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WO2017063283A1 - System and method for triggering smart vehicle-mounted terminal - Google Patents

System and method for triggering smart vehicle-mounted terminal Download PDF

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Publication number
WO2017063283A1
WO2017063283A1 PCT/CN2015/098798 CN2015098798W WO2017063283A1 WO 2017063283 A1 WO2017063283 A1 WO 2017063283A1 CN 2015098798 W CN2015098798 W CN 2015098798W WO 2017063283 A1 WO2017063283 A1 WO 2017063283A1
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WO
WIPO (PCT)
Prior art keywords
broadcast information
input device
event
button
vehicle terminal
Prior art date
Application number
PCT/CN2015/098798
Other languages
French (fr)
Chinese (zh)
Inventor
魏党伟
Original Assignee
北京奇虎科技有限公司
奇智软件(北京)有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 北京奇虎科技有限公司, 奇智软件(北京)有限公司 filed Critical 北京奇虎科技有限公司
Publication of WO2017063283A1 publication Critical patent/WO2017063283A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/06Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/80Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices

Definitions

  • the present invention relates to the field of communication technologies, and in particular, to an intelligent vehicle terminal triggering system and method.
  • the driving recorder is an instrument for recording information such as images and sounds while the vehicle is traveling. After installing the driving recorder, it can record the video images and sounds of the whole process of the car, which can provide evidence for traffic accidents. People who like to travel by car can also use it to record the process of conquering difficulties and obstacles.
  • the object of the present invention is to at least solve one of the above-mentioned technical drawbacks, in particular, to use technical deficiencies which are not convenient.
  • the invention provides an intelligent vehicle terminal triggering system, comprising:
  • An input device configured to identify an input event, generate broadcast information corresponding to the input event, and send the broadcast information through a pre-established Bluetooth trusted communication interface;
  • An intelligent in-vehicle terminal that communicates with the input device via a Bluetooth low energy technology for receiving the broadcast information through the Bluetooth trusted communication interface and generating image data in response to the broadcast information.
  • the invention also provides a smart vehicle terminal triggering method, comprising the following steps:
  • the input device identifies the input event, generates broadcast information corresponding to the input event, and sends the broadcast information through a pre-established Bluetooth trusted communication interface;
  • An intelligent in-vehicle terminal that communicates with the input device via a Bluetooth low energy technology receives the broadcast information through the Bluetooth trusted communication interface and generates image data in response to the broadcast information.
  • Also disclosed is a computer program comprising computer readable code that causes the method to be executed when the intelligent electronic device runs the computer readable code.
  • FIG. 1 is a schematic diagram of an intelligent vehicle terminal triggering system according to an embodiment
  • FIG. 2 is a schematic diagram of an input device module of an embodiment
  • FIG. 3 is a schematic diagram of an intelligent vehicle terminal module of an embodiment
  • FIG. 4 is a schematic flow chart of a method for triggering an intelligent vehicle terminal according to an embodiment
  • Figure 5 shows a block diagram of an intelligent electronic device for performing the method according to the invention
  • Figure 6 shows a schematic diagram of a memory unit for holding or carrying program code implementing the method according to the invention.
  • terminal and terminal device used herein include both a wireless signal receiver device, a device having only a wireless signal receiver without a transmitting capability, and a receiving and transmitting hardware.
  • Such devices may include cellular or other communication devices having a single line display or a multi-line display or a cellular or other communication device without a multi-line display; PCS (Personal Communications Service), which may combine voice, data Processing, fax, and/or data communication capabilities; PDA (Personal Digital Assistant), which can include radio frequency receivers, pagers, Internet/Intranet access, web browsers, notepads, calendars, and/or GPS (Global Positioning System (Global Positioning System) receiver; conventional laptop and/or palmtop computer or other device having a conventional laptop and/or palmtop computer or other device that includes and/or includes a radio frequency receiver.
  • PCS Personal Communications Service
  • PDA Personal Digital Assistant
  • terminal may be portable, transportable, installed in a vehicle (aviation, sea and/or land), or adapted and/or configured to operate locally, and/or Run in any other location on the Earth and/or space in a distributed form.
  • the "terminal” and “terminal device” used herein may also be a communication terminal, an internet terminal, a music/video playing terminal, and may be, for example, a PDA, a MID (Mobile Internet Device), and/or have a music/video playback.
  • Functional mobile phone can also be smart TV, set top Box and other equipment.
  • the remote network device used herein includes, but is not limited to, a computer, a network host, a single network server, a plurality of network server sets, or a cloud composed of multiple servers.
  • the cloud is composed of a large number of computers or network servers based on Cloud Computing, which is a kind of distributed computing, a super virtual computer composed of a group of loosely coupled computers.
  • the communication between the remote network device, the terminal device and the WNS server can be implemented by any communication method, including but not limited to, mobile communication based on 3GPP, LTE, WIMAX, TCP/IP, UDP protocol. Computer network communication and short-range wireless transmission based on Bluetooth and infrared transmission standards.
  • the smart vehicle terminal is a terminal device having a photographing function, such as a driving recorder, a smart car mirror, and the like.
  • FIG. 1 is a schematic diagram of an intelligent vehicle terminal triggering system according to an embodiment.
  • An intelligent vehicle terminal triggering system includes an input device 100 and an intelligent vehicle terminal 200.
  • the input device 100 and the smart vehicle terminal 200 are communicatively coupled via Bluetooth low energy technology.
  • the input device 100 is configured to identify an input event, generate broadcast information corresponding to the input event, and transmit the broadcast information through the pre-established Bluetooth trusted communication interface.
  • 2 is a schematic diagram of an input device module of an embodiment.
  • the input device 100 can include an identification module 110, a broadcast generation module 120, and a first communication module 130.
  • the identification module 110 is configured to identify an input event
  • the broadcast generation module 120 is configured to generate broadcast information corresponding to the input event
  • the first communication module 130 is configured to send the broadcast information through the pre-established Bluetooth trusted communication interface.
  • the broadcast information is used to drive the smart vehicle terminal 200 to generate image data in real time. After the image data is generated, the smart vehicle terminal 200 can also store the image data on a local storage medium.
  • the image data includes at least one of a picture and a video generated from video data in which a driving situation is recorded.
  • Real-time generation of image data can be understood as the start of image data generation in a very short time, which can be understood as a snap shot in a common sense.
  • the input device 100 is a human-machine interaction device and is mainly used for human-computer interaction.
  • the user can form an input event by performing an input operation on the input device 100, and the input device 100 is based on the user's Response by inputting an action/event.
  • the input device 100 may be a button device, a button device, a touch screen device, a joystick, or the like that responds by recognizing a user action.
  • the input device 100 When the input device 100 is a button device, the user performs an input operation on the input device 100 to form a button event; when the input device 100 is a button device, the user performs an input operation on the input device 100 to form a button event; when the input device 100 When the touch screen device is used, the user inputs the input device 100 to form a touch screen event; when the input device 100 is a rocker device, the user inputs the input device 100 to form a rocker event.
  • the button device is used to identify a button event, generate broadcast information corresponding to the button event, and send the broadcast information through the pre-established Bluetooth trust communication interface.
  • the input device 100 is a button device, and the button device may include one button, and may also include more than one button.
  • the button device in this embodiment may include only one button.
  • the button events of the same button can include two types, one for short press events and the other for long press events.
  • the short press event is defined as a button event in which the pressing time of the button is less than the first preset duration (for example, 3 seconds)
  • the long pressing event is defined as a button event in which the pressing duration of the button is greater than the third preset duration (for example, 5 seconds).
  • the user can quickly recognize the short-press event by pressing the button, and the user can recognize the long-press event by pressing the button (confirmed after the button is released). .
  • the touch screen device may include a touch screen to identify a touch screen event by recognizing a point or track at which the user operates at the touch screen. For example, a user's finger touching a point on the touch screen can be recognized as a touch event, and a user's finger sliding on the touch screen to form a sliding track can be recognized as a sliding event.
  • the touch event can also be like the above-mentioned button event, including a short touch event and a long touch event, that is, the touch screen device can have a virtual button, and the virtual button can also be understood as the button of the button device. This will not be repeated here.
  • the broadcast generation module 120 After the identification module 110 identifies the input event, the broadcast generation module 120 generates broadcast information corresponding to the input event. Different input events usually produce different broadcast information. Taking the input device 100 as a button device as an example, the button event may include two types, one is a short press event, The other is a long press event. The following example describes how the broadcast generation module 120 responds to the identification module 110 to generate corresponding broadcast information.
  • the broadcast generating module 120 After the identification module 110 identifies the short press event, the broadcast generating module 120 generates broadcast information corresponding to the short press event, and the broadcast information may be used to drive the smart vehicle terminal 200 to generate a picture in real time, and store the picture in a local storage medium.
  • Real-time generation of images can be understood as the start of generating images in a very short time, which can be understood as a snap shot in a popular way.
  • the broadcast generation module 120 After the recognition module 110 recognizes the long press event, the broadcast generation module 120 generates broadcast information corresponding to the long press event, and the broadcast information may be used to drive the smart vehicle terminal 200 to generate a video in real time, and store the video in a local storage medium.
  • Real-time video generation can be understood as the start of video generation in a very short time, which can be understood as a snap video in a popular way.
  • the input device 100 is a touch screen device
  • the input device is similar, and will not be described in depth here.
  • the input device 100 also includes a display module that enters a corresponding display mode in accordance with an input event. For example, if the recognition module 110 recognizes a short press event, the display module enters the first display mode; if the recognition module 110 recognizes the long press event, the display module enters the second display mode.
  • the first display mode and the second display mode should be different.
  • the display module is an LED light.
  • the first display mode can be the light flashing once, and the second display mode can be the light flashing multiple times; or, the first display mode The light can be flashed once, and the second display mode can be always on.
  • the first communication module 130 is configured to send the broadcast information through the pre-established Bluetooth trust communication interface.
  • the first communication module 130 of the input device 100 and the second communication module 210 of the smart vehicle terminal 200 may form a Bluetooth connection.
  • the first communication module 130 and the second communication module 210 can both be Bluetooth modules.
  • the pre-established Bluetooth trusted communication interface can be understood as the first communication module 130 has been previously paired with the second communication module 210. Communication Interface.
  • the input device 100 and the smart car terminal 200 have been pre-Bluetooth paired before shipment, or the input device 100 and the smart car terminal 200 have reached the user's hand and then paired their Bluetooth.
  • Input device 100 and intelligent vehicle terminal after one Bluetooth pairing 200 it is equivalent to pre-establishing the Bluetooth trust communication interface, so that the input device 100 and the smart vehicle terminal 200 can directly establish a trust connection when the next Bluetooth connection is made, and no Bluetooth pairing is performed.
  • the uniquely recognized feature information of the input device 100 such as at least one of a physical address (MAC) and an identifier (ID), is usually included, so that the smart car terminal 200 can be pre-Bluetooth paired. It joins the trust list and can be identified and automatically established directly on the next connection.
  • MAC physical address
  • ID identifier
  • Bluetooth Low Energy Technology is employed between the first communication module 130 and the second communication module 210.
  • BLE technology uses a variable connection time interval, which can be set from a few milliseconds to a few seconds depending on the application.
  • the BLE technology uses a very fast connection method, it can usually be in a "non-connected" state (standby state) to reduce power consumption. At this time, the two ends of the link only know each other, and only open the chain when necessary. Road, then close the link in the shortest possible time.
  • the input device 100 can be in a standby state when it is not necessary to transmit the broadcast information, and after recognizing the input event, the input device 100 switches from the standby state to the broadcast state to transmit the broadcast information.
  • the input device 100 periodically transmits broadcast information during a preset broadcast duration during transmission of broadcast information. For example, in a period of 100 milliseconds, after the short press event is recognized, the broadcast information is transmitted 5 times in 500 milliseconds; for example, in a period of 100 milliseconds, after the long press event is recognized, the broadcast is sent within 15 seconds. 150 broadcast messages.
  • the input device 100 can switch from the broadcast state to the standby state to save energy.
  • the broadcast information may also include at least one of an input event code and a remaining battery power.
  • the input event code is used to distinguish different input events. Taking a button event as an example, a short press event may be indicated by 1 and a long press event may be indicated by 2; and each input event represents a different command function, such as a short press event representative
  • the command function of generating a picture, the long press event represents an instruction function for generating a video, and the smart vehicle terminal 200 responds to the function instruction corresponding to the input event code and performs a corresponding action.
  • the remaining battery power is the remaining battery power information of the input device 100. When the smart vehicle terminal 200 obtains the remaining battery power information from the broadcast information, the alarm information is sent when the remaining battery power is lower than the preset power value.
  • the smart vehicle terminal 200 can issue a prompt to the vehicle owner in the form of an audible warning or the like, prompting the vehicle owner to charge or replace the battery for the input device 100.
  • broadcast information usually has the following data structure:
  • Preamble Access Address PDU CRC 1 (bytes) 4 (bytes) 2-39 (bytes) 3 (bytes) 0x25 0x8E89BED6
  • Preamble is the preamble
  • Access Address is the access address
  • PDU is the payload data
  • CRC is the check code
  • the PDU data has the following data structure:
  • the Header is the data header and the Payload is the payload data. Payload is divided into two parts, AdvA is the broadcast address, and AdvData is the broadcast data. Header usually includes broadcast type information, for example:
  • ADV_IND Connectable to non-directional broadcast
  • ADV_DIRECT_IND Connectable directed broadcast
  • ADV_NONCONN_IND Unconnectable non-directional broadcast
  • ADV_SCAN_IND Scannable non-directional broadcast
  • the physical address of the input device 100 can be placed in AdvA, and the identifier, input event code, and battery level can be placed in AdvData.
  • the identifier may include a Universally Unique Identifier (UUID).
  • the broadcast information may only include the physical address of the input device and the input event code, without including the tag and the battery level.
  • the broadcast information may include only the physical address of the input device, the input event code, and the battery level, without including a tag.
  • the smart vehicle terminal 200 verifies whether the physical address of the input device 100 matches the physical address stored by itself, and if so, generates image data in response to the input event code, for example, in response to a short press event code, in response to Long press the event code to generate a video.
  • Bluetooth low energy technology the first technique for wireless turn-on time is to search for other devices with only three “broadcast” channels, or to announce their existence to devices seeking to establish a connection.
  • standard Bluetooth technology uses 32 channels. This means that Bluetooth low energy technology scans other devices only by “on” for 0.6 to 1.2ms, while standard Bluetooth technology takes 22.5ms to scan its 32 channels. Therefore, Bluetooth low energy technology requires 10 to 20 times lower power consumption for other wireless devices than standard Bluetooth technology.
  • the input device 100 communicates with the smart in-vehicle terminal 200 using the broadcast information in the BLE technology, so that the communication between the input device 100 and the smart in-vehicle terminal 200 can achieve low power consumption, and enables the smart in-vehicle terminal 200 to quickly acquire commands and Respond to greatly improve the user experience and ease of use.
