a static estimated travel time that does not reflect real-time traffic information. For example, the average travel time of the first route selected by the user is displayed at 1 hour 19 minutes, which is the time determined based on the distance from station A to the company or the normal travel time of the route and means of transportation. Can be done.

Alternatively, the estimated travel time displayed in the public transport candidate list (1024) is a dynamic estimated travel time that reflects real-time traffic information, that is, the real-time operation information of public transport is reflected. It can correspond to the expected required time.

FIG. 11 is a drawing illustrating an example of a user interface for setting a departure timer according to another embodiment of the present disclosure. As illustrated in the operation (1100) illustrated in FIG. 11, timer information (1102) including the departure point, destination, means of transportation, route, etc. for the departure timer set via the user interface is displayed. be able to. Such timer information (1102) can be modified by user input. For example, "A station" which is the departure place information for the preset departure timer, "company" which is the destination information, "public transportation" which is the transportation means information, and "A station" (4) which is the route and transportation means information. Line)-> B Station (Line 2)-> ... "can be displayed, and the user is displayed via the user interface connected by clicking the" Modify Route "icon (1104). The timer information (1102) can be modified.

To provide a departure timer, the user terminal can receive the target arrival time. In one embodiment, the user can enter the target arrival time via the user interface. For example, as illustrated, the user can set the target arrival time at 11:00 am through the area (1106) corresponding to the arrival time setting.

In another embodiment, the processor can output synthetic speech indicating a question about the target arrival time. In response to a synthetic voice indicating a question about the target arrival time, the processor can receive a user voice indicating the target arrival time and recognize the target arrival time from the user voice. For example, the processor can output a synthetic voice "What time do you need to arrive today?" Through the speaker associated with the user terminal, which is the user voice received in response. The target arrival time can be recognized as OO time from "OO time".

According to one embodiment, the processor can be configured to receive a day of the week and a start time for an auto-execution request. As illustrated in operation (1100), the departure timer can be set to run automatically at 10 am on Tuesdays, Wednesdays, and Fridays through the region (1108) corresponding to automatic execution. When the current time reaches the day of the week and the start time for requesting the automatic execution of the preset timer, the timer can be automatically set based on the determined departure time and current time. That is, the processor can automatically set or start the departure timer on the day of the week and the time through a preset automatic execution request.

In FIG. 11, the set departure timer information, the area corresponding to the arrival time setting, and the area corresponding to the automatic execution setting are displayed on one screen, but the area is not limited to this, and each is separately displayed. Can be displayed on the screen.

FIG. 12 is a drawing illustrating an example in which a map application related to a departure timer according to an embodiment of the present disclosure is executed. The process of executing such a map application can be performed by a processor (eg, processor (314) and / or processor (334)). When the current time reaches the departure time, the processor can terminate the timer and respond to it by running a map application associated with the timer. In addition, information about the route from the starting point to the destination can be output via a map application related to a timer.

As illustrated in operation (1200). In response to the end of the timer, information (1202) for the route from the origin to the destination can be displayed via the map application associated with the timer. Information (1202) for the route from A station B line (general railway) to the company using public transportation lines 4, 2 and Shinbon Tang subway can be displayed. Here, the information (1202) can include information used to set the expired timer. For example, the information (1202) is the departure point "A station B line (general railway)", the destination "company", the route (A station-> C station-> D station-> company), and the expected requirement. It can include time (1 hour 19 minutes) and the like. Further, although not shown, the departure time, target arrival time, and estimated arrival time can be displayed together in relation to such a route.

In one embodiment, the processor may output a message as to whether the timer-related map application needs to be executed in response to the current time reaching the departure time and terminating the timer. The processor can receive a response indicating the execution of the map application and execute the map application related to the timer based on the received response. That is, it can be determined whether or not to execute the map application for route guidance according to the user's choice.

FIG. 13 is a drawing illustrating an example showing a preferred location received from a map application associated with a departure timer according to an embodiment of the present disclosure. Such a process can be performed by a processor (eg, processor (314) and / or processor (334)). According to one embodiment, in setting the departure timer, the processor can receive one or more preferred locations from the map application associated with the timer, and the destination is one of one or more preferred locations. Can include one. That is, the processor can receive the location selected by the user from the preferred locations received from the map application associated with the departure timer as the destination for the departure timer.

