(19)
(11)EP 3 319 063 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
01.01.2020 Bulletin 2020/01

(21)Application number: 17191632.3

(22)Date of filing:  18.09.2017
(51)International Patent Classification (IPC): 
G08G 1/0967(2006.01)
F02N 11/08(2006.01)
G08G 1/096(2006.01)

(54)

METHOD AND APPARATUS FOR LAUNCHING START-STOP FUNCTION

VERFAHREN UND VORRICHTUNG ZUM STARTEN EINER START-STOPP-FUNKTION

PROCÉDÉ ET APPAREIL DE LANCEMENT D'UNE FONCTION MARCHE-ARRÊT


(84)Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

(30)Priority: 07.11.2016 CN 201610978818

(43)Date of publication of application:
09.05.2018 Bulletin 2018/19

(73)Proprietor: Beijing Xiaomi Mobile Software Co., Ltd.
Beijing 100085 (CN)

(72)Inventors:
  • CHU, Yueyue
    Beijing, Beijing 100085 (CN)
  • XIE, Yan
    Beijing, Beijing 100085 (CN)
  • WANG, Da
    Beijing, Beijing 100085 (CN)

(74)Representative: dompatent von Kreisler Selting Werner - Partnerschaft von Patent- und Rechtsanwälten mbB 
Deichmannhaus am Dom Bahnhofsvorplatz 1
50667 Köln
50667 Köln (DE)


(56)References cited: : 
EP-A1- 2 161 697
JP-A- 2003 041 964
CN-A- 105 799 704
US-A1- 2018 079 421
  
      
    Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


    Description

    FIELD



    [0001] The present disclosure generally relates to a vehicle terminal, and more particularly to a method and apparatus for launching start-stop function.

    BACKGROUND



    [0002] With the development of automobile manufacturing technologies, currently new cars mostly have start-stop function. The start-stop function of a vehicle means when a brake pedal is trodden to stop the vehicle, an engine of the vehicle will stop working, at the same time, however, lubricating oil inside the engine will keep running and keep the engine inside lubricated. When the brake pedal is released, the engine starts again. It will not cause damage to the engine inside because the lubricating oil has been circulating, even if the frequent start and stop.

    [0003] In the related art, when the vehicle encounters a traffic light or a road congestion while traveling, a user will tread the brake pedal, and a vehicle terminal automatically launches the start-stop function after detecting that the vehicle is in stop state. JP 2003041964 describes an idling stop system that can perform appropriate idling stop control at a stop for a signal and the light.

    SUMMARY



    [0004] In view of the related arts, a method and apparatus for launching start-stop function are provided in the disclosure.

    [0005] According to a first aspect of the present disclosure, a method for launching start-stop function applied in a vehicle terminal is provided, including: transmitting to a server a traffic information acquiring instruction which carries current location information of a vehicle corresponding to the vehicle terminal which is used by the server to acquire traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road; receiving the traffic information transmitted by the server; and launching the start-stop function for the vehicle when the traffic information meets a preset condition, wherein the traffic information is a real time road condition information of the road; and the launching the start-stop function for the vehicle when the traffic information meets a preset condition comprises: determining congestion time for the road based on the real time road condition information of the road, wherein the congestion time is a difference between an estimated passing time when the road is congested and a historical passing time when the road is clear; and launching the start-stop function for the vehicle when the congestion time is longer than a preset threshold.

    [0006] Optionally, the method further includes following operations before transmitting to a server a traffic information acquiring instruction: detecting current state of the vehicle is in stop state.

    [0007] According to a second aspect of the present disclosure, a method for launching start-stop function applied in a server is provided, including: receiving a traffic information acquiring instruction transmitted by a vehicle terminal, the traffic information acquiring instruction carrying current location information of a vehicle corresponding to the vehicle terminal; acquiring traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road; and transmitting the traffic information to the vehicle terminal, the traffic information being used by the vehicle terminal to launch the start-stop function for the vehicle, wherein the traffic information is real time road condition information of the road, and the acquiring traffic information of a road at which the vehicle is currently located based on the location information comprises: determining the road at which the vehicle is currently located based on the location information; and acquiring the real time road condition information of the road so as to enable the vehicle terminal to determine congestion time for the road based on the real time road condition information of the road and launch the start-stop function for the vehicle when the congestion time is longer than a preset threshold, wherein the congestion time is a difference between an estimated passing time when the road is congested and a historical passing time when the road is clear.

    [0008] According to a third aspect of the present disclosure, an apparatus for launching start-stop function applied in a vehicle terminal is provided, including: a first transmission module configured to transmit to a server a traffic information acquiring instruction which carries current location information of a vehicle corresponding to the vehicle terminal and is used by the server to acquire traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road; a first reception module configured to receive the traffic information transmitted by the server; and a launch module configured to launch the start-stop function for the vehicle when the traffic information meets preset condition, wherein the traffic information is a real time road condition information of the road and the launch module comprises: a second determination sub-module configured to determine congestion time for the road based on the real time road condition information of the road, wherein the congestion time is a difference between an estimated passing time when the road is congested and a historical passing time when the road is clear; and a second launch sub-module configured to launch the start-stop function for the vehicle when the congestion time is longer than a preset threshold.

    [0009] Optionally, the apparatus further includes a detection module configured to detect current state of the vehicle; and a first acquirement module configured to acquire the current location information of the vehicle when it is detected that the current state of the vehicle is in stop state.

    [0010] According to a fourth aspect of the present disclosure, an apparatus for launching start-stop function applied in a server is provided, including: a second reception module configured to receive a traffic information acquiring instruction transmitted by a vehicle terminal, the traffic information acquiring instruction carrying current location information of a vehicle corresponding to the vehicle terminal; a second acquirement module configured to acquire traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road; and a second transmission module configured to transmit the traffic information to the vehicle terminal, the traffic information being used by the vehicle terminal to launch the start-stop function for the vehicle, wherein the traffic information is real time road condition information of the road, and the second acquirement module comprises: a fourth determination sub-module configured to determine the road at which the vehicle is currently located based on the location information; and a second acquirement sub-module configured to acquire the real time road condition information of the road so as to enable the vehicle terminal to determine congestion time for the road based on the real time road condition information of the road and launch the start-stop function for the vehicle when the congestion time is longer than a preset threshold, wherein the congestion time is a difference between an estimated passing time when the road is congested and a historical passing time when the road is clear.

    [0011] According to a fifth aspect of the present disclosure, an apparatus for launching start-stop function is provided, including: a processor; a memory to store processor-executable instructions; the processor being configured to: transmit to a server a traffic information acquiring instruction which carries current location information of a vehicle and is used by the server to acquire traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road; receive the traffic information transmitted by the server; and launch the start-stop function for the vehicle when the traffic information meets preset condition, wherein the traffic information is real time road condition information of the road, and the processor is configured to: determine congestion time for the road based on the real time road condition information of the road, wherein the congestion time is a difference between an estimated passing time when the road is congested and a historical passing time when the road is clear; and launch the start-stop function for the vehicle when the congestion time is longer than a preset threshold.

    [0012] According to the embodiments of the disclosure, the vehicle terminal transmits to a server a traffic information acquiring instruction to acquire traffic information of a road at which the vehicle is currently located, receives the traffic information, and then launches the start-stop function for the vehicle when the traffic information meets preset condition. As a result, the vehicle terminal may determine whether to launch the start-stop function based on the traffic information of the road at which the vehicle is currently located, and thus it can avoid launching the start-stop function frequently within a short period since the start-stop function will be launch once the brake pedal is detected to be trodden without the traffic information. Therefore, it is convenient for the user in using the start-stop function and the user is more willing to use the start-stop function, and thus usage of the start-stop function is improved.