  • the smart vehicle terminal 200 is configured to receive broadcast information transmitted by the input device 100 through the above-described Bluetooth trust communication interface; generate image data in real time in response to the broadcast information, and store the image data in a local storage medium.
  • FIG. 3 is a schematic diagram of an intelligent vehicle terminal module of an embodiment.
  • the smart vehicle terminal 200 may include a second communication module 210, an image generation module 220, and a storage module 230.
  • the second communication module 210 is configured to receive the broadcast information sent by the input device 100 through the Bluetooth trusted communication interface;
  • the image generating module 220 is configured to generate image data in real time in response to the broadcast information;
  • the storage module 230 stores the image data in the local storage medium.
  • the local storage medium may be, for example, a storage medium such as a hard disk or a flash memory.
  • the storage medium may be disposed in the smart vehicle terminal 200 in a fixed form, or may be in a movable form, for example, the storage medium may be a removable hard disk or a pluggable flash memory or the like.
  • the image data may include at least one of a picture and a video generated from video data in which a driving situation is recorded.
  • the generated image data includes only pictures or only video.
  • the case where the image data includes both pictures and videos is not excluded.
  • the smart vehicle terminal 200 when the input device 100 recognizes the short press event or the short touch event, the smart vehicle terminal 200 responds to generate a picture according to the corresponding broadcast information of the input event; when the input device 100 recognizes the long press event When the event is long touched, the smart vehicle terminal 200 responds to generate a video based on the broadcast information corresponding to the input events.
  • the input device 100 as a button device as an example.
  • the picture includes a picture with the best definition in the video data in the second preset time period before or after the smart car terminal 200 receives the broadcast information.
  • the broadcast information is the broadcast information corresponding to the short press event.
  • the picture is captured from the video data.
  • the second preset time is a duration, and captures the sharpness from the video data recorded by the smart vehicle terminal 300 within a time period before or after the A time.
  • the best picture Generally, the picture with the best definition is captured from the video data recorded by the smart vehicle terminal 300 within a time period before the time A. This is because when the owner operates the button device, the video picture that the owner wants to share may have been missed, so the picture can be obtained from the past video picture as appropriate. For example, the video picture that the owner wants to share when the button is pressed is usually missed.
  • the missed time can be set within 1 second, that is, the duration of a is 1 second. In this way, when the owner presses the button, the captured image is the best picture in the video within 1 second before the button is pressed (the moment when the short press event is recognized).
  • the video includes a video determined according to the moment when the smart vehicle terminal 200 receives the broadcast information.
  • the broadcast information is broadcast information corresponding to a long press event.
  • the video is also captured from the video data.
  • the smart car terminal 300 receives the broadcast information at the time A, and the fourth preset time is b.
  • the time of Ab for example, A is 13:00, b is 1 second, and Ab is 12:59:59).
  • the A+b time is 13:00:01; the same time
  • the video is the video data captured from the time zone.
  • the video picture that the owner wants to share may have been missed, so the video can be properly acquired from the past video frame.
  • the video picture that the owner wants to share when the button is pressed is usually missed.
  • the missed time can be set within 1 second, that is, the b time is also 1 second.
  • the captured video is the video data that starts counting 1 second before the button is pressed (the time at which the long press event is recognized).
  • the above embodiment is also applicable when the input device 100 is a touch screen device, and it is only necessary to replace the short press event described above with a short touch event and a long press event for a new touch event.
  • FIG. 4 is a schematic flowchart of a method for triggering an intelligent vehicle terminal according to an embodiment. Please refer to Figures 1-3.
  • the invention also provides a smart vehicle terminal triggering method, the method comprising the following steps:
  • Step S110 The input device 100 recognizes the input event, generates broadcast information corresponding to the input event, and transmits the broadcast information through the pre-established Bluetooth trusted communication interface.
  • the input device 100 can include an identification module 110, a broadcast generation module 120, and a first communication module 130. Please refer to Figure 2.
  • the input device 100 is configured to identify an input event, generate broadcast information corresponding to the input event, and transmit the broadcast information through the pre-established Bluetooth trusted communication interface.
  • 2 is a schematic diagram of an input device module of an embodiment.
  • the input device 100 can include an identification module 110, a broadcast generation module 120, and a first communication module 130.
  • the identification module 110 is configured to identify an input event
  • the broadcast generation module 120 is configured to generate broadcast information corresponding to the input event
  • the first communication module 130 is configured to send the broadcast information through the pre-established Bluetooth trusted communication interface.
  • the broadcast information is used to drive the smart vehicle terminal 200 to generate image data in real time. After the image data is generated, the smart vehicle terminal 200 can also store the image data on a local storage medium.
  • the image data includes at least one of a picture and a video generated from video data in which a driving situation is recorded.
  • Real-time generation of image data can be understood as the start of image data generation in a very short time, which can be understood as a snap shot in a common sense.
  • the input device 100 is a human-machine interaction device and is mainly used for human-computer interaction.
  • the user can form an input event by performing an input operation on the input device 100, and the input device 100 responds according to the user's input operation/event.
  • the input device 100 may be a button device, a button device, a touch screen device, a joystick, or the like that responds by recognizing a user action.
  • the input device 100 When the input device 100 is a button device, the user performs an input operation on the input device 100 to form a button event; when the input device 100 is a button device, the user performs an input operation on the input device 100 to form a button event; when the input device 100 When the touch screen device is used, the user inputs the input device 100 to form a touch screen event; when the input device 100 is a rocker device, the user inputs the input device 100 to form a rocker event.
  • the button device is used to identify a button event, generate broadcast information corresponding to the button event, and send the broadcast information through the pre-established Bluetooth trust communication interface.
  • the input device 100 is a button device, and the button device may include one button, and may also include more than one button.
  • the button device in this embodiment may include only one button.
  • the button events of the same button can include two types, one for short press events and the other for long press events.
  • the short press event is defined as a button event in which the pressing time of the button is less than the first preset duration (for example, 3 seconds)
  • the long pressing event is defined as a button event in which the pressing duration of the button is greater than the third preset duration (for example, 5 seconds).
  • the user can quickly recognize the short-press event by pressing the button, and the user can recognize the long-press event by pressing the button (confirmed after the button is released). .
  • the touch screen device may include a touch screen to identify a touch screen event by recognizing a point or track at which the user operates at the touch screen. For example, a user's finger touching a point on the touch screen can be recognized as a touch event, and a user's finger sliding on the touch screen to form a sliding track can be recognized as a sliding event.
  • the touch event can also be like the above-mentioned button event, including a short touch event and a long touch event, that is, the touch screen device can have a virtual button, and the virtual button can also be understood as the button of the button device. This will not be repeated here.
  • the broadcast generation module 120 After the identification module 110 identifies the input event, the broadcast generation module 120 generates broadcast information corresponding to the input event. Different input events usually produce different broadcast information. Taking the input device 100 as a button device as an example, the button event may include two types, one is a short press event, and the other is a long press event. The following example describes how the broadcast generation module 120 responds to the identification module 110 to generate corresponding broadcast information.
  • the broadcast generating module 120 After the identification module 110 identifies the short press event, the broadcast generating module 120 generates broadcast information corresponding to the short press event, and the broadcast information may be used to drive the smart vehicle terminal 200 to generate a picture in real time, and store the picture in a local storage medium.
  • Real-time generation of images can be understood as the start of generating images in a very short time, which can be understood as a snap shot in a popular way.
  • the broadcast generation module 120 After the recognition module 110 recognizes the long press event, the broadcast generation module 120 generates broadcast information corresponding to the long press event, and the broadcast information may be used to drive the smart vehicle terminal 200 to generate a video in real time, and store the video in a local storage medium.
  • Real-time video generation can be understood as the start of video generation in a very short time, which can be understood as a snap video in a popular way.
  • the input device 100 is a touch screen device, it is also possible to identify a short touch event. Generating broadcast information with the long trigger event respectively drives the smart vehicle terminal 200 to generate pictures and videos; similarly when the input device 100 is a button device and other input devices such as a joystick device, it will not be described in depth here.
  • the input device 100 also includes a display module that enters a corresponding display mode in accordance with an input event. For example, if the recognition module 110 recognizes a short press event, the display module enters the first display mode; if the recognition module 110 recognizes the long press event, the display module enters the second display mode.
  • the first display mode and the second display mode should be different.
  • the display module is an LED light.
  • the first display mode can be the light flashing once, and the second display mode can be the light flashing multiple times; or, the first display mode The light can be flashed once, and the second display mode can be always on.
  • the first communication module 130 is configured to send the broadcast information through the pre-established Bluetooth trust communication interface.
  • the first communication module 130 of the input device 100 and the second communication module 210 of the smart vehicle terminal 200 may form a Bluetooth connection.
  • the first communication module 130 and the second communication module 210 can both be Bluetooth modules.
  • the pre-established Bluetooth trusted communication interface can be understood as the first communication module 130 has been previously paired with the second communication module 210. Communication Interface.
  • the input device 100 and the smart car terminal 200 have been pre-Bluetooth paired before shipment, or the input device 100 and the smart car terminal 200 have reached the user's hand and then paired their Bluetooth.
  • the uniquely recognized feature information of the input device 100 such as at least one of a physical address (MAC) and an identifier (ID), is usually included, so that the smart car terminal 200 can be pre-Bluetooth paired. It joins the trust list and can be identified and automatically established directly on the next connection.
  • MAC physical address
  • ID identifier
  • BLE Bluetooth Low Energy Technology
  • BLE technology uses a variable connection time interval, which can be set from a few milliseconds to a few seconds depending on the application.
  • BLE technology can usually be in a "non-connected" state (Standby, Standby state) to reduce energy consumption, at this time the two ends of the link only know each other, only open the link when necessary, and then close the link in the shortest possible time.
  • the input device 100 can be in a standby state when it is not necessary to transmit the broadcast information, and after recognizing the input event, the input device 100 switches from the standby state to the broadcast state to transmit the broadcast information.
  • the input device 100 periodically transmits broadcast information during a preset broadcast duration during transmission of broadcast information. For example, in a period of 100 milliseconds, after the short press event is recognized, the broadcast information is transmitted 5 times in 500 milliseconds; for example, in a period of 100 milliseconds, after the long press event is recognized, the broadcast is sent within 15 seconds. 150 broadcast messages.
  • the input device 100 can switch from the broadcast state to the standby state to save energy.
  • the broadcast information may also include at least one of an input event code and a remaining battery power.
  • the input event code is used to distinguish different input events. Taking a button event as an example, a short press event may be indicated by 1 and a long press event may be indicated by 2; and each input event represents a different command function, such as a short press event representative
  • the command function of generating a picture the long press event represents an instruction function for generating a video
  • the smart vehicle terminal 200 responds to the function instruction corresponding to the input event code and performs a corresponding action.
  • the remaining battery power is the remaining battery power information of the input device 100.
  • the alarm information is sent when the remaining battery power is lower than the preset power value. For example, when the remaining battery power is less than 10% of the total power, the smart vehicle terminal 200 can issue a prompt to the vehicle owner in the form of an audible warning or the like, prompting the vehicle owner to charge or replace the battery for the input device 100.
  • broadcast information usually has the following data structure:
  • Preamble Access Address PDU CRC 1 (bytes) 4 (bytes) 2-39 (bytes) 3 (bytes) 0x25 0x8E89BED6
  • Preamble is the preamble
  • Access Address is the access address
  • PDU is the payload data
  • CRC is the check code
  • the PDU data has the following data structure:
  • the Header is the data header and the Payload is the payload data. Payload is divided into two parts, AdvA is the broadcast address, and AdvData is the broadcast data. Header usually includes broadcast type information, for example:
  • ADV_IND Connectable to non-directional broadcast
  • ADV_DIRECT_IND Connectable directed broadcast
  • ADV_NONCONN_IND Unconnectable non-directional broadcast
  • ADV_SCAN_IND Scannable non-directional broadcast
  • the physical address of the input device 100 can be placed in AdvA, and the identifier, input event code, and battery level can be placed in AdvData.
  • the identifier may include a Universally Unique Identifier (UUID).
  • the broadcast information may only include the physical address of the input device and the input event code, without including the tag and the battery level.
  • the broadcast information may include only the physical address of the input device, the input event code, and the battery level, without including a tag.
  • the smart vehicle terminal 200 verifies whether the physical address of the input device 100 matches the physical address stored by itself, and if so, generates image data in response to the input event code, for example, in response to a short press event code, in response to Long press the event code to generate a video.
  • Wireless "on” time as long as it is not very short, can drastically reduce battery life, so any necessary send or receive tasks need to be completed quickly.
  • the first technique for wireless turn-on time is to search for other devices with only three "broadcast” channels, or to announce their existence to devices seeking to establish a connection.
  • standard Bluetooth technology uses 32 channels. This means that Bluetooth low energy technology scans other devices only by “on” for 0.6 to 1.2ms, while standard Bluetooth technology takes 22.5ms to scan its 32 channels. Therefore, Bluetooth low energy technology requires 10 to 20 times lower power consumption for other wireless devices than standard Bluetooth technology.
  • the input device 100 communicates with the smart in-vehicle terminal 200 using the broadcast information in the BLE technology, so that the communication between the input device 100 and the smart in-vehicle terminal 200 can achieve low power consumption, and enables the smart in-vehicle terminal 200 to quickly acquire commands and Respond to greatly improve the user experience and ease of use.
  • step S120 is performed.
  • Step S120 The smart vehicle terminal 200 receives the broadcast information transmitted by the input device 100 through the above-mentioned Bluetooth trust communication interface; generates image data in real time in response to the broadcast information, and stores the image data in the local storage medium.
  • FIG. 3 is a schematic diagram of an intelligent vehicle terminal module of an embodiment.
  • the smart vehicle terminal 200 may include a second communication module 210, an image generation module 220, and a storage module 230.
  • the second communication module 210 is configured to receive the broadcast information sent by the input device 100 through the Bluetooth trusted communication interface;
  • the image generating module 220 is configured to generate image data in real time in response to the broadcast information;
  • the storage module 230 stores the image data in the local storage medium.
  • the local storage medium may be, for example, a storage medium such as a hard disk or a flash memory.
  • the storage medium may be disposed in the smart vehicle terminal 200 in a fixed form, or may be in a movable form, for example, the storage medium may be a removable hard disk or a pluggable flash memory or the like.
  • the image data may include at least one of a picture and a video generated from video data in which a driving situation is recorded.
  • the generated image data includes only pictures or only video.
  • the case where the image data includes both pictures and videos is not excluded.
  • the smart vehicle terminal 200 when the input device 100 recognizes the short press event or the short touch event, the smart vehicle terminal 200 responds to generate a picture according to the corresponding broadcast information of the input event; when the input device 100 recognizes the long press event When the event is long touched, the smart vehicle terminal 200 responds to generate a video based on the broadcast information corresponding to the input events.
  • the input device 100 as a button device as an example.
  • the picture includes a picture with the best definition in the video data in the second preset time period before or after the smart car terminal 200 receives the broadcast information.
  • the broadcast information is the broadcast information corresponding to the short press event.
  • the picture is captured from the video data.