As illustrated in operation (1300), a user interface can be displayed that allows the user to enter, search, or select a destination to set a timer. Through such a user interface, the preferred place list (1302) received from the map application associated with the departure timer can be displayed. Here, the preferred location can mean, for example, a frequently visited location, a frequently selected location, a frequently searched location, a preferred designated location, or a saved location, but is not limited thereto.

For example, the processor is an A apartment saved as a house, a B factory saved as a company, a C elementary school saved as a school, a frequent visit place D yoga meditation, a frequently searched place in a map application. You can receive a list that includes the E-Rehabilitation Center. The received list can be displayed via the user interface. The user can select one of the locations included in the displayed list, and the selected location can be set as the destination for the departure timer.

FIG. 14 is a drawing showing an example in which pictograms corresponding to real-time road traffic conditions according to an embodiment of the present disclosure are output. Such a process can be performed by a processor (eg, processor (314) and / or processor (334)). According to one embodiment, the processor receives a user voice indicating a request for real-time road traffic conditions, and receives real-time road traffic information for the route from the origin to the destination when the request is recognized from the user voice. can do. The processor can compare the estimated required time and the average required time determined based on the received real-time road traffic information, and output a notification corresponding to the comparison result. Such average travel time can be received from any external system that manages traffic information.

According to one embodiment, the processor can receive a user voice "Is the road busy today?", Then recognizes a request for real-time road traffic conditions and receives real-time road traffic information. For example, if the estimated travel time determined based on the received real-time road traffic information is less than 90% of the average travel time, the processor "today is likely to take about {n} minutes to {arrival}. You can move faster than you can. " Also, if the estimated travel time is 90% or more and less than 110% of the average travel time, the processor will say, "Today, it will take about {n} minutes to {arrival}. It is a normal traffic flow." Can be output. Also, if the determined estimated travel time is 110% or more of the average travel time, the processor will make a synthetic voice saying "Today it is likely to take about {n} minutes to {arrival}. It is slower than usual." Can be output. That is, it is possible to provide synthetic speech indicating real-time road traffic condition information of the current time or departure time of the route for the vehicle from the departure point to the destination.

According to another embodiment, the processor can output the pictogram corresponding to the comparison result through the display of the user terminal or the screen of the external device connected to the user terminal. Here, the pictogram can refer to any visual expression that intuitively expresses emotions, and can be expressed, for example, by an image, a code, a painting, a sign, or the like. The user can intuitively recognize the situation through the displayed pictogram. For example, through the display of the user terminal or an external device connected to the user terminal (for example, FLD (facial expression display)), if the estimated required time is less than 90% of the average required time, the pictogram of "smile" (1410). ), When the estimated required time is 90% or more and less than 110% of the average required time, the pictogram (1420) of "expressionless" is used, and when the estimated required time is 110% or more of the average required time. Can output a "sad expression" pictogram (1430).

FIG. 15 is a drawing showing an example in which an arrival timer for public transportation according to an embodiment of the present disclosure is set. Such a process can be performed by a processor (eg, processor (314) and / or processor (334)). According to one embodiment, the processor can receive the origin and destination and select the means of transportation used for the route from the origin to the destination. In addition, the processor can receive a user voice indicating an arrival timer request to public transport if the selected mode of transportation is public transport. When the request is recognized from the received user voice, the processor can receive real-time operation information (1510) for the first stop on the route from the origin to the destination. This makes it possible to set a timer for the departure time (1520) determined based on the real-time operation information (1510) and the time (1530) when the user voice is received. In addition, the processor can determine the departure time (1520) taking into account spare time and / or walking time, and can update the departure time and timer as the real-time operation information (1510) changes.

For example, as illustrated in Table (1500), the processor receives a user voice "Please give me a bus timer" at 9:50 and then recognizes the arrival timer request to public transport. Can be done. At the request of the arrival timer, the processor can receive real-time bus operation information (1510) for the first stop on the route from the origin to the destination. That is, the processor can receive 10:15 (25 minutes later) and 10:30 (40 minutes later), which is the scheduled arrival time of the 14th bus stop. The processor can determine the departure time (1520) at 10:15 (25 minutes later), which is the closest time to the time (1530) when the user voice is received from the estimated arrival times received. A timer can be set for the set departure time (1520).