    [0013] It is to be understood that both the forgoing general description and the following detailed description are exemplary and illustrative only, and will not limit the present disclosure

    BRIEF DESCRIPTION OF THE DRAWINGS



    [0014] The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and, together with the description, serve to explain the principles of the invention.

    Fig. 1 is a system architecture diagram according to present disclosure.

    Fig. 2 is a flow diagram illustrating a method for launching start-stop function according to an exemplary embodiment.

    Fig. 3 is a flow diagram illustrating a method for launching start-stop function according to an exemplary embodiment.

    Fig. 4 is a flow diagram illustrating a method for launching start-stop function according to an exemplary embodiment.

    Fig. 5A is a block diagram illustrating an apparatus for launching start-stop function according to an exemplary embodiment.

    Fig. 5B is a block diagram illustrating an apparatus for launching start-stop function according to an exemplary embodiment.

    Fig. 5C is a block diagram illustrating a launch module according to an exemplary embodiment.

    Fig. 5D is a block diagram illustrating a launch module according to an exemplary embodiment.

    Fig. 6A is a block diagram illustrating an apparatus for launching start-stop function according to an exemplary embodiment.

    Fig. 6B is a block diagram illustrating a second acquirement module according to an exemplary embodiment.

    Fig. 6C is a block diagram illustrating a second acquirement module according to an exemplary embodiment.

    Fig. 7 is a block diagram illustrating an apparatus for launching start-stop function according to an exemplary embodiment.

    Fig. 8 is a block diagram illustrating an apparatus for launching start-stop function according to an exemplary embodiment.


    DETAILED DESCRIPTION



    [0015] Exemplary embodiments are described in detail herein, examples of which are illustrated in the accompanying drawings. The following description refers to the accompanying drawings in which same numbers in different drawings represent same or similar elements unless otherwise described. The implementations set forth in the following description of exemplary embodiments do not represent all implementations consistent with the invention. Instead, they are merely examples of apparatuses and methods consistent with aspects related to the invention as recited in the appended claims.

    [0016] An application scenario of the present disclosure is described before detailing embodiments of the present disclosure. With the development of automobile manufacturing technologies, currently new cars mostly have start-stop function. The vehicle terminal may launch the start-stop function when the brake pedal is detected to be trodden by the user to stop the engine, if there is a traffic light or road congestion while the vehicle is running. In practice, when there is a traffic light or road congestion while the vehicle is running, the waiting time at red light or the waiting time for the road congestion may be short. Therefore, the user would not like the start-stop function to be launched. However, the vehicle terminal may launch the start-stop function once the brake pedal is detected to be trodden, which may annoy the user. In order to address the problem, the vehicle terminal may transmit a traffic information acquiring instruction to a server, the server may acquire traffic information of a road at which the vehicle is currently located after receiving the traffic information acquiring instruction and transmit the acquired traffic information to the vehicle terminal, and then the vehicle terminal may determine whether to launch the start-stop function based on the traffic condition of the road at which the vehicle is currently located.

    [0017] Fig. 1 is a system architecture diagram according to present disclosure. The system architecture may be applied into various types of vehicles. Also, any of the embodiments provided below may be applied into the system architecture.

    [0018] In Fig. 1, the system architecture may include a vehicle terminal 101, a vehicle 102, and a server 103. The vehicle terminal 101 is installed inside the vehicle 102. The vehicle terminal 101 may monitor and manage the vehicle 102. The vehicle terminal 101 is connected with the server 103 through a wireless network. Any of the embodiments below may work in the system architecture.

    [0019] Fig. 2 is a flow diagram illustrating a method for launching start-stop function according to an exemplary embodiment. Referring to Fig. 2, the method for launching start-stop function may be applied in a vehicle terminal and includes following operations.

    [0020] In 201, a traffic information acquiring instruction is transmitted to a server. The traffic information acquiring instruction may carry current location information of a vehicle corresponding to the vehicle terminal and the traffic information acquiring instruction may be used by the server to acquire traffic information of a road at which the vehicle is currently located based on the location information. The traffic information may indicate current traffic condition of the road.

    [0021] In 202, the traffic information transmitted by the server is received.

    [0022] In 203, the start-stop function for the vehicle is launched when the traffic information meets preset condition.

    [0023] According to the embodiments of the disclosure, the vehicle terminal may transmit a traffic information acquiring instruction to the server to acquire the traffic information of a road at which the vehicle is currently located, receive the traffic information, and then launch the start-stop function for the vehicle when the traffic information meets the preset condition. As a result, the vehicle terminal may determine whether to launch the start-stop function based on the traffic condition of the road at which the vehicle is currently located, and thus it can avoid launching the start-stop function frequently within a short period since the start-stop function will be launch once the brake pedal is detected to be trodden without the traffic information. Therefore, it is convenient for the user in using the start-stop function and the user would be more willing to use the start-stop function, and thus usage of the start-stop function is improved.

    [0024] Optionally, the method may further include: detecting current state of the vehicle; and acquiring the current location information of the vehicle when it is detected that the current state of the vehicle is in stop state.

    [0025] Optionally, the traffic information may be current traffic light information for location of a traffic light at which the vehicle is located. Launching the start-stop function for the vehicle when the traffic information meets the preset condition includes: determining waiting time at red light for the vehicle continuing to wait at a red light at the location of the traffic light based on the current traffic light information; and launching the start-stop function for the vehicle when the waiting time at red light is longer than a preset threshold.

    [0026] The traffic information may be real time road condition information of the road. Launching the start-stop function for the vehicle when the traffic information meets the preset condition includes: determining congestion time for the road or traffic congestion index for the road based on the real time road condition information of the road; and launching the start-stop function for the vehicle when the congestion time is longer than a preset threshold or the traffic congestion index is a preset index.

    [0027] Fig. 3 is a flow diagram illustrating a method for launching start-stop function according to an exemplary embodiment. Referring to Fig. 3, the method for launching start-stop function may be applied in a server and includes following operations.

    [0028] In 301, a traffic information acquiring instruction transmitted by the vehicle terminal is received. The traffic information acquiring instruction may carry current location information of the vehicle corresponding to the vehicle terminal.

    [0029] In 302, the traffic information of the road at which the vehicle is currently located is acquired based on the location information. The traffic information may indicate current traffic condition of the road.

    [0030] In 303, the traffic information is transmitted to the vehicle terminal. The traffic information may be used by the vehicle terminal to launch the start-stop function for the vehicle.

    [0031] According to the embodiments of the disclosure, the server may receive the traffic information acquiring instruction from the vehicle terminal, acquire the traffic information of the road at which the vehicle corresponding to the vehicle terminal is currently located based on the location information in the traffic information acquiring instruction, and transmit the acquired traffic information to the vehicle terminal. As a result, the vehicle terminal may determine whether to launch the start-stop function based on the traffic information, and thus it can avoid launching the start-stop function frequently within a short period since the start-stop function will be launch once the brake pedal is detected to be trodden without the traffic information. Therefore, it is convenient for the user in using the start-stop function and the user would be more willing to use the start-stop function, and thus usage of the start-stop function is improved.

    [0032] Optionally, the traffic information may be current traffic light information for location of a traffic light at which the vehicle is located. Acquiring the traffic information of the road at which the vehicle is currently located based on the location information may include: determining the location of the traffic light at which the vehicle is located based on the location information; and acquiring the current traffic light information for the location of the traffic light.

    [0033] The traffic information may be real time road condition information of the road. Acquiring the traffic information of the road at which the vehicle is currently located based on the location information may include: determining the road at which the vehicle is currently located based on the location information; and acquiring the real time road condition information of the road.