  • the second preset time is a duration, and captures the sharpness from the video data recorded by the smart vehicle terminal 300 within a time period before or after the A time.
  • the best picture Generally, the picture with the best definition is captured from the video data recorded by the smart vehicle terminal 300 within a time period before the time A. This is because when the owner operates the button device, the video picture that the owner wants to share may have been missed, so the picture can be obtained from the past video picture as appropriate. For example, usually the owner wants to share when the button is pressed. The video screen has been missed, and this missed time can be set within 1 second, that is, the duration of a is 1 second. In this way, when the owner presses the button, the captured image is the best picture in the video within 1 second before the button is pressed (the moment when the short press event is recognized).
  • the video includes a video determined according to the moment when the smart vehicle terminal 200 receives the broadcast information.
  • the broadcast information is broadcast information corresponding to a long press event.
  • the video is also captured from the video data.
  • the smart car terminal 300 receives the broadcast information at the time A, and the fourth preset time is b.
  • the time of Ab for example, A is 13:00, b is 1 second, and Ab is 12:59:59).
  • the A+b time is 13:00:01; the same time
  • the video is the video data captured from the time zone.
  • the video picture that the owner wants to share may have been missed, so the video can be properly acquired from the past video frame.
  • the video picture that the owner wants to share when the button is pressed is usually missed.
  • the missed time can be set within 1 second, that is, the b time is also 1 second.
  • the captured video is the video data that starts counting 1 second before the button is pressed (the time at which the long press event is recognized).
  • the above embodiment is also applicable when the input device 100 is a touch screen device, and it is only necessary to replace the short press event described above with a short touch event and a long press event for a new touch event.
  • the above-mentioned intelligent vehicle-mounted terminal triggering system and method after the input device recognizes an input event, transmits broadcast information; and the intelligent vehicle-mounted terminal that communicates with the input device through the Bluetooth low-energy technology receives broadcast information and responds to generate image data. Therefore, the user can operate the input device so that the smart vehicle terminal can generate image data by itself, for example, generating a picture or a small video, thereby improving the convenience of use; the input device and the smart vehicle terminal are connected by Bluetooth low energy technology, and the input device is used.
  • the information is broadcast to transmit related instructions, so that the communication between the input device and the intelligent vehicle-mounted terminal can achieve low energy consumption, and enables the intelligent vehicle-mounted terminal to quickly acquire instructions and respond, thereby greatly improving the user experience and convenience of use.
  • steps in the flowchart of FIG. 4 are sequentially displayed as indicated by the arrows, these steps are not necessarily performed in the order indicated by the arrows. Except as explicitly stated herein, the execution of these steps is not strictly limited, and may be performed in other sequences. Moreover, at least some of the steps in FIG. 4 may include multiple sub-steps or more Stages, these sub-steps or phases are not necessarily performed at the same time, but can be executed at different times, and the order of execution is not necessarily sequential, but can be sub-steps with other steps or other steps or At least a portion of the stages are alternately or alternately performed.
  • the various component embodiments of the present invention may be implemented in hardware, or in a software module running on one or more processors, or in a combination thereof.
  • a microprocessor or digital signal processor may be used in practice to implement some or all of the functionality of some or all of the components of the visual graphics encoding in accordance with embodiments of the present invention.
  • the invention can also be implemented as a device or device program (e.g., a computer program and a computer program product) for performing some or all of the methods described herein.
  • a program implementing the invention may be stored on a computer readable medium or may be in the form of one or more signals. Such signals may be downloaded from an Internet website, provided on a carrier signal, or provided in any other form.
  • FIG. 5 illustrates an intelligent electronic device that can implement a file encryption method and a method of encrypting the same according to the present invention.
  • the intelligent electronic device conventionally includes a processor 710 and a computer program product or computer readable medium in the form of a memory 720.
  • Memory 720 can be an electronic memory such as a flash memory, EEPROM (Electrically Erasable Programmable Read Only Memory), EPROM, hard disk, or ROM.
  • Memory 720 has a memory space 730 for program code 731 for performing any of the method steps described above.
  • storage space 730 for program code may include various program code 731 for implementing various steps in the above methods, respectively.
  • the program code can be read from or written to one or more computer program products.
  • These computer program products include program code carriers such as hard disks, compact disks (CDs), memory cards or floppy disks. Such computer program products are typically portable or fixed storage units as described with reference to FIG.
  • the storage unit may have a storage section or a storage space or the like arranged similarly to the storage 720 in the intelligent electronic device of FIG.
  • the program code can be compressed, for example, in an appropriate form.
  • the storage unit comprises a program 731' for performing the steps of the method according to the invention, ie code that can be read by a processor, such as 710, which, when run by the intelligent electronic device, causes the intelligent electronic device Perform the various steps in the method described above.

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Abstract

A system and method for triggering a smart vehicle-mounted terminal, wherein an input device (100) sends broadcast information after recognizing an input event, and a smart vehicle-mounted terminal (200) which communicates with the input device (100) by means of the Bluetooth low energy technology receives the broadcast information and generates image data in response to the broadcast information. Therefore, a user can operate the input device (100) to enable the smart vehicle-mounted terminal (200) to generate image data by itself, for example, generating a picture or a small video, thereby improving use convenience. Because the input device (100) and the smart vehicle-mounted terminal (200) are connected by means of the Bluetooth low energy technology and the input device (100) sends related instructions by using broadcast information, the communication between the smart device (100) and the smart vehicle-mounted terminal (200) consume low energy and the smart vehicle-mounted terminal (200) can quickly obtain and respond to instructions, thereby greatly improving user experience and use convenience.

Description

智能车载终端触发系统和方法Intelligent vehicle terminal triggering system and method 技术领域Technical field
本发明涉及通信技术领域,具体而言,本发明涉及一种智能车载终端触发系统和方法。The present invention relates to the field of communication technologies, and in particular, to an intelligent vehicle terminal triggering system and method.
背景技术Background technique
近年来,诸如行车记录仪、智能汽车后视镜等等具备拍摄功能的智能车载终端逐渐流行。以行车记录仪为例,行车记录仪即记录车辆行驶途中的影像及声音等相关资讯的仪器。安装行车记录仪后,能够记录汽车行驶全过程的视频图像和声音,可为交通事故提供证据。喜欢自驾游的人,还可以用它来记录征服艰难险阻的过程。开车时边走边录像,同时把时间、速度、所在位置都记录在录像里,相当“黑匣子”。然而,车主在行驶过程中如果想抓拍图片或小段视频,由于传统行车记录仪的限制通常不能实现,只能在事后通过软件从行车记录仪保存的视频数据中抓取图片或视频,使用便利性有待提高。In recent years, smart car terminals having shooting functions such as driving recorders, smart car rearview mirrors, and the like have become popular. Taking the driving recorder as an example, the driving recorder is an instrument for recording information such as images and sounds while the vehicle is traveling. After installing the driving recorder, it can record the video images and sounds of the whole process of the car, which can provide evidence for traffic accidents. People who like to travel by car can also use it to record the process of conquering difficulties and obstacles. While driving, while recording, while recording the time, speed, and location in the video, it is quite a "black box." However, if the owner wants to capture pictures or small videos during driving, the limitation of the traditional driving recorder is usually not realized, and the pictures or videos can only be captured by the software from the video data saved by the driving recorder after the operation, and the convenience is used. Room for improvement.
发明内容Summary of the invention
本发明的目的旨在至少能解决上述的技术缺陷之一,特别是使用便利性不高的技术缺陷。The object of the present invention is to at least solve one of the above-mentioned technical drawbacks, in particular, to use technical deficiencies which are not convenient.
本发明提供一种智能车载终端触发系统,包括:The invention provides an intelligent vehicle terminal triggering system, comprising:
输入设备,用于识别输入事件,产生与输入事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送所述广播信息;及An input device, configured to identify an input event, generate broadcast information corresponding to the input event, and send the broadcast information through a pre-established Bluetooth trusted communication interface; and
与所述输入设备通过蓝牙低能耗技术通信的智能车载终端,用于通过所述蓝牙信任通信接口接收所述广播信息,并响应于所述广播信息生成图像数据。An intelligent in-vehicle terminal that communicates with the input device via a Bluetooth low energy technology for receiving the broadcast information through the Bluetooth trusted communication interface and generating image data in response to the broadcast information.
本发明还提供一种智能车载终端触发方法,包括如下步骤: The invention also provides a smart vehicle terminal triggering method, comprising the following steps:
输入设备识别输入事件,产生与输入事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送所述广播信息;The input device identifies the input event, generates broadcast information corresponding to the input event, and sends the broadcast information through a pre-established Bluetooth trusted communication interface;
与所述输入设备通过蓝牙低能耗技术通信的智能车载终端通过所述蓝牙信任通信接口接收所述广播信息,并响应于所述广播信息生成图像数据。An intelligent in-vehicle terminal that communicates with the input device via a Bluetooth low energy technology receives the broadcast information through the Bluetooth trusted communication interface and generates image data in response to the broadcast information.
同时公开了一种计算机程序,包括计算机可读代码,当智能电子设备运行所述计算机可读代码时,导致上述方法被执行。Also disclosed is a computer program comprising computer readable code that causes the method to be executed when the intelligent electronic device runs the computer readable code.
同时公开了一种计算机可读介质,其中存储了上述计算机程序。Also disclosed is a computer readable medium in which the above computer program is stored.
本发明附加的方面和优点将在下面的描述中部分给出,这些将从下面的描述中变得明显,或通过本发明的实践了解到。The additional aspects and advantages of the invention will be set forth in part in the description which follows.
附图说明DRAWINGS
本发明上述的和/或附加的方面和优点从下面结合附图对实施例的描述中将变得明显和容易理解,其中:The above and/or additional aspects and advantages of the present invention will become apparent and readily understood from
图1为一个实施例的智能车载终端触发系统示意图;1 is a schematic diagram of an intelligent vehicle terminal triggering system according to an embodiment;
图2为一个实施例的输入设备模块示意图;2 is a schematic diagram of an input device module of an embodiment;
图3为一个实施例的智能车载终端模块示意图;3 is a schematic diagram of an intelligent vehicle terminal module of an embodiment;
图4为一个实施例的智能车载终端触发方法流程示意图;4 is a schematic flow chart of a method for triggering an intelligent vehicle terminal according to an embodiment;
图5示出了用于执行根据本发明的方法的智能电子设备的框图;以及Figure 5 shows a block diagram of an intelligent electronic device for performing the method according to the invention;
图6示出了用于保持或者携带实现根据本发明的方法的程序代码的存储单元示意图。Figure 6 shows a schematic diagram of a memory unit for holding or carrying program code implementing the method according to the invention.
具体实施方式detailed description
下面详细描述本发明的实施例,所述实施例的示例在附图中示出,其中自始至终相同或类似的标号表示相同或类似的元件或具有相同或类似功能的元件。下面通过参考附图描述的实施例是示例性的,仅用于解释本发明,而不能解释为对本发明的限制。The embodiments of the present invention are described in detail below, and the examples of the embodiments are illustrated in the drawings, wherein the same or similar reference numerals are used to refer to the same or similar elements or elements having the same or similar functions. The embodiments described below with reference to the drawings are intended to be illustrative of the invention and are not to be construed as limiting.
本技术领域技术人员可以理解,除非特意声明,这里使用的单数形式“一”、“一个”、“所述”和“该”也可包括复数形式。应该进一步理解的是, 本发明的说明书中使用的措辞“包括”是指存在所述特征、整数、步骤、操作、元件和/或组件,但是并不排除存在或添加一个或多个其他特征、整数、步骤、操作、元件、组件和/或它们的组。应该理解,当我们称元件被“连接”或“耦接”到另一元件时,它可以直接连接或耦接到其他元件,或者也可以存在中间元件。此外,这里使用的“连接”或“耦接”可以包括无线连接或无线耦接。这里使用的措辞“和/或”包括一个或更多个相关联的列出项的全部或任一单元和全部组合。The singular forms "a", "an", "the" It should be further understood that The word "comprising", used in the <RTI ID=0.0> </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; Components, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element. Further, "connected" or "coupled" as used herein may include either a wireless connection or a wireless coupling. The phrase "and/or" used herein includes all or any one and all combinations of one or more of the associated listed.
本技术领域技术人员可以理解,除非另外定义,这里使用的所有术语(包括技术术语和科学术语),具有与本发明所属领域中的普通技术人员的一般理解相同的意义。还应该理解的是,诸如通用字典中定义的那些术语,应该被理解为具有与现有技术的上下文中的意义一致的意义,并且除非像这里一样被特定定义,否则不会用理想化或过于正式的含义来解释。Those skilled in the art will appreciate that all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the invention belongs, unless otherwise defined. It should also be understood that terms such as those defined in a general dictionary should be understood to have meaning consistent with the meaning in the context of the prior art, and will not be idealized or excessive unless specifically defined as here. The formal meaning is explained.
本技术领域技术人员可以理解,这里所使用的“终端”、“终端设备”既包括无线信号接收器的设备,其仅具备无发射能力的无线信号接收器的设备,又包括接收和发射硬件的设备,其具有能够在双向通信链路上,执行双向通信的接收和发射硬件的设备。这种设备可以包括:蜂窝或其他通信设备,其具有单线路显示器或多线路显示器或没有多线路显示器的蜂窝或其他通信设备;PCS(Personal Communications Service,个人通信系统),其可以组合语音、数据处理、传真和/或数据通信能力;PDA(Personal Digital Assistant,个人数字助理),其可以包括射频接收器、寻呼机、互联网/内联网访问、网络浏览器、记事本、日历和/或GPS(Global Positioning System,全球定位系统)接收器;常规膝上型和/或掌上型计算机或其他设备,其具有和/或包括射频接收器的常规膝上型和/或掌上型计算机或其他设备。这里所使用的“终端”、“终端设备”可以是便携式、可运输、安装在交通工具(航空、海运和/或陆地)中的,或者适合于和/或配置为在本地运行,和/或以分布形式,运行在地球和/或空间的任何其他位置运行。这里所使用的“终端”、“终端设备”还可以是通信终端、上网终端、音乐/视频播放终端,例如可以是PDA、MID(Mobile Internet Device,移动互联网设备)和/或具有音乐/视频播放功能的移动电话,也可以是智能电视、机顶 盒等设备。Those skilled in the art can understand that the "terminal" and "terminal device" used herein include both a wireless signal receiver device, a device having only a wireless signal receiver without a transmitting capability, and a receiving and transmitting hardware. A device having a device capable of performing two-way communication receiving and transmitting hardware on a two-way communication link. Such devices may include cellular or other communication devices having a single line display or a multi-line display or a cellular or other communication device without a multi-line display; PCS (Personal Communications Service), which may combine voice, data Processing, fax, and/or data communication capabilities; PDA (Personal Digital Assistant), which can include radio frequency receivers, pagers, Internet/Intranet access, web browsers, notepads, calendars, and/or GPS (Global Positioning System (Global Positioning System) receiver; conventional laptop and/or palmtop computer or other device having a conventional laptop and/or palmtop computer or other device that includes and/or includes a radio frequency receiver. As used herein, "terminal", "terminal device" may be portable, transportable, installed in a vehicle (aviation, sea and/or land), or adapted and/or configured to operate locally, and/or Run in any other location on the Earth and/or space in a distributed form. The "terminal" and "terminal device" used herein may also be a communication terminal, an internet terminal, a music/video playing terminal, and may be, for example, a PDA, a MID (Mobile Internet Device), and/or have a music/video playback. Functional mobile phone, can also be smart TV, set top Box and other equipment.