The processor can output notifications based on a set timer. For example, when setting or starting a timer, the processor should output a synthetic voice that says, "To get on bus 14, you have to leave 25 minutes later. I'm running the timer now." Can be done. The processor can periodically output a notification containing a synthetic voice saying "Get out after {n} minutes and get on bus 14" by the departure time (1520) after the timer is set or started (1520). Here, n is a natural number). When the current time is close to the departure time (1520), the processor can output a synthetic voice saying "Get out and get on bus 14. Please hurry." Also, if the current time reaches the departure time, the processor will end the timer and output a synthetic voice saying "It's time for departure. Please get out now and take bus number 14. The timer will end." can do.

FIG. 15 illustrates the case where the means of transportation is a bus, but the timer is not limited to this, and a timer can be set for public transportation such as a subway, depending on the set timer. Notification can be output.

The method of providing a departure timer described above can be provided by a computer program stored in a computer-readable recording medium for execution by a computer. The medium can be a continuous storage of a computer-executable program, or a temporary storage for execution or download. In addition, the medium can be a variety of recording means or storage media in the form of a single piece or a combination of several pieces of hardware, and is not limited to a medium directly connected to a certain computer system, but is distributed on a network. It can also be something to do. Examples of media include hard disks, magnetic media such as floppy disks and magnetic tapes, optical recording media such as CD-ROMs and DVDs, and magnetic-optical media such as flographic discs. It can be configured to store program instructions including a medium) and a ROM, RAM, flash memory, and the like. Further, as an example of other media, a recording medium or a storage medium managed by an app store that distributes applications, a site that supplies or distributes various other software, a server, or the like can be mentioned.

According to various embodiments of the present disclosure, an intelligent personal assistant can provide a departure time that can reach a destination up to a target arrival time for a destination directly specified by the user, and is currently provided by a timer setting for the departure time. Notifications based on time and departure time can be provided. This allows the intelligent personal assistant to help the user manage the time from the current time to the departure.

Also, according to the various embodiments of the present disclosure, the departure timer is automatically executed on preset days and times, so that the user can issue a command regarding timer setting every time during a weekly movement (for example, attendance). You don't have to do it.

According to the various embodiments of the present disclosure, by updating the timer based on the departure time due to real-time traffic information changes and providing the user with an updated timer notification, the user has such a changed departure time. Can be recognized immediately.

According to the various embodiments of the present disclosure, by providing the user with pictograms corresponding to real-time traffic conditions information for the route from the origin to the destination, the user can instinctively view the current traffic conditions through such pictograms. Can be recognized.

According to the various embodiments of the present disclosure, by providing a timer for the time to arrive at a public transport stop (eg, the first stop) for the route from origin to destination, the user is currently The remaining time from time to arrival time of public transportation can be easily recognized.

The methods, actions or techniques of the present disclosure may also be embodied by a variety of means. For example, these techniques can also be embodied by hardware, firmware, software, or a combination thereof. The usual engineer understands that the various exemplary logic blocks, modules, circuits and algorithm steps described in conjunction with the disclosures of this application can be embodied in electronic hardware, computer software, or a combination of both. You can do it. To articulate such mutual substitution of hardware and software, various exemplary components, blocks, modules, circuits and steps are generally described above from their functional point of view. Whether such functionality is embodied as hardware or software will depend on the design requirements imposed on the particular application and the overall system. The usual technician may also embody the features described in various ways for each particular application, but such embodying shall not be construed as outside the scope of the present disclosure.

In the realization of hardware, the processing units used to carry out the technique are one or more ASICs, DSPs, digital signal processing devices (DSPDs), programmable logic devices. PLD), field programmable gate arrays (FPGA), processors, controllers, microcontrollers, microcontrollers, electronic devices, other electronic units designed to perform the functions described in the present disclosure, It can also be embodied in a computer or a combination of these.