    [0034] Fig. 4 is a flow diagram illustrating a method for launching start-stop function according to an exemplary embodiment. Referring to Fig. 4, the method for launching start-stop function may include following operations.

    [0035] In 401, the vehicle terminal detects current state of the vehicle corresponding to the vehicle terminal, and acquires the current location information of the vehicle when it is detected that the current state of the vehicle is in stop state.

    [0036] The vehicle terminal may detect the current state of the vehicle by detecting current running speed of the vehicle or by determining whether the vehicle is in idle state. It may be determined that the vehicle is in stop state when it is detected that the current running speed of the vehicle is 0 or the vehicle is in idle state. When the vehicle terminal detects that the current state of the vehicle becomes stop state, the vehicle terminal may acquire the current location information of the vehicle through on-board GPS (Global Positioning System). The location information may be longitude and latitude of the current location or information about the road at which the vehicle is currently located. Also, the location information may be other information which may indicate the current location of the vehicle.

    [0037] In 402, the vehicle terminal transmits to the server the traffic information acquiring instruction which carries the current location information of the vehicle corresponding to the vehicle terminal.

    [0038] In 403, the server receives the traffic information acquiring instruction transmitted by the vehicle terminal.

    [0039] In 404, the server acquires the traffic information of the road at which the vehicle corresponding to the vehicle terminal is currently located based on the current location information of the vehicle. The traffic information may indicate current traffic condition of the road

    [0040] The traffic information may be the current traffic light information for the location of the traffic light at which the vehicle is located. Or, the traffic information may be real time road condition information of the road at which the vehicle is currently located. The real time road condition information may indicate the degree of congestion of the road at which the vehicle is currently located.

    [0041] In the case that the traffic information is the current traffic light information for the location of the traffic light at which the vehicle is located, the operation 404 may include: determining running direction of the vehicle; determining the location of a traffic light through which the vehicle is going to pass based on the current location information and the running direction of the vehicle, the location of the traffic light through which the vehicle is going to pass being the location of the traffic light at which the vehicle is currently located; and acquiring the current traffic light information for the location of the traffic light at which the vehicle is currently located based on the location of the traffic light at which the vehicle is currently located.

    [0042] Prior to operation 404, the server may receive at least two current locations of the vehicle transmitted by the vehicle terminal, and determine the running direction of the vehicle based on the at least two current locations. Alternatively, the vehicle terminal may transmit a starting location and a target location to the server while the vehicle is running in order to request the server to plan a travel route for the vehicle, so that the server may determine the running direction of the vehicle based on the starting location and the target location of the vehicle.

    [0043] The traffic light information may be the remaining time of red light for the vehicle waiting at the red light at the location of the traffic light or may be start time and end time of current state of the traffic light at the location of the traffic light.

    [0044] There may be a plurality of traffic lights for a plurality of lanes at the location of the traffic light. For example, there may be a traffic light for a through lane, a traffic light for a left-turn lane, and a traffic light for a right-turn lane. Thus, the acquired current traffic light information may be current traffic light information for respective lanes at the location of the traffic light, also may be current traffic light information for a lane at which the vehicle is currently located.

    [0045] When acquiring the current traffic light information for the lane at which the vehicle is located in practical, the lane at which the vehicle is located may be determined based on the location of the traffic light at which the vehicle is currently located, and then the traffic light information corresponding to the lane may be extracted from the current traffic light information for the location of the traffic light.

    [0046] The server may store traffic light information for various locations of traffic lights for various roads. Moreover, the stored traffic light information may change in real time. Alternatively, a traffic command server, rather than the server, may store the traffic light information for various locations of traffic lights for various roads. Moreover, the stored traffic light information in the traffic command server may change in real time.

    [0047] Accordingly, the server may acquire traffic information for the road where the vehicle is currently located from the traffic light information for various locations of traffic lights stored therein based on the current location information of the vehicle. Alternatively, the server may acquire traffic information for the road where the vehicle is currently located from the traffic light information for various locations of traffic lights stored in the traffic command server based on the current location information of the vehicle.

    [0048] Furthermore, the remaining time of red light for the vehicle waiting at the red light at the location of the traffic light may be the remaining time of red light for the lane at which the vehicle is currently located acquired or may be the remaining time of red light for various lanes at the location of the traffic light acquired.

    [0049] The operations to acquire the remaining time of red light for the lane at which the vehicle is currently located may be performed as follows. The lane at which the vehicle is located may be determined based on the location of the traffic light at which the vehicle is currently located, and then the remaining time of red light corresponding to the lane may be extracted from the current traffic light information for the location of the traffic light.

    [0050] The operations to acquire the remaining time of red light for the various lanes at the location of the traffic light may be performed as follows. The current traffic light state of various lanes at the location of the traffic light may be determined based on the location of the traffic light at which the vehicle is currently located. State of the traffic light may include red light state, yellow light state, and green light state. Then the remaining time of red light for a lane that is in the red light state may be acquired among the various lanes.

    [0051] Furthermore, start time and end time of current state of the traffic light at the location of the traffic light may be the start time and the end time of the current state of the traffic light for the lane where the vehicle is currently located acquired, or may be the start time and the end time of the current state of the traffic lights for various lanes at the location of the traffic light acquired.

    [0052] The operations to acquire the start time and the end time of the current state of the traffic light for the lane where the vehicle is currently located may be performed as follows. The lane where the vehicle is located may be determined based on the location of the traffic light where the vehicle is currently located. Then the start time and the end time of the current state of the traffic light corresponding to the lane may be extracted from the current traffic light information for the location of the traffic light.

    [0053] The operations to acquire the start time and the end time of the current state of the traffic lights for various lanes at the location of the traffic light may be performed as follows. The current state of the traffic lights for various lanes at the location of the traffic light may be determined based on the location of the traffic light where the vehicle is currently located. The state of the traffic lights may include red light state, yellow light state, and green light state. Then the start time and the end time of the current state of the traffic lights for the various lanes may be acquired.

    [0054] In the case that the traffic information is the real time road condition information of the road at which the vehicle is located currently, the operation 404 may include: determining the road where the vehicle is currently located based on the location information; and acquiring the real time road condition information of the road.

    [0055] The real time road condition information of the road may include estimated passing time when the road is congested and historical passing time when the road is clear. Alternatively, the real time road condition information of the road may include traffic congestion index of the road, or congestion time of the road, which is the difference between the estimated passing time and the historical passing time.

    [0056] In operation 404, the server may acquire the real time road condition information of the road from a third party server based on the road where the vehicle is located currently. The third party server may be a server which may provide map service or monitor road condition in real time. For example, the third party server may be a map server or a traffic command server. The traffic command server may be used by the authority to monitor the road condition in real time.

    [0057] In 405, the server transmits the traffic information to the vehicle terminal.

    [0058] In 406, the vehicle terminal receives the traffic information transmitted by the server.

    [0059] In 407, the vehicle terminal launches the start-stop function for the vehicle when the traffic information meets the preset condition.

    [0060] The vehicle terminal may determine whether the traffic information meets the preset condition after receiving the traffic information transmitted by the server. When the traffic information meets the preset condition, the start-stop function for the vehicle is launched. When the traffic information does not meet the preset condition, the start-stop function for the vehicle is not launched.

    [0061] Optionally, in the case that the traffic information is the current traffic light information for the location of the traffic light where the vehicle is located, the operation 407 may include: determining the waiting time at red light for the vehicle continuing to wait at the red light at the location of the traffic light based on the current traffic light information; and launching the start-stop function for the vehicle when the waiting time at red light is longer than a preset threshold.