本技术领域技术人员可以理解,这里所使用的远端网络设备,其包括但不限于计算机、网络主机、单个网络服务器、多个网络服务器集或多个服务器构成的云。在此,云由基于云计算(Cloud Computing)的大量计算机或网络服务器构成,其中,云计算是分布式计算的一种,由一群松散耦合的计算机集组成的一个超级虚拟计算机。本发明的实施例中,远端网络设备、终端设备与WNS服务器之间可通过任何通信方式实现通信,包括但不限于,基于3GPP、LTE、WIMAX的移动通信、基于TCP/IP、UDP协议的计算机网络通信以及基于蓝牙、红外传输标准的近距无线传输方式。Those skilled in the art can understand that the remote network device used herein includes, but is not limited to, a computer, a network host, a single network server, a plurality of network server sets, or a cloud composed of multiple servers. Here, the cloud is composed of a large number of computers or network servers based on Cloud Computing, which is a kind of distributed computing, a super virtual computer composed of a group of loosely coupled computers. In the embodiment of the present invention, the communication between the remote network device, the terminal device and the WNS server can be implemented by any communication method, including but not limited to, mobile communication based on 3GPP, LTE, WIMAX, TCP/IP, UDP protocol. Computer network communication and short-range wireless transmission based on Bluetooth and infrared transmission standards.
针对传统行车记录仪使用便利性不高的缺陷,以下提供一种解决该缺陷的智能车载终端触发系统和方法。在以下说明中,智能车载终端为具有拍摄功能的终端设备,例如行车记录仪、智能汽车后视镜等等。In view of the shortcomings of the conventional driving recorder, the smart vehicle terminal triggering system and method for solving the defect are provided below. In the following description, the smart vehicle terminal is a terminal device having a photographing function, such as a driving recorder, a smart car mirror, and the like.
图1为一个实施例的智能车载终端触发系统示意图。FIG. 1 is a schematic diagram of an intelligent vehicle terminal triggering system according to an embodiment.
一种智能车载终端触发系统,包括输入设备100和智能车载终端200。输入设备100和智能车载终端200通过蓝牙低能耗技术通信连接。An intelligent vehicle terminal triggering system includes an input device 100 and an intelligent vehicle terminal 200. The input device 100 and the smart vehicle terminal 200 are communicatively coupled via Bluetooth low energy technology.
输入设备100用于识别输入事件,产生与输入事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送广播信息。图2为一个实施例的输入设备模块示意图。输入设备100可以包括识别模块110、广播生成模块120和第一通信模块130。识别模块110用于识别输入事件,广播生成模块120用于产生与输入事件相对应的广播信息,第一通信模块130用于通过预建立的蓝牙信任通信接口发送广播信息。其中,广播信息用于驱使智能车载终端200实时生成图像数据。生成图像数据后,智能车载终端200还可以将图像数据存储于本地存储介质。图像数据包括从记载有行车情况的视频数据中生成的图片和视频中的至少一种。The input device 100 is configured to identify an input event, generate broadcast information corresponding to the input event, and transmit the broadcast information through the pre-established Bluetooth trusted communication interface. 2 is a schematic diagram of an input device module of an embodiment. The input device 100 can include an identification module 110, a broadcast generation module 120, and a first communication module 130. The identification module 110 is configured to identify an input event, the broadcast generation module 120 is configured to generate broadcast information corresponding to the input event, and the first communication module 130 is configured to send the broadcast information through the pre-established Bluetooth trusted communication interface. The broadcast information is used to drive the smart vehicle terminal 200 to generate image data in real time. After the image data is generated, the smart vehicle terminal 200 can also store the image data on a local storage medium. The image data includes at least one of a picture and a video generated from video data in which a driving situation is recorded.
实时生成图像数据可以理解为在极短时间内开始生成图像数据,以通俗的说法可以理解为抓拍。Real-time generation of image data can be understood as the start of image data generation in a very short time, which can be understood as a snap shot in a common sense.
输入设备100为人机交互设备,主要用于人机交互。用户可以通过对输入设备100进行输入操作从而形成输入事件,输入设备100根据用户的 输入操作/事件而响应。具体地,输入设备100可以是按键设备、按钮设备、触摸屏设备、摇杆等通过识别用户动作而响应的设备。The input device 100 is a human-machine interaction device and is mainly used for human-computer interaction. The user can form an input event by performing an input operation on the input device 100, and the input device 100 is based on the user's Response by inputting an action/event. Specifically, the input device 100 may be a button device, a button device, a touch screen device, a joystick, or the like that responds by recognizing a user action.
当输入设备100为按键设备时,用户对输入设备100进行输入操作就会形成按键事件;当输入设备100为按钮设备时,用户对输入设备100进行输入操作就会形成按钮事件;当输入设备100为触摸屏设备时,用户对输入设备100进行输入操作就会形成触摸屏事件;当输入设备100为摇杆设备时,用户对输入设备100进行输入操作就会形成摇杆事件。以输入设备100是按键设备为例,按键设备用于识别按键事件,产生与按键事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送广播信息。When the input device 100 is a button device, the user performs an input operation on the input device 100 to form a button event; when the input device 100 is a button device, the user performs an input operation on the input device 100 to form a button event; when the input device 100 When the touch screen device is used, the user inputs the input device 100 to form a touch screen event; when the input device 100 is a rocker device, the user inputs the input device 100 to form a rocker event. Taking the input device 100 as a button device as an example, the button device is used to identify a button event, generate broadcast information corresponding to the button event, and send the broadcast information through the pre-established Bluetooth trust communication interface.
对于输入设备100而言,不同的输入操作,可能会形成不一样的输入事件,从而导致输入设备100识别出来后做出不一样的响应。For the input device 100, different input operations may result in different input events, resulting in a different response after the input device 100 recognizes.
以输入设备100是按键设备为例,该按键设备可以包括一个按键,也可以包括多于一个的按键。为了提升便利性,本实施例中按键设备可以只包括一个按键。同一按键的按键事件可以包括两种,一种为短按事件,另一种为长按事件。短按事件定义为按键的按下时长小于第一预设时长(例如3秒)的按键事件,长按事件定义为按键的按下时长大于第三预设时长(例如5秒)的按键事件。通常而言,通过对按键进行软件程序上的去抖处理,使得用户按下按键马上松开可以识别为短按事件,用户持续按下按键可以识别为长按事件(从按键松开后确认)。For example, the input device 100 is a button device, and the button device may include one button, and may also include more than one button. In order to improve convenience, the button device in this embodiment may include only one button. The button events of the same button can include two types, one for short press events and the other for long press events. The short press event is defined as a button event in which the pressing time of the button is less than the first preset duration (for example, 3 seconds), and the long pressing event is defined as a button event in which the pressing duration of the button is greater than the third preset duration (for example, 5 seconds). Generally speaking, by de-shake the software program on the button, the user can quickly recognize the short-press event by pressing the button, and the user can recognize the long-press event by pressing the button (confirmed after the button is released). .
又以输入设备100是触摸屏设备时为例,该触摸屏设备可以包括触摸屏,通过识别用户在触摸屏操作的点或轨迹来识别触摸屏事件。例如,用户的手指触按触摸屏上的点可以识别为触按事件,用户的手指在触摸屏上滑动以形成滑动轨迹可以识别为滑动事件。当然,触按事件也可以好像上述的按键事件一样,包括短触按事件和长触按事件,也即触摸屏设备可以存在虚拟的按键,该虚拟按键和也可以理解为上述按键设备的按键,在此不再赘述。Taking the input device 100 as an example of a touch screen device, the touch screen device may include a touch screen to identify a touch screen event by recognizing a point or track at which the user operates at the touch screen. For example, a user's finger touching a point on the touch screen can be recognized as a touch event, and a user's finger sliding on the touch screen to form a sliding track can be recognized as a sliding event. Of course, the touch event can also be like the above-mentioned button event, including a short touch event and a long touch event, that is, the touch screen device can have a virtual button, and the virtual button can also be understood as the button of the button device. This will not be repeated here.
识别模块110识别输入事件后,广播生成模块120产生与输入事件相对应的广播信息。不一样的输入事件,通常产生不一样的广播信息。以输入设备100是按键设备为例,按键事件可以包括两种,一种为短按事件, 另一种为长按事件。以下举例描述广播生成模块120如何响应识别模块110生成相应的广播信息。After the identification module 110 identifies the input event, the broadcast generation module 120 generates broadcast information corresponding to the input event. Different input events usually produce different broadcast information. Taking the input device 100 as a button device as an example, the button event may include two types, one is a short press event, The other is a long press event. The following example describes how the broadcast generation module 120 responds to the identification module 110 to generate corresponding broadcast information.
当识别模块110识别短按事件后,广播生成模块120产生与短按事件相对应的广播信息,该广播信息可以用于驱使智能车载终端200实时生成图片,将所述图片存储于本地存储介质。实时生成图片可以理解为在极短时间内开始生成图片,以通俗的说法可以理解为抓拍图片。After the identification module 110 identifies the short press event, the broadcast generating module 120 generates broadcast information corresponding to the short press event, and the broadcast information may be used to drive the smart vehicle terminal 200 to generate a picture in real time, and store the picture in a local storage medium. Real-time generation of images can be understood as the start of generating images in a very short time, which can be understood as a snap shot in a popular way.
当识别模块110识别长按事件后,广播生成模块120产生与长按事件相对应的广播信息,该广播信息可以用于驱使智能车载终端200实时生成视频,将所述视频存储于本地存储介质。实时生成视频可以理解为在极短时间内开始生成视频,以通俗的说法可以理解为抓拍视频。After the recognition module 110 recognizes the long press event, the broadcast generation module 120 generates broadcast information corresponding to the long press event, and the broadcast information may be used to drive the smart vehicle terminal 200 to generate a video in real time, and store the video in a local storage medium. Real-time video generation can be understood as the start of video generation in a very short time, which can be understood as a snap video in a popular way.
当然,当输入设备100是触摸屏设备时,也可以通过识别短触按事件和长触发事件分别生成广播信息驱使智能车载终端200生成图片和视频;当输入设备100是按钮设备和摇杆设备等其他输入设备时也类似,在此不再深入描述。Of course, when the input device 100 is a touch screen device, it is also possible to generate the broadcast information by identifying the short touch event and the long trigger event respectively to drive the smart vehicle terminal 200 to generate pictures and videos; when the input device 100 is a button device and a joystick device, etc. The input device is similar, and will not be described in depth here.
输入设备100还包括显示模块,显示模块根据输入事件进入相应的显示模式。例如,识别模块110如果识别出短按事件,则显示模块进入第一显示模式;识别模块110如果识别出长按事件,则显示模块进入第二显示模式。第一显示模式和第二显示模式应该有所区别,以显示模块为LED灯为例,第一显示模式可以为灯闪一次,第二显示模式可以为灯闪多次;或者,第一显示模式可以为灯闪一次,第二显示模式可以为常亮。The input device 100 also includes a display module that enters a corresponding display mode in accordance with an input event. For example, if the recognition module 110 recognizes a short press event, the display module enters the first display mode; if the recognition module 110 recognizes the long press event, the display module enters the second display mode. The first display mode and the second display mode should be different. The display module is an LED light. The first display mode can be the light flashing once, and the second display mode can be the light flashing multiple times; or, the first display mode The light can be flashed once, and the second display mode can be always on.
当广播生成模块120生成广播信息后,第一通信模块130用于通过预建立的蓝牙信任通信接口发送广播信息。After the broadcast generation module 120 generates the broadcast information, the first communication module 130 is configured to send the broadcast information through the pre-established Bluetooth trust communication interface.
输入设备100的第一通信模块130与智能车载终端200的第二通信模块210(请结合图3)可以形成蓝牙连接。第一通信模块130和第二通信模块210可以皆为蓝牙模块,所述预建立的蓝牙信任通信接口,可以理解为第一通信模块130已经预先和第二通信模块210进行过蓝牙配对而形成的通信接口。例如,输入设备100和智能车载终端200在出厂之前就进行过预先蓝牙配对,或者输入设备100和智能车载终端200到了用户手中用户再将其蓝牙配对。经过一次蓝牙配对的输入设备100和智能车载终端 200,就相当于预建立了蓝牙信任通信接口,这样输入设备100和智能车载终端200在下一次进行蓝牙连接时可以直接建立信任连接,不再进行蓝牙配对。The first communication module 130 of the input device 100 and the second communication module 210 of the smart vehicle terminal 200 (please refer to FIG. 3) may form a Bluetooth connection. The first communication module 130 and the second communication module 210 can both be Bluetooth modules. The pre-established Bluetooth trusted communication interface can be understood as the first communication module 130 has been previously paired with the second communication module 210. Communication Interface. For example, the input device 100 and the smart car terminal 200 have been pre-Bluetooth paired before shipment, or the input device 100 and the smart car terminal 200 have reached the user's hand and then paired their Bluetooth. Input device 100 and intelligent vehicle terminal after one Bluetooth pairing 200, it is equivalent to pre-establishing the Bluetooth trust communication interface, so that the input device 100 and the smart vehicle terminal 200 can directly establish a trust connection when the next Bluetooth connection is made, and no Bluetooth pairing is performed.
因此在广播信息中,通常还会包括输入设备100的唯一识别的特征信息,例如物理地址(MAC)和标识符(ID)中至少一种,这样智能车载终端200在预先蓝牙配对时就可以将其加入信任列表,下次连接时可以识别并直接自动建立连接。Therefore, in the broadcast information, the uniquely recognized feature information of the input device 100, such as at least one of a physical address (MAC) and an identifier (ID), is usually included, so that the smart car terminal 200 can be pre-Bluetooth paired. It joins the trust list and can be identified and automatically established directly on the next connection.
为了最大限度地降低功耗,第一通信模块130和第二通信模块210之间采用蓝牙低能耗技术(BLE)。BLE技术采用可变连接时间间隔,这个间隔根据具体应用可以设置为几毫秒到几秒不等。另外,因为BLE技术采用非常快速的连接方式,因此平时可以处于“非连接”状态(Standby,待机状态)以降低能耗,此时链路两端相互间只是知晓对方,只有在必要时才开启链路,然后在尽可能短的时间内关闭链路。In order to minimize power consumption, Bluetooth Low Energy Technology (BLE) is employed between the first communication module 130 and the second communication module 210. BLE technology uses a variable connection time interval, which can be set from a few milliseconds to a few seconds depending on the application. In addition, because the BLE technology uses a very fast connection method, it can usually be in a "non-connected" state (standby state) to reduce power consumption. At this time, the two ends of the link only know each other, and only open the chain when necessary. Road, then close the link in the shortest possible time.