Accordingly, the various exemplary logic blocks, modules and circuits described in conjunction with this disclosure include general purpose processors, ISPs, ASICs, FPGAs and other programmable logic devices, discrete gates and transistor logic, discrete hardware components. , Or any combination of those designed to perform the functions described herein can be embodied or performed. The general purpose processor can be a microprocessor, but as an alternative, the processor can be any conventional processor, controller, microcontroller, or state machine. A processor may also be embodied in a combination of computing devices, such as a DSP and microprocessor, multiple microprocessors, one or more microprocessors associated with a DSP core, or any other combination of configurations. can.

In the realization of firmware and / or software, techniques include random access memory (RAM), read-only memory (read-only memory; ROM), non-volatile RAM (non-volatile random access memory; NVRAM), and PROM. (Programmable read-only memory), EPROM (erasable program-only memory), EEPROM (electronically erasable ROM), flash memory, compact disk (compact disk; CD) such as computer-readable storage, compact disk (CD), magnetic It can also be embodied by commands stored on various media. Instructions can also be executed by one or more processors, allowing the processors to perform certain aspects of the functions described in the present disclosure.

Although the embodiments described above have been described as taking advantage of aspects of the subject currently disclosed in one or more stand-alone computer systems, the present disclosure is not limited to this, but for networks and distributed computing environments. It can also be realized in cooperation with any computing environment such as. Moreover, aspects of the subject matter in the present disclosure can be embodied in multiple processing chips and devices, and storage can be similarly affected across multiple devices. These devices can also include PCs, network servers and portable devices.

Although the present disclosure has been described herein in the context of some embodiments, various modifications are made to the extent that they do not deviate from the scope of the present disclosure as understood by ordinary technicians in the art to which the invention of the present disclosure belongs. And changes can be made. Also, such modifications and alterations shall be considered to be within the scope of the claims attached herein.

100: User 110, 210_1, 210_2, 210_3: User terminal 120: Voice command 130: Notification 220: Network 230: Information processing system 312, 332: Memory 314, 334: Processor 316, 336: Communication module 318, 338: Input / output Interface 320: Input / output device

Claims (19)