    [0062] Below are several implementations to determine the waiting time at red light for the vehicle continuing to wait at the red light at the location of the traffic light based on the current traffic light information.

    [0063] The first implementation: if the traffic light information includes the remaining time of red light for the lane where the vehicle is located currently, the remaining time of red light may be determined as the waiting time at red light for the vehicle continuing to wait at the red light.

    [0064] The second implementation: if the traffic light information includes respective remaining time of red light for various lanes at the location of the traffic light, the vehicle terminal may locate the lane where the vehicle is currently located based on the location information or acquire the lane where the vehicle is currently located that is selected by the user, and determine the remaining time of red light for the lane where the vehicle is currently located as the waiting time at red light for the vehicle continuing to wait at the red light.

    [0065] The third implementation: if the traffic light information includes the start time and the end time of the current state of the traffic light for the lane where the vehicle is currently located and the current state of the traffic light is in red light state, the vehicle terminal may calculate the remaining time of the current state of the traffic light based on current time, the start time and the end time of the current state of the traffic light, and determine the remaining time as the waiting time at red light for continuing to wait at the red light.

    [0066] The fourth implementation: if the traffic light information includes the start time and the end time of the current state of the traffic lights for various lanes at the location of the traffic light and the current state of the traffic lights is in red light state, the vehicle terminal may locate the lane where the vehicle is currently located based on the location information or acquire the lane where the vehicle is currently located which is selected by the user, acquire the start time and the end time of the traffic light for the lane where the vehicle is located currently, subsequently calculate the remaining time of the current state of the traffic light for the lane where the vehicle is currently located based on current time, the start time and the end time of the current state of the traffic light for the lane, and determine the remaining time as the waiting time at red light for continuing to wait at the red light.

    [0067] In the case that the traffic information is the real time road condition information of a road, the operation 407 may include: determining the congestion time of the road or the traffic congestion index of the road based on the real time road condition information of the road, and launching the start-stop function for the vehicle when the congestion time is longer than a preset threshold or the traffic congestion index is a preset index.

    [0068] If the real time road condition information includes the estimated passing time when the road is congested and the historical passing time when the road is clear, the vehicle terminal may calculate the difference between the estimated passing time and the historical passing time, determine the calculated difference as the congestion time of the road, and launch the start-stop function for the vehicle when the congestion time is longer than the preset threshold.

    [0069] Optionally, in the case that the real time road condition information includes the traffic congestion index of the road, the vehicle terminal may determine whether the traffic congestion index is greater than the preset index and launch the start-stop function for the vehicle when the traffic congestion index is greater than the preset index.

    [0070] Optionally, in the case that the real time road condition information includes the congestion time of the road, the vehicle terminal may directly determine whether the congestion time is longer than the preset threshold and launch the start-stop function for the vehicle when the congestion time is longer than the preset threshold.

    [0071] According to the embodiments of the disclosure, the vehicle terminal may transmit a traffic information acquiring instruction to the server; the server may acquire the traffic information of the road at which the vehicle corresponding to the vehicle terminal is currently located after receiving the traffic information acquiring instruction and transmit the acquired traffic information to the vehicle terminal. As a result, the vehicle terminal may determine whether to launch the start-stop function based on the traffic condition of the road at which the vehicle is located currently, and thus it can avoid launching the start-stop function frequently within a short period since the start-stop function will be launch once the brake pedal is detected to be trodden without the traffic information. Therefore, it is convenient for the user in using the start-stop function and the user would be more willing to use the start-stop function, and thus usage of the start-stop function is improved.

    [0072] Fig. 5A is a block diagram illustrating an apparatus 500 for launching start-stop function according to an exemplary embodiment. Referring to Fig. 5A, the apparatus may be applied in a vehicle terminal and include a first transmission module 510, a first reception module 502, and a launch module 503.

    [0073] The first transmission module 501 may be configured to transmit to a server a traffic information acquiring instruction. The traffic information acquiring instruction may carry current location information of a vehicle corresponding to the vehicle terminal and may be used by the server to acquire traffic information of a road at which the vehicle is currently located based on the location information. The traffic information may indicate current traffic condition of the road.

    [0074] The first reception module 502 may be configured to receive the traffic information transmitted by the server.

    [0075] The launch module 503 may be configured to launch the start-stop function for the vehicle when the traffic information meets preset condition.

    [0076] Optionally, referring to Fig. 5B, the apparatus may further include a detection module 504 configured to detect current state of the vehicle and a first acquirement module 505 configured to acquire the current location information of the vehicle when it is detected that the current state of the vehicle is in stop state.

    [0077] Optionally, referring to Fig. 5C, the traffic information is the current traffic light information for the location of the traffic light at which the vehicle is located.

    [0078] The launch module 503 may include a first determination sub-module 5031 and a first launch sub-module 5032. The first determination sub-module 5031 may be configured to determine waiting time at red light for the vehicle continuing to wait at a red light at the location of the traffic light based on the current traffic light information. The first launch sub-module 5032 may be configured to launch the start-stop function for the vehicle when the waiting time at red light is longer than a preset threshold.

    [0079] Referring to Fig. 5D, the traffic information is real time road condition information of the road.

    [0080] The launch module 503 may include a second determination sub-module 5033 and a second launch sub-module 5034. The second determination sub-module 5033 may be configured to determine congestion time of the road or traffic congestion index of the road based on the real time road condition information of the road. The second launch sub-module 5034 may be configured to launch the start-stop function for the vehicle when the congestion time is longer than a preset threshold or the traffic congestion index is a preset index.

    [0081] According to the embodiments of the disclosure, the vehicle terminal may transmit a traffic information acquiring instruction to the server to acquire the traffic information of a road at which the vehicle is located currently, receive the traffic information, and then launch the start-stop function for the vehicle when the traffic information meets the preset condition. As a result, the vehicle terminal may determine whether to launch the start-stop function based on the traffic condition of the road at which the vehicle is located currently, and thus it can avoid launching the start-stop function frequently within a short period since the start-stop function will be launch once the brake pedal is detected to be trodden without the traffic information. Therefore, it is convenient for the user in using the start-stop function and the user would be more willing to use the start-stop function, and thus usage of the start-stop function is improved.

    [0082] Fig. 6A is a block diagram illustrating an apparatus 600 for launching start-stop function according to an exemplary embodiment. Referring to Fig. 6A, the apparatus may be applied in a server and include a second reception module 601, a second acquirement module 602, and a second transmission module 603.

    [0083] The second reception module 601 may be configured to receive a traffic information acquiring instruction transmitted by a vehicle terminal. The traffic information acquiring instruction may carry current location information of a vehicle corresponding to the vehicle terminal.

    [0084] The second acquirement module 602 may be configured to acquire traffic information of a road at which the vehicle is currently located based on the location information. The traffic information may indicate current traffic condition of the road.

    [0085] The second transmission module 603 may be configured to transmit the traffic information to the vehicle terminal. The traffic information may be used by the vehicle terminal to launch the start-stop function for the vehicle.

    [0086] Optionally, referring to Fig. 6B, the traffic information is current traffic light information for location of a traffic light at which the vehicle is located. The second acquirement module 602 may include a third determination sub-module 6021 and a first acquirement sub-module 6022. The third determination sub-module 6021 may be configured to determine the location of the traffic light at which the vehicle is located based on the location information. The first acquirement sub-module 6022 may be configured to acquire the current traffic light information for the location of the traffic light.

    [0087] Referring to Fig. 6C, the traffic information is real time road condition information of the road. The second acquirement module 602 may include a fourth determination sub-module 6023 and a second acquirement sub-module 6024. The fourth determination sub-module 6023 may be configured to determine the road at which the vehicle is currently located based on the location information. The second acquirement sub-module 6024 may be configured to acquire the real time road condition information of the road.