因此,输入设备100在不需要发送广播信息的时候可以处于待机状态,在识别出输入事件后,输入设备100从待机状态切换到广播状态以发送广播信息。输入设备100在发送广播信息期间,通常是在预设的广播时长内周期性发送广播信息。例如,以100毫秒为一周期,在识别出短按事件后,在500毫秒内发送5次广播信息;又例如,以100毫秒为一周期,在识别出长按事件后,在15秒内发送150次广播信息。Therefore, the input device 100 can be in a standby state when it is not necessary to transmit the broadcast information, and after recognizing the input event, the input device 100 switches from the standby state to the broadcast state to transmit the broadcast information. The input device 100 periodically transmits broadcast information during a preset broadcast duration during transmission of broadcast information. For example, in a period of 100 milliseconds, after the short press event is recognized, the broadcast information is transmitted 5 times in 500 milliseconds; for example, in a period of 100 milliseconds, after the long press event is recognized, the broadcast is sent within 15 seconds. 150 broadcast messages.
输入设备100在发送完广播信息后,可以从广播状态切换到待机状态,以节约能耗。After the broadcast device transmits the broadcast information, the input device 100 can switch from the broadcast state to the standby state to save energy.
广播信息还可以包括输入事件代码和电池剩余电量中的至少一种。输入事件代码用于区分不同的输入事件,以按键事件为例,可以以1表示短按事件,以2表示长按事件;而每个输入事件都代表着不同的指令功能,例如短按事件代表生成图片的指令功能,长按事件代表生成视频的指令功能,智能车载终端200响应于该输入事件代码所对应的功能指令并进行相应的动作。电池剩余电量为输入设备100的电池剩余电量信息,当智能车载终端200从广播信息中获取到该电池剩余电量信息,并在所述电池剩余电量低于预设电量值时发出告警信息。例如,当电池剩余电量低于总电量 的10%时,智能车载终端200可以通过声音警告等形式向车主发出提示,提示车主为输入设备100充电或更换电池。The broadcast information may also include at least one of an input event code and a remaining battery power. The input event code is used to distinguish different input events. Taking a button event as an example, a short press event may be indicated by 1 and a long press event may be indicated by 2; and each input event represents a different command function, such as a short press event representative The command function of generating a picture, the long press event represents an instruction function for generating a video, and the smart vehicle terminal 200 responds to the function instruction corresponding to the input event code and performs a corresponding action. The remaining battery power is the remaining battery power information of the input device 100. When the smart vehicle terminal 200 obtains the remaining battery power information from the broadcast information, the alarm information is sent when the remaining battery power is lower than the preset power value. For example, when the remaining battery power is lower than the total battery power At 10% of the time, the smart vehicle terminal 200 can issue a prompt to the vehicle owner in the form of an audible warning or the like, prompting the vehicle owner to charge or replace the battery for the input device 100.
在BLE技术中,通常广播信息具有以下的数据结构:In BLE technology, broadcast information usually has the following data structure:
PreamblePreamble Access AddressAccess Address PDUPDU CRCCRC
1(字节)1 (bytes) 4(字节)4 (bytes) 2-39(字节)2-39 (bytes) 3(字节)3 (bytes)
0x250x25 0x8E89BED60x8E89BED6    
Preamble为前同步码,Access Address为访问地址,PDU为有效载荷数据,CRC为校验码。Preamble is the preamble, Access Address is the access address, PDU is the payload data, and CRC is the check code.
PDU数据具有以下的数据结构:The PDU data has the following data structure:
Figure PCTCN2015098798-appb-000001
Figure PCTCN2015098798-appb-000001
其中Header为数据头,Payload为载荷数据。Payload分为两部分,AdvA为广播地址,AdvData为广播数据。Header通常包括广播类型信息,例如:The Header is the data header and the Payload is the payload data. Payload is divided into two parts, AdvA is the broadcast address, and AdvData is the broadcast data. Header usually includes broadcast type information, for example:
ADV_IND:可连接无定向广播ADV_IND: Connectable to non-directional broadcast
ADV_DIRECT_IND:可连接定向广播ADV_DIRECT_IND: Connectable directed broadcast
ADV_NONCONN_IND:不可连接无定向广播ADV_NONCONN_IND: Unconnectable non-directional broadcast
ADV_SCAN_IND:可扫描无定向广播ADV_SCAN_IND: Scannable non-directional broadcast
输入设备100的物理地址可以放置于AdvA,而标识符、输入事件代码和电池电量可以放置于AdvData。标识符可以包括通用唯一识别码(UUID,Universally Unique Identifier)。The physical address of the input device 100 can be placed in AdvA, and the identifier, input event code, and battery level can be placed in AdvData. The identifier may include a Universally Unique Identifier (UUID).
当然,广播信息可以只包括输入设备的物理地址和输入事件代码,而不需包括标记符和电池电量。又或者,广播信息可以只包括输入设备的物理地址、输入事件代码和电池电量,而不需包括标记符。智能车载终端200接收到广播信息后,验证输入设备100的物理地址与自身存储的物理地址是否匹配,如果匹配则响应输入事件代码生成图像数据,例如响应于短按事件代码而生成图片,响应于长按事件代码而生成视频。Of course, the broadcast information may only include the physical address of the input device and the input event code, without including the tag and the battery level. Alternatively, the broadcast information may include only the physical address of the input device, the input event code, and the battery level, without including a tag. After receiving the broadcast information, the smart vehicle terminal 200 verifies whether the physical address of the input device 100 matches the physical address stored by itself, and if so, generates image data in response to the input event code, for example, in response to a short press event code, in response to Long press the event code to generate a video.
无线“开启”的时间只要不是很短就会令电池寿命急剧降低,因此任 何必需的发送或接收任务需要很快完成。蓝牙低能耗技术中,无线开启时间的第一个技巧是仅用3个“广播”信道搜索其它设备,或向寻求建立连接的设备宣告自身存在。相比之下,标准蓝牙技术使用了32个信道。这意味着蓝牙低能耗技术扫描其它设备只需“开启”0.6至1.2ms时间,而标准蓝牙技术需要22.5ms时间来扫描它的32个信道。所以蓝牙低能耗技术定位其它无线设备所需的功耗要比标准蓝牙技术低10至20倍。If the wireless "on" time is not very short, the battery life will be drastically reduced. The required sending or receiving tasks need to be completed quickly. In Bluetooth low energy technology, the first technique for wireless turn-on time is to search for other devices with only three "broadcast" channels, or to announce their existence to devices seeking to establish a connection. In contrast, standard Bluetooth technology uses 32 channels. This means that Bluetooth low energy technology scans other devices only by "on" for 0.6 to 1.2ms, while standard Bluetooth technology takes 22.5ms to scan its 32 channels. Therefore, Bluetooth low energy technology requires 10 to 20 times lower power consumption for other wireless devices than standard Bluetooth technology.
因此,输入设备100采用BLE技术中的广播信息与智能车载终端200进行通信,使得输入设备100和智能车载终端200之间的通信既能实现低能耗,又能使得智能车载终端200快速获取指令和做出响应,极大地提高用户体验和使用便利性。Therefore, the input device 100 communicates with the smart in-vehicle terminal 200 using the broadcast information in the BLE technology, so that the communication between the input device 100 and the smart in-vehicle terminal 200 can achieve low power consumption, and enables the smart in-vehicle terminal 200 to quickly acquire commands and Respond to greatly improve the user experience and ease of use.
智能车载终端200用于通过上述蓝牙信任通信接口接收输入设备100所发送的广播信息;响应于广播信息实时生成图像数据,并将图像数据存储于本地存储介质。The smart vehicle terminal 200 is configured to receive broadcast information transmitted by the input device 100 through the above-described Bluetooth trust communication interface; generate image data in real time in response to the broadcast information, and store the image data in a local storage medium.
图3为一个实施例的智能车载终端模块示意图。智能车载终端200可以包括第二通信模块210、图像生成模块220和存储模块230。第二通信模块210用于通过上述蓝牙信任通信接口接收输入设备100发送的广播信息;图像生成模块220用于响应于所述广播信息实时生成图像数据;存储模块230将图像数据存储于本地存储介质。本地存储介质,例如可以是硬盘或者闪存之类的存储介质。存储介质可以是以固定的形式设置于智能车载终端200中,也可以是可移动的形式,例如存储介质可以是可移动硬盘或可插拔闪存等等。FIG. 3 is a schematic diagram of an intelligent vehicle terminal module of an embodiment. The smart vehicle terminal 200 may include a second communication module 210, an image generation module 220, and a storage module 230. The second communication module 210 is configured to receive the broadcast information sent by the input device 100 through the Bluetooth trusted communication interface; the image generating module 220 is configured to generate image data in real time in response to the broadcast information; and the storage module 230 stores the image data in the local storage medium. . The local storage medium may be, for example, a storage medium such as a hard disk or a flash memory. The storage medium may be disposed in the smart vehicle terminal 200 in a fixed form, or may be in a movable form, for example, the storage medium may be a removable hard disk or a pluggable flash memory or the like.
所述图像数据可以包括从记载有行车情况的视频数据中生成的图片和视频中的至少一种。通常而言,在一次生成中,生成的图像数据只包括图片或只包括视频。当然,不排除图像数据既包括图片也包括视频的情况。The image data may include at least one of a picture and a video generated from video data in which a driving situation is recorded. In general, in one generation, the generated image data includes only pictures or only video. Of course, the case where the image data includes both pictures and videos is not excluded.
在本实施例中,当输入设备100识别出上述短按事件或短触按事件时,智能车载终端200根据这些输入事件相应的广播信息而响应生成图片;当输入设备100识别出上述长按事件或长触按事件时,智能车载终端200根据这些输入事件相应的广播信息而响应生成视频。以输入设备100为按键设备时为例做以下描述。 In the embodiment, when the input device 100 recognizes the short press event or the short touch event, the smart vehicle terminal 200 responds to generate a picture according to the corresponding broadcast information of the input event; when the input device 100 recognizes the long press event When the event is long touched, the smart vehicle terminal 200 responds to generate a video based on the broadcast information corresponding to the input events. The following description will be made by taking the input device 100 as a button device as an example.
所述图片包括:在智能车载终端200接收到广播信息那刻之前或之后的第二预设时长内视频数据中清晰度最佳的图片。广播信息为短按事件所对应的广播信息。The picture includes a picture with the best definition in the video data in the second preset time period before or after the smart car terminal 200 receives the broadcast information. The broadcast information is the broadcast information corresponding to the short press event.
换言之,所述图片是从视频数据中抓取的。假设智能车载终端300接收到该广播信息那个时刻为A时刻,第二预设时长为a时长,在A时刻之前或之后的a时长内,从智能车载终端300记录的视频数据中抓取清晰度最佳的图片。通常而言,是在A时刻之前的a时长内,从智能车载终端300记录的视频数据中抓取清晰度最佳的图片。这是因为当车主对进行按键设备进行操作时,此时车主想要分享的视频画面可能已经错过,因此可以适当从过去的视频画面中获取图片。例如,通常车主按按键时想要分享的视频画面已经错过,这个错过的时间可以设定1秒内,即a时长为1秒。这样,车主在按按键时,所抓取的图片为按按键那时刻(识别出短按事件的时刻)之前的1秒时间内视频中清晰度最佳的图片。In other words, the picture is captured from the video data. It is assumed that the smart car terminal 300 receives the broadcast information at the time A, the second preset time is a duration, and captures the sharpness from the video data recorded by the smart vehicle terminal 300 within a time period before or after the A time. The best picture. Generally, the picture with the best definition is captured from the video data recorded by the smart vehicle terminal 300 within a time period before the time A. This is because when the owner operates the button device, the video picture that the owner wants to share may have been missed, so the picture can be obtained from the past video picture as appropriate. For example, the video picture that the owner wants to share when the button is pressed is usually missed. The missed time can be set within 1 second, that is, the duration of a is 1 second. In this way, when the owner presses the button, the captured image is the best picture in the video within 1 second before the button is pressed (the moment when the short press event is recognized).
所述视频包括:根据智能车载终端200接收到广播信息的那刻而确定的一段视频。该广播信息为长按事件所对应的广播信息。The video includes a video determined according to the moment when the smart vehicle terminal 200 receives the broadcast information. The broadcast information is broadcast information corresponding to a long press event.
换言之,所述视频也是从视频数据中抓取的。假设智能车载终端300接收到该广播信息那个时刻为A时刻,第四预设时长为b时长,在A-b时刻(例如A为13:00,b为1秒,则A-b时刻为12:59:59,则A+b时刻为13:00:01;下同)开始计时到长按事件结束,所述视频就是抓取自这段时间区段内的视频数据。同样,这是因为当车主对进行按键设备进行操作时,此时车主想要分享的视频画面可能已经错过,因此可以适当从过去的视频画面中获取视频。例如,通常车主按按键时想要分享的视频画面已经错过,这个错过的时间可以设定1秒内,即b时长也为1秒。这样,车主在按按键时,所抓取的视频为按按键那时刻(识别出长按事件的时刻)之前的1秒开始计时的视频数据。In other words, the video is also captured from the video data. It is assumed that the smart car terminal 300 receives the broadcast information at the time A, and the fourth preset time is b. At the time of Ab (for example, A is 13:00, b is 1 second, and Ab is 12:59:59). Then, the A+b time is 13:00:01; the same time) starts counting until the end of the long press event, and the video is the video data captured from the time zone. Again, this is because when the owner operates the button device, the video picture that the owner wants to share may have been missed, so the video can be properly acquired from the past video frame. For example, the video picture that the owner wants to share when the button is pressed is usually missed. The missed time can be set within 1 second, that is, the b time is also 1 second. Thus, when the owner presses a button, the captured video is the video data that starts counting 1 second before the button is pressed (the time at which the long press event is recognized).
当输入设备100为触摸屏设备时也适用上述实施例,只需将上述的短按事件换成短触按事件、将长按事件换成长触按事件。The above embodiment is also applicable when the input device 100 is a touch screen device, and it is only necessary to replace the short press event described above with a short touch event and a long press event for a new touch event.
图4为一个实施例的智能车载终端触发方法流程示意图。请结合图1~3。 FIG. 4 is a schematic flowchart of a method for triggering an intelligent vehicle terminal according to an embodiment. Please refer to Figures 1-3.
本发明还提供一种智能车载终端触发方法,该方法包括如下步骤:The invention also provides a smart vehicle terminal triggering method, the method comprising the following steps:
步骤S110:输入设备100识别输入事件,产生与输入事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送广播信息。Step S110: The input device 100 recognizes the input event, generates broadcast information corresponding to the input event, and transmits the broadcast information through the pre-established Bluetooth trusted communication interface.
输入设备100可以包括识别模块110、广播生成模块120和第一通信模块130。请结合图2。The input device 100 can include an identification module 110, a broadcast generation module 120, and a first communication module 130. Please refer to Figure 2.