In how to provide a departure timer through an intelligent personal assistant
Steps to receive origin and destination, and
The step of receiving the means of transportation used for the route from the origin to the destination, and
The step of receiving the target arrival time for the destination and
A step of determining the departure time based on the estimated required time of the route from the departure place to the destination using the transportation means and the received target arrival time, and the step of determining the departure time.
The step of setting a timer for the determined departure time and
Including the step of outputting a notification based on the set timer.
A method of providing a departure timer , wherein the step of setting a timer for the determined departure time includes a step of determining a notification corresponding to a time difference between the current time and the determined departure time . Further including a step of receiving a user voice indicating a timer request for the departure time.
The step of setting a timer for the determined departure time is
The method of providing a departure timer according to claim 1, comprising a step of setting a timer for the departure time based on the time when the user voice is received. Further including a step of outputting a synthetic voice indicating a question for the target arrival time.
The step of receiving the target arrival time for the destination is
A step of receiving a user voice indicating the target arrival time in response to a synthetic voice indicating a question for the target arrival time.
The method of providing a departure timer according to claim 1 or 2, comprising the step of recognizing the target arrival time from the user voice. The step of setting a timer for the determined departure time is
Further including the step of setting the notification cycle based on the time difference between the current time and the determined departure time.
The step to output the notification based on the set timer is
The method for providing a departure timer according to any one of claims 1 to 3 , comprising a step of outputting a synthetic voice for the determined notification in the set notification cycle. The step of determining the departure time is
The departure timer according to any one of claims 1 to 4, comprising a step of determining the estimated required time based on real-time traffic information for the means of transportation used for the route from the departure point to the destination. Providing method. It further comprises the step of periodically receiving real-time traffic information for the means of transportation used for the route from the origin to the destination.
The step of determining the departure time is
The method for providing a departure timer according to claim 5, further comprising a step of updating the estimated required time based on the real-time traffic information each time the real-time traffic information is periodically received. The step of determining the departure time is
Including the step of updating the departure time based on the updated estimated travel time and the target arrival time.
The step of setting a timer for the determined departure time is
The method of providing a departure timer according to claim 6, comprising a step of updating the timer using the updated departure time and the current time. The step of updating the timer using the updated departure time and current time is
The method of providing a departure timer according to claim 7, wherein if the updated departure time is earlier than the determined departure time, the step of shortening the set notification cycle is included. It further includes a step of receiving the day of the week and the start time for the automatic execution request of the timer.
The step of setting a timer for the determined departure time is
13. The method for providing a departure timer according to any one of the items. When the current time reaches the departure time, the step of ending the timer and
In response to the step of terminating the timer, a step of executing a map application related to the timer, and a step of executing the map application.
The method of providing a departure timer according to any one of claims 1 to 9, further comprising a step of outputting information about a route from the departure point to the destination via a map application related to the timer. .. In response to the step of terminating the timer, the step of running the map application associated with the timer is
A step to output a message as to whether or not to execute the map application related to the timer, and
The step of receiving a response indicating the execution of the map application, and
10. The method of providing a departure timer according to claim 10, comprising the step of executing a map application associated with the timer based on the received response. The step of receiving the starting point and the destination is
Including the step of receiving one or more preferred locations from the map application.
The method of providing a departure timer according to claim 10, wherein the destination includes one of the one or more preferred locations. The step of receiving the starting point and the destination is
The method of providing a departure timer according to any one of claims 1 to 12, comprising a step of receiving an automatically determined departure place based on the location information of a user terminal including the intelligent personal assistant. A step to receive a user voice indicating a real-time road traffic condition request,
When the request is recognized from the user voice, a step of receiving real-time road traffic information for the route from the departure point to the destination, and a step of receiving the real-time road traffic information.
It is a step of comparing the estimated required time with the average required time, and the estimated required time is
Steps determined based on the real-time road traffic information and
The method of providing a departure timer according to any one of claims 1 to 13, further comprising a step of outputting a notification corresponding to the result of the comparison. The method of providing a departure timer according to claim 14, further comprising a step of outputting a pictogram corresponding to the result of the comparison. In how to provide a departure timer through an intelligent personal assistant
Steps to receive origin and destination, and
A step of selecting the means of transportation used for the route from the starting point to the destination, and
When the selected means of transportation is public transportation, a step of receiving a user voice indicating an arrival timer request to the public transportation, and a step of receiving the user voice.
When the request is recognized from the user voice, a step of receiving real-time operation information for the first stop on the route from the departure point to the destination, and a step of receiving the real-time operation information.
A step of determining a departure time based on the time when the real-time operation information and the user voice are received, and
The step of setting a timer for the determined departure time and
Including the step of outputting a notification based on the set timer.
A method of providing a departure timer , wherein the step of setting a timer for the determined departure time includes a step of determining a notification corresponding to a time difference between the current time and the determined departure time . A computer-readable computer program for executing the method of providing the departure timer according to any one of claims 1 to 16 on a computer. It is a system that provides a departure timer.
With memory
Containing at least one processor concatenated with said memory and configured to execute computer-readable instructions contained in said memory.
The at least one processor
Receive departure and destination,
Receives the means of transportation used for the route from said origin to said destination
Receive the target arrival time for the above destination and
The departure time is determined based on the estimated time required for the route from the departure point to the destination using the transportation means and the received target arrival time.
Set a timer for the determined departure time
It is configured to output notifications based on the timer set above.
Setting a timer for the determined departure time is a system of providing a departure timer, comprising determining a notification corresponding to a time difference between the current time and the determined departure time . It is a system that provides a departure timer.
With memory
Containing at least one processor concatenated with said memory and configured to execute computer-readable instructions contained in said memory.
The at least one processor
Receive departure and destination,
Select the means of transportation used for the route from the departure point to the destination.
If the selected mode of transportation is public transportation, a user voice indicating a request for an arrival timer to the public transportation is received.
When the request is recognized from the user voice, the real-time operation information for the first stop on the route from the departure place to the destination is received, and the real-time operation information is received.
Set a timer for the departure time determined based on the time when the real-time operation information and the user voice are received.
It is configured to output notifications based on the timer set above.
Setting a timer for the determined departure time is a system of providing a departure timer, comprising determining a notification corresponding to a time difference between the current time and the determined departure time .

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