    [0088] According to the embodiments of the disclosure, the server may receive the traffic information acquiring instruction from the vehicle terminal, acquire the traffic information of the road at which the vehicle corresponding to the vehicle terminal is currently located based on the location information in the traffic information acquiring instruction, and transmit the acquired traffic information to the vehicle terminal. As a result, the vehicle terminal may determine whether to launch the start-stop function based on the traffic information, and thus it can avoid launching the start-stop function frequently within a short period since the start-stop function will be launch once the brake pedal is detected to be trodden without the traffic information. Therefore, it is convenient for the user in using the start-stop function and the user would be more willing to use the start-stop function, and thus usage of the start-stop function is improved.

    [0089] For the apparatuses in the above embodiments, specific operations performed by each module have been detailed in related method embodiments, and thus detailed description will be omitted here.

    [0090] Fig. 7 is a block diagram illustrating an apparatus 700 for launching start-stop function according to an exemplary embodiment. For example, the apparatus 700 may be a mobile phone, a computer, a digital broadcast terminal, a messaging device, a gaming console, a tablet, a medical device, exercise equipment, a personal digital assistant, and the like.

    [0091] Referring to Fig. 7, the apparatus 700 may include one or more of the following components: a processing component 702, a memory 704, a power component 706, a multimedia component 708, an audio component 710, an input/output (I/O) interface 712, a sensor component 714, and a communication component 716.

    [0092] The processing component 702 typically controls overall operations of the apparatus 700, such as the operations associated with display, telephone calls, data communications, camera operations, and recording operations. The processing component 702 may include one or more processors 720 to execute instructions to perform all or part of the steps in the above described methods. Moreover, the processing component 702 may include one or more modules which facilitate the interaction between the processing component 702 and other components. For instance, the processing component 702 may include a multimedia module to facilitate the interaction between the multimedia component 708 and the processing component 702.

    [0093] The memory 704 is configured to store various types of data to support the operation of the apparatus 700. Examples of such data include instructions for any applications or methods operated on the apparatus 700, contact data, phonebook data, messages, pictures, video, etc. The memory 704 may be implemented using any type of volatile or non-volatile memory devices, or a combination thereof, such as a static random access memory (SRAM), an electrically erasable programmable read-only memory (EEPROM), an erasable programmable read-only memory (EPROM), a programmable read-only memory (PROM), a read-only memory (ROM), a magnetic memory, a flash memory, a magnetic or optical disk.

    [0094] The power component 706 provides power to various components of the apparatus 700. The power component 706 may include a power management system, one or more power sources, and any other components associated with the generation, management, and distribution of power for the apparatus 700.

    [0095] The multimedia component 708 includes a screen providing an output interface between the apparatus 700 and the user. In some embodiments, the screen may include a liquid crystal display (LCD) and a touch panel (TP). If the screen includes the touch panel, the screen may be implemented as a touch screen to receive input signals from the user. The touch panel includes one or more touch sensors to sense touches, swipes, and gestures on the touch panel. The touch sensors may not only sense a boundary of a touch or swipe action, but also sense a period of time and a pressure associated with the touch or swipe action. In some embodiments, the multimedia component 708 includes a front camera and/or a rear camera. The front camera and the rear camera may receive an external multimedia datum while the apparatus 700 is in an operation mode, such as a photographing mode or a video mode. Each of the front camera and the rear camera may be a fixed optical lens system or have optical focusing and zooming capability.

    [0096] The audio component 710 is configured to output and/or input audio signals. For example, the audio component 710 includes a microphone ("MIC") configured to receive an external audio signal when the apparatus 700 is in an operation mode, such as a call mode, a recording mode, and a voice recognition mode. The received audio signal may be further stored in the memory 704 or transmitted via the communication component 716. In some embodiments, the audio component 710 further includes a speaker to output audio signals.

    [0097] The I/O interface 712 provides an interface between the processing component 702 and peripheral interface modules, the peripheral interface modules being, for example, a keyboard, a click wheel, buttons, and the like. The buttons may include, but are not limited to, a home button, a volume button, a starting button, and a locking button.

    [0098] The sensor component 714 includes one or more sensors to provide status assessments of various aspects of the apparatus 700. For instance, the sensor component 714 may detect an open/closed status of the apparatus 700, relative positioning of components (e.g., the display and the keypad, of the apparatus 700), a change in position of the apparatus 700 or a component of the apparatus 700, a presence or absence of user contact with the apparatus 700, an orientation or an acceleration/deceleration of the apparatus 700, and a change in temperature of the apparatus 700. The sensor component 714 may include a proximity sensor configured to detect the presence of a nearby object without any physical contact. The sensor component 714 may also include a light sensor, such as a CMOS or CCD image sensor, for use in imaging applications. In some embodiments, the sensor component 714 may also include an accelerometer sensor, a gyroscope sensor, a magnetic sensor, a pressure sensor, or a temperature sensor.

    [0099] The communication component 716 is configured to facilitate communication, wired or wirelessly, between the apparatus 700 and other devices. The apparatus 700 can access a wireless network based on a communication standard, such as WiFi, 2G, or 3G, or a combination thereof. In an exemplary embodiment, the communication component 716 receives a broadcast signal or broadcast associated information from an external broadcast management system via a broadcast channel. In an exemplary embodiment, the communication component 716 further includes a near field communication (NFC) module to facilitate short-range communications. For example, the NFC module may be implemented based on a radio frequency identification (RFID) technology, an infrared data association (IrDA) technology, an ultra-wideband (UWB) technology, a Bluetooth (BT) technology, and other technologies.

    [0100] In exemplary embodiments, the apparatus 700 may be implemented with one or more application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs), controllers, micro-controllers, microprocessors, or other electronic components, for performing the above described methods.

    [0101] In exemplary embodiments, there is also provided a non-transitory computer-readable storage medium including instructions, such as included in the memory 704, executable by the processor 720 in the apparatus 700, for performing the above-described methods. For example, the non-transitory computer-readable storage medium may be a ROM, a Random Access Memory (RAM), a CD-ROM, a magnetic tape, a floppy disc, an optical data storage device, and the like.

    [0102] A non-transitory computer readable storage medium having stored therein instructions that, when executed by a processor of a mobile terminal, cause the mobile terminal to perform a method for launching start-stop function including: transmitting to a server a traffic information acquiring instruction which carries current location information of a vehicle corresponding to the vehicle terminal and is used by the server to acquire traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road; receiving the traffic information transmitted by the server; and launching the start-stop function for the vehicle when the traffic information meets preset condition.

    [0103] Optionally, the method may further include: detecting current state of the vehicle; and acquiring the current location information of the vehicle when it is detected that the current state of the vehicle is in stop state.

    [0104] Optionally, the traffic information is current traffic light information for location of a traffic light at which the vehicle is located. Launching the start-stop function for the vehicle when the traffic information meets preset condition may include: determining waiting time at red light for the vehicle continuing to wait at a red light at the location of the traffic light based on the current traffic light information; and launching the start-stop function for the vehicle when the waiting time at red light is longer than a preset threshold.

    [0105] The traffic information is real time road condition information of the road. The launching the start-stop function for the vehicle when the traffic information meets preset condition may include: determining congestion time for the road or traffic congestion index for the road based on the real time road condition information of the road; and launching the start-stop function for the vehicle when the congestion time is longer than a preset threshold or the traffic congestion index is a preset index.