输入设备100用于识别输入事件,产生与输入事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送广播信息。图2为一个实施例的输入设备模块示意图。输入设备100可以包括识别模块110、广播生成模块120和第一通信模块130。识别模块110用于识别输入事件,广播生成模块120用于产生与输入事件相对应的广播信息,第一通信模块130用于通过预建立的蓝牙信任通信接口发送广播信息。其中,广播信息用于驱使智能车载终端200实时生成图像数据。生成图像数据后,智能车载终端200还可以将图像数据存储于本地存储介质。图像数据包括从记载有行车情况的视频数据中生成的图片和视频中的至少一种。The input device 100 is configured to identify an input event, generate broadcast information corresponding to the input event, and transmit the broadcast information through the pre-established Bluetooth trusted communication interface. 2 is a schematic diagram of an input device module of an embodiment. The input device 100 can include an identification module 110, a broadcast generation module 120, and a first communication module 130. The identification module 110 is configured to identify an input event, the broadcast generation module 120 is configured to generate broadcast information corresponding to the input event, and the first communication module 130 is configured to send the broadcast information through the pre-established Bluetooth trusted communication interface. The broadcast information is used to drive the smart vehicle terminal 200 to generate image data in real time. After the image data is generated, the smart vehicle terminal 200 can also store the image data on a local storage medium. The image data includes at least one of a picture and a video generated from video data in which a driving situation is recorded.
实时生成图像数据可以理解为在极短时间内开始生成图像数据,以通俗的说法可以理解为抓拍。Real-time generation of image data can be understood as the start of image data generation in a very short time, which can be understood as a snap shot in a common sense.
输入设备100为人机交互设备,主要用于人机交互。用户可以通过对输入设备100进行输入操作从而形成输入事件,输入设备100根据用户的输入操作/事件而响应。具体地,输入设备100可以是按键设备、按钮设备、触摸屏设备、摇杆等通过识别用户动作而响应的设备。The input device 100 is a human-machine interaction device and is mainly used for human-computer interaction. The user can form an input event by performing an input operation on the input device 100, and the input device 100 responds according to the user's input operation/event. Specifically, the input device 100 may be a button device, a button device, a touch screen device, a joystick, or the like that responds by recognizing a user action.
当输入设备100为按键设备时,用户对输入设备100进行输入操作就会形成按键事件;当输入设备100为按钮设备时,用户对输入设备100进行输入操作就会形成按钮事件;当输入设备100为触摸屏设备时,用户对输入设备100进行输入操作就会形成触摸屏事件;当输入设备100为摇杆设备时,用户对输入设备100进行输入操作就会形成摇杆事件。以输入设备100是按键设备为例,按键设备用于识别按键事件,产生与按键事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送广播信息。When the input device 100 is a button device, the user performs an input operation on the input device 100 to form a button event; when the input device 100 is a button device, the user performs an input operation on the input device 100 to form a button event; when the input device 100 When the touch screen device is used, the user inputs the input device 100 to form a touch screen event; when the input device 100 is a rocker device, the user inputs the input device 100 to form a rocker event. Taking the input device 100 as a button device as an example, the button device is used to identify a button event, generate broadcast information corresponding to the button event, and send the broadcast information through the pre-established Bluetooth trust communication interface.
对于输入设备100而言,不同的输入操作,可能会形成不一样的输入事件,从而导致输入设备100识别出来后做出不一样的响应。 For the input device 100, different input operations may result in different input events, resulting in a different response after the input device 100 recognizes.
以输入设备100是按键设备为例,该按键设备可以包括一个按键,也可以包括多于一个的按键。为了提升便利性,本实施例中按键设备可以只包括一个按键。同一按键的按键事件可以包括两种,一种为短按事件,另一种为长按事件。短按事件定义为按键的按下时长小于第一预设时长(例如3秒)的按键事件,长按事件定义为按键的按下时长大于第三预设时长(例如5秒)的按键事件。通常而言,通过对按键进行软件程序上的去抖处理,使得用户按下按键马上松开可以识别为短按事件,用户持续按下按键可以识别为长按事件(从按键松开后确认)。For example, the input device 100 is a button device, and the button device may include one button, and may also include more than one button. In order to improve convenience, the button device in this embodiment may include only one button. The button events of the same button can include two types, one for short press events and the other for long press events. The short press event is defined as a button event in which the pressing time of the button is less than the first preset duration (for example, 3 seconds), and the long pressing event is defined as a button event in which the pressing duration of the button is greater than the third preset duration (for example, 5 seconds). Generally speaking, by de-shake the software program on the button, the user can quickly recognize the short-press event by pressing the button, and the user can recognize the long-press event by pressing the button (confirmed after the button is released). .
又以输入设备100是触摸屏设备时为例,该触摸屏设备可以包括触摸屏,通过识别用户在触摸屏操作的点或轨迹来识别触摸屏事件。例如,用户的手指触按触摸屏上的点可以识别为触按事件,用户的手指在触摸屏上滑动以形成滑动轨迹可以识别为滑动事件。当然,触按事件也可以好像上述的按键事件一样,包括短触按事件和长触按事件,也即触摸屏设备可以存在虚拟的按键,该虚拟按键和也可以理解为上述按键设备的按键,在此不再赘述。Taking the input device 100 as an example of a touch screen device, the touch screen device may include a touch screen to identify a touch screen event by recognizing a point or track at which the user operates at the touch screen. For example, a user's finger touching a point on the touch screen can be recognized as a touch event, and a user's finger sliding on the touch screen to form a sliding track can be recognized as a sliding event. Of course, the touch event can also be like the above-mentioned button event, including a short touch event and a long touch event, that is, the touch screen device can have a virtual button, and the virtual button can also be understood as the button of the button device. This will not be repeated here.
识别模块110识别输入事件后,广播生成模块120产生与输入事件相对应的广播信息。不一样的输入事件,通常产生不一样的广播信息。以输入设备100是按键设备为例,按键事件可以包括两种,一种为短按事件,另一种为长按事件。以下举例描述广播生成模块120如何响应识别模块110生成相应的广播信息。After the identification module 110 identifies the input event, the broadcast generation module 120 generates broadcast information corresponding to the input event. Different input events usually produce different broadcast information. Taking the input device 100 as a button device as an example, the button event may include two types, one is a short press event, and the other is a long press event. The following example describes how the broadcast generation module 120 responds to the identification module 110 to generate corresponding broadcast information.
当识别模块110识别短按事件后,广播生成模块120产生与短按事件相对应的广播信息,该广播信息可以用于驱使智能车载终端200实时生成图片,将所述图片存储于本地存储介质。实时生成图片可以理解为在极短时间内开始生成图片,以通俗的说法可以理解为抓拍图片。After the identification module 110 identifies the short press event, the broadcast generating module 120 generates broadcast information corresponding to the short press event, and the broadcast information may be used to drive the smart vehicle terminal 200 to generate a picture in real time, and store the picture in a local storage medium. Real-time generation of images can be understood as the start of generating images in a very short time, which can be understood as a snap shot in a popular way.
当识别模块110识别长按事件后,广播生成模块120产生与长按事件相对应的广播信息,该广播信息可以用于驱使智能车载终端200实时生成视频,将所述视频存储于本地存储介质。实时生成视频可以理解为在极短时间内开始生成视频,以通俗的说法可以理解为抓拍视频。After the recognition module 110 recognizes the long press event, the broadcast generation module 120 generates broadcast information corresponding to the long press event, and the broadcast information may be used to drive the smart vehicle terminal 200 to generate a video in real time, and store the video in a local storage medium. Real-time video generation can be understood as the start of video generation in a very short time, which can be understood as a snap video in a popular way.
当然,当输入设备100是触摸屏设备时,也可以通过识别短触按事件 和长触发事件分别生成广播信息驱使智能车载终端200生成图片和视频;当输入设备100是按钮设备和摇杆设备等其他输入设备时也类似,在此不再深入描述。Of course, when the input device 100 is a touch screen device, it is also possible to identify a short touch event. Generating broadcast information with the long trigger event respectively drives the smart vehicle terminal 200 to generate pictures and videos; similarly when the input device 100 is a button device and other input devices such as a joystick device, it will not be described in depth here.
输入设备100还包括显示模块,显示模块根据输入事件进入相应的显示模式。例如,识别模块110如果识别出短按事件,则显示模块进入第一显示模式;识别模块110如果识别出长按事件,则显示模块进入第二显示模式。第一显示模式和第二显示模式应该有所区别,以显示模块为LED灯为例,第一显示模式可以为灯闪一次,第二显示模式可以为灯闪多次;或者,第一显示模式可以为灯闪一次,第二显示模式可以为常亮。The input device 100 also includes a display module that enters a corresponding display mode in accordance with an input event. For example, if the recognition module 110 recognizes a short press event, the display module enters the first display mode; if the recognition module 110 recognizes the long press event, the display module enters the second display mode. The first display mode and the second display mode should be different. The display module is an LED light. The first display mode can be the light flashing once, and the second display mode can be the light flashing multiple times; or, the first display mode The light can be flashed once, and the second display mode can be always on.
当广播生成模块120生成广播信息后,第一通信模块130用于通过预建立的蓝牙信任通信接口发送广播信息。After the broadcast generation module 120 generates the broadcast information, the first communication module 130 is configured to send the broadcast information through the pre-established Bluetooth trust communication interface.
输入设备100的第一通信模块130与智能车载终端200的第二通信模块210(请结合图3)可以形成蓝牙连接。第一通信模块130和第二通信模块210可以皆为蓝牙模块,所述预建立的蓝牙信任通信接口,可以理解为第一通信模块130已经预先和第二通信模块210进行过蓝牙配对而形成的通信接口。例如,输入设备100和智能车载终端200在出厂之前就进行过预先蓝牙配对,或者输入设备100和智能车载终端200到了用户手中用户再将其蓝牙配对。经过一次蓝牙配对的输入设备100和智能车载终端200,就相当于预建立了蓝牙信任通信接口,这样输入设备100和智能车载终端200在下一次进行蓝牙连接时可以直接建立信任连接,不再进行蓝牙配对。The first communication module 130 of the input device 100 and the second communication module 210 of the smart vehicle terminal 200 (please refer to FIG. 3) may form a Bluetooth connection. The first communication module 130 and the second communication module 210 can both be Bluetooth modules. The pre-established Bluetooth trusted communication interface can be understood as the first communication module 130 has been previously paired with the second communication module 210. Communication Interface. For example, the input device 100 and the smart car terminal 200 have been pre-Bluetooth paired before shipment, or the input device 100 and the smart car terminal 200 have reached the user's hand and then paired their Bluetooth. After the Bluetooth pairing input device 100 and the smart vehicle terminal 200, it is equivalent to pre-establishing the Bluetooth trust communication interface, so that the input device 100 and the smart vehicle terminal 200 can directly establish a trusted connection when the Bluetooth connection is next performed, and no longer perform Bluetooth. pair.
因此在广播信息中,通常还会包括输入设备100的唯一识别的特征信息,例如物理地址(MAC)和标识符(ID)中至少一种,这样智能车载终端200在预先蓝牙配对时就可以将其加入信任列表,下次连接时可以识别并直接自动建立连接。Therefore, in the broadcast information, the uniquely recognized feature information of the input device 100, such as at least one of a physical address (MAC) and an identifier (ID), is usually included, so that the smart car terminal 200 can be pre-Bluetooth paired. It joins the trust list and can be identified and automatically established directly on the next connection.
为了最大限度地降低功耗,第一通信模块130和第二通信模块210之间采用蓝牙低能耗技术(BLE)。BLE技术采用可变连接时间间隔,这个间隔根据具体应用可以设置为几毫秒到几秒不等。另外,因为BLE技术采用非常快速的连接方式,因此平时可以处于“非连接”状态(Standby, 待机状态)以降低能耗,此时链路两端相互间只是知晓对方,只有在必要时才开启链路,然后在尽可能短的时间内关闭链路。In order to minimize power consumption, Bluetooth Low Energy Technology (BLE) is employed between the first communication module 130 and the second communication module 210. BLE technology uses a variable connection time interval, which can be set from a few milliseconds to a few seconds depending on the application. In addition, because BLE technology uses a very fast connection, it can usually be in a "non-connected" state (Standby, Standby state) to reduce energy consumption, at this time the two ends of the link only know each other, only open the link when necessary, and then close the link in the shortest possible time.
因此,输入设备100在不需要发送广播信息的时候可以处于待机状态,在识别出输入事件后,输入设备100从待机状态切换到广播状态以发送广播信息。输入设备100在发送广播信息期间,通常是在预设的广播时长内周期性发送广播信息。例如,以100毫秒为一周期,在识别出短按事件后,在500毫秒内发送5次广播信息;又例如,以100毫秒为一周期,在识别出长按事件后,在15秒内发送150次广播信息。Therefore, the input device 100 can be in a standby state when it is not necessary to transmit the broadcast information, and after recognizing the input event, the input device 100 switches from the standby state to the broadcast state to transmit the broadcast information. The input device 100 periodically transmits broadcast information during a preset broadcast duration during transmission of broadcast information. For example, in a period of 100 milliseconds, after the short press event is recognized, the broadcast information is transmitted 5 times in 500 milliseconds; for example, in a period of 100 milliseconds, after the long press event is recognized, the broadcast is sent within 15 seconds. 150 broadcast messages.
输入设备100在发送完广播信息后,可以从广播状态切换到待机状态,以节约能耗。After the broadcast device transmits the broadcast information, the input device 100 can switch from the broadcast state to the standby state to save energy.
广播信息还可以包括输入事件代码和电池剩余电量中的至少一种。输入事件代码用于区分不同的输入事件,以按键事件为例,可以以1表示短按事件,以2表示长按事件;而每个输入事件都代表着不同的指令功能,例如短按事件代表生成图片的指令功能,长按事件代表生成视频的指令功能,智能车载终端200响应于该输入事件代码所对应的功能指令并进行相应的动作。电池剩余电量为输入设备100的电池剩余电量信息,当智能车载终端200从广播信息中获取到该电池剩余电量信息,并在所述电池剩余电量低于预设电量值时发出告警信息。例如,当电池剩余电量低于总电量的10%时,智能车载终端200可以通过声音警告等形式向车主发出提示,提示车主为输入设备100充电或更换电池。The broadcast information may also include at least one of an input event code and a remaining battery power. The input event code is used to distinguish different input events. Taking a button event as an example, a short press event may be indicated by 1 and a long press event may be indicated by 2; and each input event represents a different command function, such as a short press event representative The command function of generating a picture, the long press event represents an instruction function for generating a video, and the smart vehicle terminal 200 responds to the function instruction corresponding to the input event code and performs a corresponding action. The remaining battery power is the remaining battery power information of the input device 100. When the smart vehicle terminal 200 obtains the remaining battery power information from the broadcast information, the alarm information is sent when the remaining battery power is lower than the preset power value. For example, when the remaining battery power is less than 10% of the total power, the smart vehicle terminal 200 can issue a prompt to the vehicle owner in the form of an audible warning or the like, prompting the vehicle owner to charge or replace the battery for the input device 100.