    [0106] Fig. 8 is a block diagram illustrating an apparatus 800 for launching start-stop function according to an exemplary embodiment. For example, the apparatus 800 may be provided as a server. Refering Fig. 8, the apparatus 800 includes a processing component 822 which further includes one or more processors, and memory resource represented by a memory 832 for storing instructions that is executable by the processing component 822, such as an application. The application stored in the memory 832 may include one or more modules each corresponding to a set of instructions. In addition, the processing component 822 is configured to execute instructions to perform a method for launching start-stop function including: receiving a traffic information acquiring instruction transmitted by a vehicle terminal, he traffic information acquiring instruction carrying current location information of a vehicle corresponding to the vehicle terminal; acquiring traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road; and transmitting the traffic information to the vehicle terminal, the traffic information being used by the vehicle terminal to launch the start-stop function for the vehicle.

    [0107] Optionally, the traffic information is current traffic light information for location of a traffic light at which the vehicle is located. Acquiring traffic information of the road at which the vehicle is currently located based on the location information may include: determining the location of the traffic light at which the vehicle is located based on the location information; and acquiring the current traffic light information for the location of the traffic light.

    [0108] The traffic information is real time road condition information of the road. Acquiring traffic information of the road at which the vehicle is currently located based on the location information may include: determining the road at which the vehicle is currently located based on the location information; and acquiring the real time road condition information of the road.

    [0109] The apparatus 800 may also include a power component 826 configured to perform power management of the apparatus 800, a wired or wireless network interface 850 configured to connect the apparatus 800 to a network, and an input/output (I/O) interface 858. The apparatus 800 may operate based on an operating system stored in the memory 832, such as Windows ServerTM, Mac OS XTM, UnixTM, LinuxTM, FreeBSDTM or the like.

    [0110] Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the disclosures herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following the general principles thereof and including such departures from the present disclosure as come within known or customary practice in the art. It is intended that the specification and examples be considered as exemplary only, with a true scope of the invention being indicated by the following claims.

    [0111] It will be appreciated that the inventive concept is not limited to the exact construction that has been described above and illustrated in the accompanying drawings, and that various modifications and changes can be made without departing from the scope thereof. It is intended that the scope of the invention only be limited by the appended claims.


    Claims

    1. A method for launching start-stop function applied in a vehicle terminal, characterized in comprising:

    transmitting (201) to a server a traffic information acquiring instruction which carries current location information of a vehicle corresponding to the vehicle terminal and is used by the server to acquire traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road;

    receiving (202) the traffic information transmitted by the server; and

    launching (203) the start-stop function for the vehicle when the traffic information meets a preset condition,

    wherein the traffic information is a real time road condition information of the road; and the launching (203) the start-stop function for the vehicle when the traffic information meets a preset condition comprises:

    determining congestion time for the road based on the real time road condition information of the road, wherein the congestion time is a difference between an estimated passing time when the road is congested and a historical passing time when the road is clear; and

    launching the start-stop function for the vehicle when the congestion time is longer than a preset threshold.


     
    2. The method of claim 1, before the transmitting to a server a traffic information acquiring instruction, further comprising:

    detecting (401) a current state of the vehicle; and

    acquiring (401) the current location information of the vehicle when it is detected that the current state of the vehicle is in stop state.


     
    3. A method for launching start-stop function applied in a server, characterized in comprising:

    receiving (301) a traffic information acquiring instruction transmitted by a vehicle terminal, the traffic information acquiring instruction carrying current location information of a vehicle corresponding to the vehicle terminal;

    acquiring (302) traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road; and

    transmitting (303) the traffic information to the vehicle terminal, the traffic information being used by the vehicle terminal to launch the start-stop function for the vehicle,

    wherein the traffic information is real time road condition information of the road, and the acquiring (302) traffic information of a road at which the vehicle is currently located based on the location information comprises:

    determining the road at which the vehicle is currently located based on the location information; and

    acquiring the real time road condition information of the road so as to enable the vehicle terminal to determine congestion time for the road based on the real time road condition information of the road and launch the start-stop function for the vehicle when the congestion time is longer than a preset threshold, wherein the congestion time is a difference between an estimated passing time when the road is congested and a historical passing time when the road is clear.


     
    4. An apparatus (500) for launching start-stop function applied in a vehicle terminal, characterized in comprising:

    a first transmission module (501) configured to transmit to a server a traffic information acquiring instruction which carries current location information of a vehicle corresponding to the vehicle terminal and is used by the server to acquire traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road;

    a first reception module (502) configured to receive the traffic information transmitted by the server; and a launch module (503) configured to launch the start-stop function for the vehicle when the traffic information meets a preset condition,

    wherein the traffic information is a real time road condition information of the road and the launch module (503) comprises:

    a second determination sub-module (5033) configured to determine congestion time for the road based on the real time road condition information of the road, wherein the congestion time is a difference between an estimated passing time when the road is congested and a historical passing time when the road is clear; and

    a second launch sub-module (5034) configured to launch the start-stop function for the vehicle when the congestion time is longer than a preset threshold.


     
    5. The apparatus of claim 4, further comprising:

    a detection module (504) configured to detect current state of the vehicle; and

    a first acquirement module (505) configured to acquire the current location information of the vehicle when it is detected that the current state of the vehicle is in stop state.


     
    6. An apparatus (600) for launching start-stop function applied in a server, characterized in comprising:

    a second reception module (601) configured to receive a traffic information acquiring instruction transmitted by a vehicle terminal, the traffic information acquiring instruction carrying current location information of a vehicle corresponding to the vehicle terminal;

    a second acquirement module (602) configured to acquire traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road; and

    a second transmission module (603) configured to transmit the traffic information to the vehicle terminal, the traffic information being used by the vehicle terminal to launch the start-stop function for the vehicle,

    wherein the traffic information is real time road condition information of the road, and the second acquirement module (602) comprises:

    a fourth determination sub-module (6023) configured to determine the road at which the vehicle is currently located based on the location information; and

    a second acquirement sub-module (6024) configured to acquire the real time road condition information of the road so as to enable the vehicle terminal to determine congestion time for the road based on the real time road condition information of the road and launch the start-stop function for the vehicle when the congestion time is longer than a preset threshold, wherein the congestion time is a difference between an estimated passing time when the road is congested and a historical passing time when the road is clear.


     
    7. An apparatus (700) for launching start-stop function, characterized in comprising:

    a processor (720);

    a memory (704) to store processor-executable instructions;

    wherein the processor (720) is configured to:

    transmit to a server a traffic information acquiring instruction which carries current location information of a vehicle corresponding to a vehicle terminal and is used by the server to acquire traffic information of a road at which the vehicle is currently located based on the location information, the traffic information indicating current traffic condition of the road;

    receive the traffic information transmitted by the server; and

    launch the start-stop function for the vehicle when the traffic information meets a preset condition,

    wherein the traffic information is real time road condition information of the road, and the processor (720) is configured to:

    determine congestion time for the road based on the real time road condition information of the road, wherein the congestion time is a difference between an estimated passing time when the road is congested and a historical passing time when the road is clear; and

    launch the start-stop function for the vehicle when the congestion time is longer than a preset threshold.


     


    Ansprüche

    1. Verfahren zum Starten einer in einem Fahrzeugterminal verwendeten Start-Stopp-Funktion, gekennzeichnet durch folgende Schritte:

    Senden (201) an einen Server eines Verkehrsinformationsbeschaffungsbefehls, der aktuelle Standortinformationen eines Fahrzeugs entsprechend dem Fahrzeugterminal trägt und der von dem Server verwendet wird, um auf Grundlage der Standortinformationen Verkehrsinformationen zu einer Straße zu beschaffen, auf der sich das Fahrzeug aktuell befindet, wobei die Verkehrsinformationen aktuelle Verkehrsbedingungen der Straße angeben;

    Empfangen (202) der von dem Server gesendeten Verkehrsinformationen; und

    Starten (203) der Start-Stopp-Funktion für das Fahrzeug, wenn die Verkehrsinformationen eine vorbestimmte Bedingung erfüllen,

    wobei die Verkehrsinformationen Echtzeit-Straßenbedingungsinformationen der Straße sind; und wobei das Starten (203) der Start-Stopp-Funktion für das Fahrzeug Folgendes umfasst, wenn die Verkehrsinformationen eine vorbestimmte Bedingung erfüllen:

    Bestimmen der Stauzeit für die Straße auf Grundlage von Echtzeit-Straßenbedingungsinformationen, wobei die Stauzeit eine Differenz zwischen einer geschätzten Fahrzeit bei überfüllter Straße und einer historischen Fahrzeit bei freier Straße ist; und

    Starten der Start-Stopp-Funktion für das Fahrzeug, wenn die Stauzeit länger ist als ein vorbestimmter Schwellenwert.


     
    2. Verfahren nach Anspruch 1, das vor dem Senden eines Verkehrsinformationsbeschaffungsbefehls an einen Server ferner umfasst:

    Detektieren (401) eines aktuellen Zustands des Fahrzeugs; und

    Beschaffen (401) der aktuellen Standortinformationen des Fahrzeugs, wenn detektiert wird, dass der aktuelle Zustand des Fahrzeugs der Stopp-Zustand ist.


     
    3. Verfahren zum Starten einer in einem Server verwendeten Start-Stopp-Funktion, gekennzeichnet durch folgende Schritte:

    Empfangen (301) eines von einem Fahrzeugterminal gesendeten Verkehrsinformationsbeschaffungsbefehls, wobei der Verkehrsinformationsbeschaffungsbefehl aktuelle Standortinformationen eines Fahrzeugs entsprechend dem Fahrzeugterminal trägt;

    Beschaffen (302) von Verkehrsinformationen zu einer Straße, auf der sich das Fahrzeug aktuell befindet, auf Grundlage der Standortinformationen, wobei die Verkehrsinformationen aktuelle Verkehrsbedingungen der Straße angeben; und

    Senden (303) der Verkehrsinformationen an das Fahrzeugterminal, wobei die Verkehrsinformationen von dem Fahrzeugterminal verwendet werden, um die Start-Stopp-Funktion für das Fahrzeug zu starten,

    wobei die Verkehrsinformationen Echtzeit-Straßenbedingungsinformationen der Straße sind, und wobei das Beschaffen (302) der Verkehrsinformationen zu einer Straße, auf der sich das Fahrzeug aktuell befindet, auf Grundlage der Standortinformationen umfasst:

    Bestimmen der Straße, auf der sich Fahrzeug aktuell befindet, auf Grundlage der Standortinformationen; und

    Beschaffen der Echtzeit-Straßenbedingungsinformationen der Straße, um dem Fahrzeugterminal zu ermöglichen, die Stauzeit für die Straße auf Grundlage der Echtzeit-Straßenbedingungsinformationen zu bestimmen und die Start-Stopp-Funktion für das Fahrzeug zu starten, wenn die Stauzeit länger ist als ein vorbestimmter Schwellenwert, wobei die Stauzeit eine Differenz zwischen einer geschätzten Fahrzeit bei überfüllter Straße und einer historischen Fahrzeit bei freier Straße ist.


     
    4. Vorrichtung (500) zum Starten der in einem Fahrzeugterminal verwendeten Start-Stopp-Funktion, gekennzeichnet durch:

    ein erstes Sendemodul (501), das zum Senden an einen Server eines Verkehrsinformationsbeschaffungsbefehls ausgebildet ist, der aktuelle Standortinformationen eines Fahrzeug entsprechend dem Fahrzeugterminal trägt und der von dem Server verwendet wird, um auf Grundlage von Standortinformationen Verkehrsinformationen zu einer Straße zu beschaffen, auf der sich das Fahrzeug aktuell befindet, wobei die Verkehrsinformationen die aktuellen Verkehrsbedingungen der Straße angeben;

    eine erstes Empfangsmodul (502), das zum Empfangen der von dem Server gesendeten Verkehrsinformationen ausgebildet ist; und ein Startmodul (503), das zum Starten der Start-Stopp-Funktion für das Fahrzeug ausgebildet ist, wenn die Verkehrsinformationen eine vorbestimmte Bedingung erfüllen,

    wobei die Verkehrsinformationen Echtzeit-Straßenbedingungsinformationen der Straße sind und das Startmodul (503) aufweist:

    ein zweites Bestimmungs-Untermodul (5033), das zum Bestimmen der Stauzeit für die Straße auf Grundlage der Echtzeit-Straßenbedingungsinformationen ausgebildet ist, wobei die Stauzeit eine Differenz zwischen einer geschätzten Fahrzeit bei überfüllter Straße und einer historischen Fahrzeit bei freier Straße ist; und

    einem zweiten Start-Untermodul (5034), das zum Starten der Start-Stopp-Funktion des Fahrzeugs ausgebildet ist, wenn die Stauzeit länger ist als ein vorbestimmter Schwellenwert.


     
    5. Vorrichtung nach Anspruch 4, ferner mit:

    einem Detektionsmodul (504), das zum Detektieren des aktuellen Zustands des Fahrzeugs ausgebildet ist, und

    einem ersten Beschaffungsmodul (505), das zum Beschaffen der aktuellen Standortinformationen des Fahrzeugs ausgebildet ist, wenn detektiert wird, dass der aktuelle Zustand des Fahrzeugs der Stopp-Zustand ist.


     
    6. Vorrichtung (600) zum Starten einer in einem Server verwendeten Start-Stopp-Funktion, gekennzeichnet durch:

    ein zweites Empfangsmodul (601), das zum Empfangen eines von einem Fahrzeugterminal gesendeten Verkehrsinformationsbeschaffungsbefehls ausgebildet ist, wobei der Verkehrsinformationsbeschaffungsbefehl aktuelle Standortinformationen eines Fahrzeugs entsprechend dem Fahrzeugterminal trägt;

    ein zweites Beschaffungsmodul (602), das zum Beschaffen von Verkehrsinformationen zu einer Straße, auf der sich das Fahrzeug aktuell befindet, auf Grundlage der Standortinformationen ausgebildet ist, wobei die Verkehrsinformationen die aktuellen Verkehrsbedingungen der Straße angeben; und

    ein zweites Sendemodul (603), das zum Senden der Verkehrsinformationen an das Fahrzeugterminal ausgebildet ist, wobei die Verkehrsinformationen von dem Fahrzeugterminal verwendet werden, um die Start-Stopp-Funktion für das Fahrzeug zu starten,

    wobei die Verkehrsinformationen Echtzeit-Straßenbedingungsinformationen der Straße sind und das zweite Beschaffungsmodul (602) aufweist:

    ein viertes Bestimmungs-Untermodul (6023), das zum Bestimmen der Straße ausgebildet ist, auf der sich das Fahrzeug aktuell befindet, auf Grundlage der Standortinformationen; und

    ein zweites Beschaffungs-Untermodul (6024), das zum Beschaffen der Echtzeit-Straßenbedingungsinformationen der Straße ausgebildet ist, um dem Fahrzeugterminal zu ermöglichen, die Stauzeit für die Straße auf Grundlage der Echtzeit-Straßenbedingungsinformationen zu bestimmen und die Start-Stopp-Funktion für das Fahrzeug zu starten, wenn die Stauzeit länger ist als ein vorbestimmter Schwellenwert, wobei die Stauzeit eine Differenz zwischen einer geschätzten Fahrzeit bei überfüllter Straße und einer historischen Fahrzeit bei freier Straße ist.