在BLE技术中,通常广播信息具有以下的数据结构:In BLE technology, broadcast information usually has the following data structure:
PreamblePreamble Access AddressAccess Address PDUPDU CRCCRC
1(字节)1 (bytes) 4(字节)4 (bytes) 2-39(字节)2-39 (bytes) 3(字节)3 (bytes)
0x250x25 0x8E89BED60x8E89BED6    
Preamble为前同步码,Access Address为访问地址,PDU为有效载荷数据,CRC为校验码。Preamble is the preamble, Access Address is the access address, PDU is the payload data, and CRC is the check code.
PDU数据具有以下的数据结构:The PDU data has the following data structure:
Figure PCTCN2015098798-appb-000002
Figure PCTCN2015098798-appb-000002
Figure PCTCN2015098798-appb-000003
Figure PCTCN2015098798-appb-000003
其中Header为数据头,Payload为载荷数据。Payload分为两部分,AdvA为广播地址,AdvData为广播数据。Header通常包括广播类型信息,例如:The Header is the data header and the Payload is the payload data. Payload is divided into two parts, AdvA is the broadcast address, and AdvData is the broadcast data. Header usually includes broadcast type information, for example:
ADV_IND:可连接无定向广播ADV_IND: Connectable to non-directional broadcast
ADV_DIRECT_IND:可连接定向广播ADV_DIRECT_IND: Connectable directed broadcast
ADV_NONCONN_IND:不可连接无定向广播ADV_NONCONN_IND: Unconnectable non-directional broadcast
ADV_SCAN_IND:可扫描无定向广播ADV_SCAN_IND: Scannable non-directional broadcast
输入设备100的物理地址可以放置于AdvA,而标识符、输入事件代码和电池电量可以放置于AdvData。标识符可以包括通用唯一识别码(UUID,Universally Unique Identifier)。The physical address of the input device 100 can be placed in AdvA, and the identifier, input event code, and battery level can be placed in AdvData. The identifier may include a Universally Unique Identifier (UUID).
当然,广播信息可以只包括输入设备的物理地址和输入事件代码,而不需包括标记符和电池电量。又或者,广播信息可以只包括输入设备的物理地址、输入事件代码和电池电量,而不需包括标记符。智能车载终端200接收到广播信息后,验证输入设备100的物理地址与自身存储的物理地址是否匹配,如果匹配则响应输入事件代码生成图像数据,例如响应于短按事件代码而生成图片,响应于长按事件代码而生成视频。Of course, the broadcast information may only include the physical address of the input device and the input event code, without including the tag and the battery level. Alternatively, the broadcast information may include only the physical address of the input device, the input event code, and the battery level, without including a tag. After receiving the broadcast information, the smart vehicle terminal 200 verifies whether the physical address of the input device 100 matches the physical address stored by itself, and if so, generates image data in response to the input event code, for example, in response to a short press event code, in response to Long press the event code to generate a video.
无线“开启”的时间只要不是很短就会令电池寿命急剧降低,因此任何必需的发送或接收任务需要很快完成。蓝牙低能耗技术中,无线开启时间的第一个技巧是仅用3个“广播”信道搜索其它设备,或向寻求建立连接的设备宣告自身存在。相比之下,标准蓝牙技术使用了32个信道。这意味着蓝牙低能耗技术扫描其它设备只需“开启”0.6至1.2ms时间,而标准蓝牙技术需要22.5ms时间来扫描它的32个信道。所以蓝牙低能耗技术定位其它无线设备所需的功耗要比标准蓝牙技术低10至20倍。Wireless "on" time, as long as it is not very short, can drastically reduce battery life, so any necessary send or receive tasks need to be completed quickly. In Bluetooth low energy technology, the first technique for wireless turn-on time is to search for other devices with only three "broadcast" channels, or to announce their existence to devices seeking to establish a connection. In contrast, standard Bluetooth technology uses 32 channels. This means that Bluetooth low energy technology scans other devices only by "on" for 0.6 to 1.2ms, while standard Bluetooth technology takes 22.5ms to scan its 32 channels. Therefore, Bluetooth low energy technology requires 10 to 20 times lower power consumption for other wireless devices than standard Bluetooth technology.
因此,输入设备100采用BLE技术中的广播信息与智能车载终端200进行通信,使得输入设备100和智能车载终端200之间的通信既能实现低能耗,又能使得智能车载终端200快速获取指令和做出响应,极大地提高用户体验和使用便利性。Therefore, the input device 100 communicates with the smart in-vehicle terminal 200 using the broadcast information in the BLE technology, so that the communication between the input device 100 and the smart in-vehicle terminal 200 can achieve low power consumption, and enables the smart in-vehicle terminal 200 to quickly acquire commands and Respond to greatly improve the user experience and ease of use.
步骤S110后,执行步骤S120。 After step S110, step S120 is performed.
步骤S120:智能车载终端200通过上述蓝牙信任通信接口接收输入设备100所发送的广播信息;响应于广播信息实时生成图像数据,并将图像数据存储于本地存储介质。Step S120: The smart vehicle terminal 200 receives the broadcast information transmitted by the input device 100 through the above-mentioned Bluetooth trust communication interface; generates image data in real time in response to the broadcast information, and stores the image data in the local storage medium.
图3为一个实施例的智能车载终端模块示意图。智能车载终端200可以包括第二通信模块210、图像生成模块220和存储模块230。第二通信模块210用于通过上述蓝牙信任通信接口接收输入设备100发送的广播信息;图像生成模块220用于响应于所述广播信息实时生成图像数据;存储模块230将图像数据存储于本地存储介质。本地存储介质,例如可以是硬盘或者闪存之类的存储介质。存储介质可以是以固定的形式设置于智能车载终端200中,也可以是可移动的形式,例如存储介质可以是可移动硬盘或可插拔闪存等等。FIG. 3 is a schematic diagram of an intelligent vehicle terminal module of an embodiment. The smart vehicle terminal 200 may include a second communication module 210, an image generation module 220, and a storage module 230. The second communication module 210 is configured to receive the broadcast information sent by the input device 100 through the Bluetooth trusted communication interface; the image generating module 220 is configured to generate image data in real time in response to the broadcast information; and the storage module 230 stores the image data in the local storage medium. . The local storage medium may be, for example, a storage medium such as a hard disk or a flash memory. The storage medium may be disposed in the smart vehicle terminal 200 in a fixed form, or may be in a movable form, for example, the storage medium may be a removable hard disk or a pluggable flash memory or the like.
所述图像数据可以包括从记载有行车情况的视频数据中生成的图片和视频中的至少一种。通常而言,在一次生成中,生成的图像数据只包括图片或只包括视频。当然,不排除图像数据既包括图片也包括视频的情况。The image data may include at least one of a picture and a video generated from video data in which a driving situation is recorded. In general, in one generation, the generated image data includes only pictures or only video. Of course, the case where the image data includes both pictures and videos is not excluded.
在本实施例中,当输入设备100识别出上述短按事件或短触按事件时,智能车载终端200根据这些输入事件相应的广播信息而响应生成图片;当输入设备100识别出上述长按事件或长触按事件时,智能车载终端200根据这些输入事件相应的广播信息而响应生成视频。以输入设备100为按键设备时为例做以下描述。In the embodiment, when the input device 100 recognizes the short press event or the short touch event, the smart vehicle terminal 200 responds to generate a picture according to the corresponding broadcast information of the input event; when the input device 100 recognizes the long press event When the event is long touched, the smart vehicle terminal 200 responds to generate a video based on the broadcast information corresponding to the input events. The following description will be made by taking the input device 100 as a button device as an example.
所述图片包括:在智能车载终端200接收到广播信息那刻之前或之后的第二预设时长内视频数据中清晰度最佳的图片。广播信息为短按事件所对应的广播信息。The picture includes a picture with the best definition in the video data in the second preset time period before or after the smart car terminal 200 receives the broadcast information. The broadcast information is the broadcast information corresponding to the short press event.
换言之,所述图片是从视频数据中抓取的。假设智能车载终端300接收到该广播信息那个时刻为A时刻,第二预设时长为a时长,在A时刻之前或之后的a时长内,从智能车载终端300记录的视频数据中抓取清晰度最佳的图片。通常而言,是在A时刻之前的a时长内,从智能车载终端300记录的视频数据中抓取清晰度最佳的图片。这是因为当车主对进行按键设备进行操作时,此时车主想要分享的视频画面可能已经错过,因此可以适当从过去的视频画面中获取图片。例如,通常车主按按键时想要分享 的视频画面已经错过,这个错过的时间可以设定1秒内,即a时长为1秒。这样,车主在按按键时,所抓取的图片为按按键那时刻(识别出短按事件的时刻)之前的1秒时间内视频中清晰度最佳的图片。In other words, the picture is captured from the video data. It is assumed that the smart car terminal 300 receives the broadcast information at the time A, the second preset time is a duration, and captures the sharpness from the video data recorded by the smart vehicle terminal 300 within a time period before or after the A time. The best picture. Generally, the picture with the best definition is captured from the video data recorded by the smart vehicle terminal 300 within a time period before the time A. This is because when the owner operates the button device, the video picture that the owner wants to share may have been missed, so the picture can be obtained from the past video picture as appropriate. For example, usually the owner wants to share when the button is pressed. The video screen has been missed, and this missed time can be set within 1 second, that is, the duration of a is 1 second. In this way, when the owner presses the button, the captured image is the best picture in the video within 1 second before the button is pressed (the moment when the short press event is recognized).
所述视频包括:根据智能车载终端200接收到广播信息的那刻而确定的一段视频。该广播信息为长按事件所对应的广播信息。The video includes a video determined according to the moment when the smart vehicle terminal 200 receives the broadcast information. The broadcast information is broadcast information corresponding to a long press event.
换言之,所述视频也是从视频数据中抓取的。假设智能车载终端300接收到该广播信息那个时刻为A时刻,第四预设时长为b时长,在A-b时刻(例如A为13:00,b为1秒,则A-b时刻为12:59:59,则A+b时刻为13:00:01;下同)开始计时到长按事件结束,所述视频就是抓取自这段时间区段内的视频数据。同样,这是因为当车主对进行按键设备进行操作时,此时车主想要分享的视频画面可能已经错过,因此可以适当从过去的视频画面中获取视频。例如,通常车主按按键时想要分享的视频画面已经错过,这个错过的时间可以设定1秒内,即b时长也为1秒。这样,车主在按按键时,所抓取的视频为按按键那时刻(识别出长按事件的时刻)之前的1秒开始计时的视频数据。In other words, the video is also captured from the video data. It is assumed that the smart car terminal 300 receives the broadcast information at the time A, and the fourth preset time is b. At the time of Ab (for example, A is 13:00, b is 1 second, and Ab is 12:59:59). Then, the A+b time is 13:00:01; the same time) starts counting until the end of the long press event, and the video is the video data captured from the time zone. Again, this is because when the owner operates the button device, the video picture that the owner wants to share may have been missed, so the video can be properly acquired from the past video frame. For example, the video picture that the owner wants to share when the button is pressed is usually missed. The missed time can be set within 1 second, that is, the b time is also 1 second. Thus, when the owner presses a button, the captured video is the video data that starts counting 1 second before the button is pressed (the time at which the long press event is recognized).
当输入设备100为触摸屏设备时也适用上述实施例,只需将上述的短按事件换成短触按事件、将长按事件换成长触按事件。The above embodiment is also applicable when the input device 100 is a touch screen device, and it is only necessary to replace the short press event described above with a short touch event and a long press event for a new touch event.
上述的智能车载终端触发系统和方法,输入设备识别输入事件后,发送广播信息;通过蓝牙低能耗技术与输入设备通信的智能车载终端,接收广播信息并响应生成图像数据。因此,用户可以操作输入设备而使得智能车载终端可以自行生成图像数据,例如生成图片或小段视频,提高了使用便利性;输入设备和智能车载终端是通过蓝牙低能耗技术连接的,并且输入设备使用广播信息来发送相关的指令,使得输入设备和智能车载终端之间的通信既能实现低能耗,又能使得智能车载终端快速获取指令和做出响应,极大地提高用户体验和使用便利性。The above-mentioned intelligent vehicle-mounted terminal triggering system and method, after the input device recognizes an input event, transmits broadcast information; and the intelligent vehicle-mounted terminal that communicates with the input device through the Bluetooth low-energy technology receives broadcast information and responds to generate image data. Therefore, the user can operate the input device so that the smart vehicle terminal can generate image data by itself, for example, generating a picture or a small video, thereby improving the convenience of use; the input device and the smart vehicle terminal are connected by Bluetooth low energy technology, and the input device is used. The information is broadcast to transmit related instructions, so that the communication between the input device and the intelligent vehicle-mounted terminal can achieve low energy consumption, and enables the intelligent vehicle-mounted terminal to quickly acquire instructions and respond, thereby greatly improving the user experience and convenience of use.
应该理解的是,虽然图4的流程图中的各个步骤按照箭头的指示依次显示,但是这些步骤并不是必然按照箭头指示的顺序依次执行。除非本文中有明确的说明,这些步骤的执行并没有严格的顺序限制,其可以以其他的顺序执行。而且,图4中的至少一部分步骤可以包括多个子步骤或者多 个阶段,这些子步骤或者阶段并不必然是在同一时刻执行完成,而是可以在不同的时刻执行,其执行顺序也不必然是依次进行,而是可以与其他步骤或者其他步骤的子步骤或者阶段的至少一部分轮流或者交替地执行。It should be understood that although the various steps in the flowchart of FIG. 4 are sequentially displayed as indicated by the arrows, these steps are not necessarily performed in the order indicated by the arrows. Except as explicitly stated herein, the execution of these steps is not strictly limited, and may be performed in other sequences. Moreover, at least some of the steps in FIG. 4 may include multiple sub-steps or more Stages, these sub-steps or phases are not necessarily performed at the same time, but can be executed at different times, and the order of execution is not necessarily sequential, but can be sub-steps with other steps or other steps or At least a portion of the stages are alternately or alternately performed.
本发明的各个部件实施例可以以硬件实现,或者以在一个或者多个处理器上运行的软件模块实现,或者以它们的组合实现。本领域的技术人员应当理解,可以在实践中使用微处理器或者数字信号处理器(DSP)来实现根据本发明实施例的移动终端处理可视化图形编码中的一些或者全部部件的一些或者全部功能。本发明还可以实现为用于执行这里所描述的方法的一部分或者全部的设备或者装置程序(例如,计算机程序和计算机程序产品)。这样的实现本发明的程序可以存储在计算机可读介质上,或者可以具有一个或者多个信号的形式。这样的信号可以从因特网网站上下载得到,或者在载体信号上提供,或者以任何其他形式提供。The various component embodiments of the present invention may be implemented in hardware, or in a software module running on one or more processors, or in a combination thereof. Those skilled in the art will appreciate that a microprocessor or digital signal processor (DSP) may be used in practice to implement some or all of the functionality of some or all of the components of the visual graphics encoding in accordance with embodiments of the present invention. The invention can also be implemented as a device or device program (e.g., a computer program and a computer program product) for performing some or all of the methods described herein. Such a program implementing the invention may be stored on a computer readable medium or may be in the form of one or more signals. Such signals may be downloaded from an Internet website, provided on a carrier signal, or provided in any other form.
例如,图5示出了可以实现根据本发明的文件加密方法及与该文件加密的方法的智能电子设备。该智能电子设备传统上包括处理器710和以存储器720形式的计算机程序产品或者计算机可读介质。存储器720可以是诸如闪存、EEPROM(电可擦除可编程只读存储器)、EPROM、硬盘或者ROM之类的电子存储器。存储器720具有用于执行上述方法中的任何方法步骤的程序代码731的存储空间730。例如,用于程序代码的存储空间730可以包括分别用于实现上面的方法中的各种步骤的各个程序代码731。这些程序代码可以从一个或者多个计算机程序产品中读出或者写入到这一个或者多个计算机程序产品中。这些计算机程序产品包括诸如硬盘,紧致盘(CD)、存储卡或者软盘之类的程序代码载体。这样的计算机程序产品通常为如参考图6所述的便携式或者固定存储单元。该存储单元可以具有与图5的智能电子设备中的存储器720类似布置的存储段或者存储空间等。程序代码可以例如以适当形式进行压缩。通常,存储单元包括用于执行根据本发明的方法步骤的程序731’,即可以由例如诸如710之类的处理器读取的代码,这些代码当由智能电子设备运行时,导致该智能电子设备执行上面所描述的方法中的各个步骤。For example, FIG. 5 illustrates an intelligent electronic device that can implement a file encryption method and a method of encrypting the same according to the present invention. The intelligent electronic device conventionally includes a processor 710 and a computer program product or computer readable medium in the form of a memory 720. Memory 720 can be an electronic memory such as a flash memory, EEPROM (Electrically Erasable Programmable Read Only Memory), EPROM, hard disk, or ROM. Memory 720 has a memory space 730 for program code 731 for performing any of the method steps described above. For example, storage space 730 for program code may include various program code 731 for implementing various steps in the above methods, respectively. The program code can be read from or written to one or more computer program products. These computer program products include program code carriers such as hard disks, compact disks (CDs), memory cards or floppy disks. Such computer program products are typically portable or fixed storage units as described with reference to FIG. The storage unit may have a storage section or a storage space or the like arranged similarly to the storage 720 in the intelligent electronic device of FIG. The program code can be compressed, for example, in an appropriate form. In general, the storage unit comprises a program 731' for performing the steps of the method according to the invention, ie code that can be read by a processor, such as 710, which, when run by the intelligent electronic device, causes the intelligent electronic device Perform the various steps in the method described above.
以上所述仅是本发明的部分实施方式,应当指出,对于本技术领域的 普通技术人员来说,在不脱离本发明原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也应视为本发明的保护范围。 The above description is only a partial embodiment of the present invention, and it should be noted that it is for the technical field. Many modifications and refinements can be made by those skilled in the art without departing from the principles of the invention, and such modifications and refinements are also considered to be within the scope of the invention.

Claims (32)

  1. 一种智能车载终端触发系统,其特征在于,包括:An intelligent vehicle terminal triggering system, comprising:
    输入设备,用于识别输入事件,产生与输入事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送所述广播信息;及An input device, configured to identify an input event, generate broadcast information corresponding to the input event, and send the broadcast information through a pre-established Bluetooth trusted communication interface; and
    与所述输入设备通过蓝牙低能耗技术通信的智能车载终端,用于通过所述蓝牙信任通信接口接收所述广播信息,并响应于所述广播信息生成图像数据。An intelligent in-vehicle terminal that communicates with the input device via a Bluetooth low energy technology for receiving the broadcast information through the Bluetooth trusted communication interface and generating image data in response to the broadcast information.
  2. 根据权利要求1所述的智能车载终端触发系统,其特征在于,所述输入设备在识别出输入事件后,从待机状态切换到广播状态以发送所述广播信息。The intelligent vehicle-mounted terminal triggering system according to claim 1, wherein the input device switches from a standby state to a broadcast state to transmit the broadcast information after recognizing an input event.
  3. 根据权利要求2所述的智能车载终端触发系统,其特征在于,所述输入设备在识别出输入事件后,在预设的广播时长内周期性发送所述广播信息。The intelligent vehicle-mounted terminal triggering system according to claim 2, wherein the input device periodically transmits the broadcast information within a preset broadcast duration after the input event is recognized.
  4. 根据权利要求2所述的智能车载终端触发系统,其特征在于,所述输入设备在发送完所述广播信息后,从广播状态切换到待机状态。The intelligent vehicle-mounted terminal triggering system according to claim 2, wherein the input device switches from a broadcast state to a standby state after transmitting the broadcast information.
  5. 根据权利要求1所述的智能车载终端触发系统,其特征在于,所述广播信息包括所述输入设备的物理地址、标识符、输入事件代码和电池电量中的至少一种。The intelligent vehicle-mounted terminal triggering system according to claim 1, wherein the broadcast information comprises at least one of a physical address, an identifier, an input event code, and a battery power of the input device.
  6. 根据权利要求5所述的智能车载终端触发系统,其特征在于,所述广播信息包括所述输入设备的电池电量,所述智能车载终端接收所述广播信息后,获取所述电池电量,并在所述电池电量低于预设电量值时发出告警信息。The intelligent vehicle-mounted terminal triggering system according to claim 5, wherein the broadcast information includes a battery power of the input device, and after receiving the broadcast information, the smart vehicle-mounted terminal acquires the battery power, and The alarm information is sent when the battery power is lower than the preset power value.
  7. 根据权利要求5所述的智能车载终端触发系统,其特征在于,所述广播信息包括所述输入设备的物理地址和输入事件代码。The intelligent vehicle terminal triggering system according to claim 5, wherein the broadcast information comprises a physical address of the input device and an input event code.
  8. 根据权利要求7所述的智能车载终端触发系统,其特征在于,所述智能车载终端接收到所述广播信息后,验证所述输入设备的物理地址与自身存储的物理地址是否匹配,如果匹配则响应所述输入事件代码生成图像数据。 The intelligent vehicle-mounted terminal triggering system according to claim 7, wherein after receiving the broadcast information, the smart vehicle-mounted terminal verifies whether the physical address of the input device matches the physical address stored by itself, and if yes, Image data is generated in response to the input event code.
  9. 根据权利要求5所述的智能车载终端触发系统,其特征在于,所述广播信息包括所述输入设备的物理地址、输入事件代码和电池电量。The intelligent vehicle-mounted terminal triggering system according to claim 5, wherein the broadcast information comprises a physical address of the input device, an input event code, and a battery power.
  10. 根据权利要求1所述的智能车载终端触发系统,其特征在于,所述输入设备包括显示模块,所述显示模块根据输入事件进入相应的显示模式。The intelligent vehicle terminal triggering system according to claim 1, wherein the input device comprises a display module, and the display module enters a corresponding display mode according to an input event.
  11. 根据权利要求1所述的智能车载终端触发系统,其特征在于,所述图像数据包括从记载有行车情况的视频数据中生成的图片和视频中的至少一种。The intelligent vehicle-mounted terminal triggering system according to claim 1, wherein the image data includes at least one of a picture and a video generated from video data in which a driving situation is recorded.
  12. 根据权利要求11所述的智能车载终端触发系统,其特征在于,所述输入设备为按键设备,所述按键设备用于识别按键事件,产生与按键事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送所述广播信息。The intelligent vehicle-mounted terminal triggering system according to claim 11, wherein the input device is a button device, and the button device is configured to identify a button event, generate broadcast information corresponding to the button event, and pre-established Bluetooth. The trusted communication interface transmits the broadcast information.
  13. 根据权利要求12所述的智能车载终端触发系统,其特征在于,所述按键事件包括按键的按下时长小于第一预设时长的按键事件,所述智能车载终端响应于与所述按键事件相对应的广播信息生成所述图片。The intelligent vehicle-mounted terminal triggering system according to claim 12, wherein the button event comprises a button event in which a button press duration is less than a first preset duration, and the smart vehicle terminal is responsive to the button event The corresponding broadcast information generates the picture.
  14. 根据权利要求13所述的智能车载终端触发系统,其特征在于,所述图片包括:在智能车载终端接收到所述广播信息那刻之前或之后的第二预设时长内视频数据中清晰度最佳的图片。The smart vehicle terminal triggering system according to claim 13, wherein the picture comprises: the highest resolution of the video data in the second preset time period before or after the smart vehicle terminal receives the broadcast information. Good picture.
  15. 根据权利要求12所述的智能车载终端触发系统,其特征在于,所述按键事件包括按键的按下时长大于第三预设时长的按键事件,所述智能车载终端响应于与所述按键事件相对应的广播信息生成的所述视频。The intelligent vehicle-mounted terminal triggering system according to claim 12, wherein the button event comprises a button event in which a button press duration is greater than a third preset duration, the smart vehicle terminal responding to the button event The video generated by the corresponding broadcast information.
  16. 一种智能车载终端触发方法,其特征在于,包括如下步骤:An intelligent vehicle terminal triggering method includes the following steps:
    输入设备识别输入事件,产生与输入事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送所述广播信息;The input device identifies the input event, generates broadcast information corresponding to the input event, and sends the broadcast information through a pre-established Bluetooth trusted communication interface;
    与所述输入设备通过蓝牙低能耗技术通信的智能车载终端通过所述蓝牙信任通信接口接收所述广播信息,并响应于所述广播信息生成图像数据。An intelligent in-vehicle terminal that communicates with the input device via a Bluetooth low energy technology receives the broadcast information through the Bluetooth trusted communication interface and generates image data in response to the broadcast information.
  17. 根据权利要求16所述的智能车载终端触发方法,其特征在于,所述输入设备在识别出输入事件后,从待机状态切换到广播状态以发送所 述广播信息。The smart vehicle terminal triggering method according to claim 16, wherein the input device switches from a standby state to a broadcast state to transmit a location after recognizing an input event. Broadcast information.
  18. 根据权利要求17所述的智能车载终端触发方法,其特征在于,所述输入设备在识别出输入事件后,在预设的广播时长内周期性发送所述广播信息。The smart vehicle terminal triggering method according to claim 17, wherein the input device periodically transmits the broadcast information within a preset broadcast duration after the input event is recognized.
  19. 根据权利要求17所述的智能车载终端触发方法,其特征在于,所述输入设备在发送完所述广播信息后,从广播状态切换到待机状态。The smart vehicle terminal triggering method according to claim 17, wherein the input device switches from a broadcast state to a standby state after transmitting the broadcast information.
  20. 根据权利要求16所述的智能车载终端触发方法,其特征在于,所述广播信息包括所述输入设备的物理地址、标识符、输入事件代码和电池电量中的至少一种。The smart vehicle terminal triggering method according to claim 16, wherein the broadcast information comprises at least one of a physical address, an identifier, an input event code, and a battery power of the input device.
  21. 根据权利要求20所述的智能车载终端触发方法,其特征在于,所述广播信息包括所述输入设备的电池电量,所述智能车载终端接收所述广播信息后,获取所述电池电量,并在所述电池电量低于预设电量值时发出告警信息。The smart vehicle terminal triggering method according to claim 20, wherein the broadcast information includes a battery power of the input device, and after receiving the broadcast information, the smart vehicle terminal acquires the battery power, and The alarm information is sent when the battery power is lower than the preset power value.
  22. 根据权利要求20所述的智能车载终端触发方法,其特征在于,所述广播信息包括所述输入设备的物理地址和输入事件代码。The smart vehicle terminal triggering method according to claim 20, wherein the broadcast information comprises a physical address of the input device and an input event code.
  23. 根据权利要求22所述的智能车载终端触发方法,其特征在于,所述智能车载终端接收到所述广播信息后,验证所述输入设备的物理地址与自身存储的物理地址是否匹配,如果匹配则响应所述输入事件代码生成图像数据。The smart vehicle terminal triggering method according to claim 22, wherein after receiving the broadcast information, the smart vehicle terminal verifies whether the physical address of the input device matches the physical address stored by itself, and if yes, Image data is generated in response to the input event code.
  24. 根据权利要求20所述的智能车载终端触发方法,其特征在于,所述广播信息包括所述输入设备的物理地址、输入事件代码和电池电量。The smart vehicle terminal triggering method according to claim 20, wherein the broadcast information comprises a physical address of the input device, an input event code, and a battery power.
  25. 根据权利要求16所述的智能车载终端触发方法,其特征在于,所述输入设备包括显示模块,所述显示模块根据输入事件进入相应的显示模式。The smart vehicle terminal triggering method according to claim 16, wherein the input device comprises a display module, and the display module enters a corresponding display mode according to an input event.
  26. 根据权利要求16所述的智能车载终端触发方法,其特征在于,所述图像数据包括从记载有行车情况的视频数据中生成的图片和视频中的至少一种。The smart vehicle terminal triggering method according to claim 16, wherein the image data includes at least one of a picture and a video generated from video data in which a driving situation is recorded.
  27. 根据权利要求26所述的智能车载终端触发方法,其特征在于,所述输入设备为按键设备,所述按键设备用于识别按键事件,产生与按键 事件相对应的广播信息,通过预建立的蓝牙信任通信接口发送所述广播信息。The smart vehicle terminal triggering method according to claim 26, wherein the input device is a button device, and the button device is used for identifying a button event, generating a button The broadcast information corresponding to the event is sent by the pre-established Bluetooth trusted communication interface.
  28. 根据权利要求27所述的智能车载终端触发方法,其特征在于,所述按键事件包括按键的按下时长小于第一预设时长的按键事件,所述智能车载终端响应于与所述按键事件相对应的广播信息生成所述图片。The method of triggering an intelligent vehicle-mounted terminal according to claim 27, wherein the button event comprises a button event in which a button press duration is less than a first preset duration, and the smart vehicle terminal is responsive to the button event The corresponding broadcast information generates the picture.
  29. 根据权利要求28所述的智能车载终端触发方法,其特征在于,所述图片包括:在智能车载终端接收到所述广播信息那刻之前或之后的第二预设时长内视频数据中清晰度最佳的图片。The smart vehicle terminal triggering method according to claim 28, wherein the picture comprises: the most sharpness of the video data in the second preset time period before or after the smart vehicle terminal receives the broadcast information Good picture.
  30. 根据权利要求27所述的智能车载终端触发方法,其特征在于,所述按键事件包括按键的按下时长大于第三预设时长的按键事件,所述智能车载终端响应于与所述按键事件相对应的广播信息生成的所述视频。The intelligent vehicle-mounted terminal triggering method according to claim 27, wherein the button event comprises a button event in which a button press duration is greater than a third preset duration, and the smart vehicle terminal is responsive to the button event The video generated by the corresponding broadcast information.
  31. 一种计算机程序,包括计算机可读代码,当智能电子设备运行所述计算机可读代码时,导致权利要求16-30中的任一项权利要求所述的方法被执行。A computer program comprising computer readable code, when the intelligent electronic device runs the computer readable code, causing the method of any one of claims 16-30 to be performed.
  32. 一种计算机可读介质,其中存储了如权利要求31所述的计算机程序。 A computer readable medium storing the computer program of claim 31.
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