     
    7. Vorrichtung (700) zum Starten einer Start-Stopp-Funktion, gekennzeichnet durch:

    einen Prozessor (720);

    einen Speicher (704) zum Speichern von durch einen Prozessor ausführbaren Befehlen;

    wobei der Prozessor (720) für Folgendes ausgebildet ist:

    Senden an einen Server eines Verkehrsinformationsbeschaffungsbefehls, der aktuelle Standortinformationen eines Fahrzeugs entsprechend einem Fahrzeugterminal trägt und der von dem Server verwendet wird, um auf Grundlage von Standortinformationen Verkehrsinformationen zu einer Straße zu beschaffen, auf der sich das Fahrzeug aktuell befindet, wobei die Verkehrsinformationen aktuelle Verkehrsbedingungen der Straße angeben;

    Empfangen der von dem Server gesendeten Verkehrsinformationen; und

    Starten der Start-Stopp-Funktion für das Fahrzeug, wenn die Verkehrsinformationen eine vorbestimmte Bedingung erfüllen,

    wobei die Verkehrsinformationen Echtzeit-Straßenbedingungsinformationen der Straße sind und der Prozessor (720) für Folgendes ausgebildet ist:

    Bestimmen der Stauzeit für die Straße auf Grundlage der Echtzeit-Straßenbedingungsinformationen der Straße, wobei die Stauzeit eine Differenz zwischen einer geschätzten Fahrzeit bei überfüllter Straße und einer historischen Fahrzeit bei freier Straße ist; und

    Starten der Start-Stopp-Funktion für das Fahrzeug, wenn die Stauzeit länger ist als ein vorbestimmter Schwellenwert.


     


    Revendications

    1. Procédé pour lancer une fonction marche-arrêt appliquée dans un terminal de véhicule, caractérisé en ce qu'il comprend le fait de:

    transmettre (201) à un serveur une instruction d'acquisition d'informations de circulation routière qui porte les informations de localisation actuelles d'un véhicule correspondant au terminal de véhicule et qui est utilisée par le serveur pour acquérir les informations de circulation routière d'une route sur laquelle se trouve actuellement le véhicule, sur base des informations de localisation, les informations de circulation routière indiquant l'état de circulation routière actuel de la route;

    recevoir (202) les informations de circulation routière transmises par le serveur; et

    lancer (203) la fonction marche-arrêt pour le véhicule lorsque les informations de circulation routière remplissent une condition prédéfinie,

    dans lequel les information de circulation routière sont des informations sur l'état de la route en temps réel; et le lancement (203) de la fonction marche-arrêt pour le véhicule lorsque les informations de circulation routière remplissent une condition prédéfinie comprend le fait de:

    déterminer le temps des embouteillages sur la route sur base des informations d'état de la route en temps réel, où le temps des embouteillages est une différence entre un temps de passage estimé lorsque la route présente des embouteillages et un temps de passage historique lorsque la route est dégagée; et

    lancer la fonction marche-arrêt pour le véhicule lorsque le temps des embouteillages est supérieur à un seuil préréglé.


     
    2. Procédé selon la revendication 1 comprenant par ailleurs, avant la transmission à un serveur d'une instruction d'acquisition des informations de circulation routière, le fait de:

    détecter (401) un état actuel du véhicule; et

    acquérir (401) les informations de localisation actuelles du véhicule lorsqu'il est détecté que l'état actuel du véhicule est l'état d'arrêt.


     
    3. Procédé de lancement d'une fonction marche-arrêt appliqué dans un serveur, caractérisé en ce qu'il comprend le fait de:

    recevoir (301) une instruction d'acquisition d'informations de circulation routière transmise par un terminal de véhicule, l'instruction d'acquisition d'informations de circulation routière portant les informations de localisation actuelles d'un véhicule correspondant au terminal de véhicule;

    acquérir (302) les informations de circulation routière d'une route sur laquelle se trouve actuellement le véhicule sur base des informations de localisation, les informations de circulation routière indiquant l'état de circulation routière actuel de la route; et

    transmettre (303) les informations de circulation routière au terminal de véhicule, les informations de circulation routière étant utilisées par le terminal de véhicule pour lancer la fonction marche-arrêt du véhicule,

    dans lequel les informations de circulation routière sont des informations sur l'état de la route en temps réel, et l'acquisition (302) des informations de circulation routière d'une route sur laquelle se trouve actuellement le véhicule sur base des informations de localisation comprend le fait de:

    déterminer la route sur laquelle se trouve actuellement le véhicule sur base des informations de localisation; et

    acquérir les informations d'état de la route en temps réel de la route pour permettre au terminal de véhicule de déterminer le temps des embouteillages sur la route sur base des informations sur l'état de la route en temps réel et de lancer la fonction marche-arrêt du véhicule lorsque le temps des embouteillages est plus long qu'un seuil préréglé, où le temps des embouteillages est la différence entre un temps de passage estimé lorsque la route présente des embouteillages et un temps de passage historique lorsque la route est dégagée.


     
    4. Appareil (500) pour lancer une fonction marche-arrêt appliquée dans un terminal de véhicule, caractérisé par le fait qu'il comprend:

    un premier module de transmission (501) configuré pour transmettre à un serveur une instruction d'acquisition d'informations de circulation routière qui transporte les informations de localisation actuelles d'un véhicule correspondant au terminal de véhicule et est utilisée par le serveur pour acquérir les informations de circulation routière d'une route sur laquelle se trouve actuellement le véhicule, sur base des informations de localisation, les informations de circulation routière indiquant l'état de circulation routière actuel de la route;

    un premier module de réception (502) configuré pour recevoir les informations de circulation routière transmises par le serveur; et un module de lancement (503) configuré pour lancer la fonction marche-arrêt pour le véhicule lorsque les informations de circulation routière remplissent une condition préréglée,

    dans lequel les informations de circulation routière sont des informations sur l'état de la route en temps réel et le module de lancement (503) comprend:

    un deuxième sous-module de détermination (5033) configuré pour déterminer le temps des embouteillages sur la route sur base des informations d'état de la route en temps réel, le temps des embouteillages étant une différence entre un temps de passage estimé lorsque la route présente des embouteillages et un temps de passage historique lorsque la route est dégagée; et

    un deuxième sous-module de lancement (5034) configuré pour lancer la fonction marche-arrêt pour le véhicule lorsque le temps des embouteillages est supérieur à un seuil préréglé.


     
    5. Appareil selon la revendication 4, comprenant par ailleurs:

    un module de détection (504) configuré pour détecter l'état actuel du véhicule; et

    un premier module d'acquisition (505) configuré pour acquérir les informations de localisation actuelles du véhicule lorsqu'il est détecté que l'état actuel du véhicule est l'état d'arrêt.


     
    6. Appareil (600) pour lancer une fonction marche-arrêt appliquée dans un serveur, caractérisé par le fait qu'il comprend:

    un deuxième module de réception (601) configuré pour recevoir une instruction d'acquisition d'informations de circulation routière transmise par un terminal de véhicule, l'instruction d'acquisition d'informations de circulation routière portant les informations de localisation actuelles d'un véhicule correspondant au terminal de véhicule;

    un deuxième module d'acquisition (602) configuré pour acquérir les informations de circulation routière d'une route sur laquelle se trouve actuellement le véhicule, sur base des informations de localisation, les informations de circulation routière indiquant l'état de circulation routière actuel de la route; et

    un deuxième module de transmission (603) configuré pour transmettre les informations de circulation routière au terminal de véhicule, les informations de circulation routière étant utilisées par le terminal de véhicule pour lancer la fonction marche-arrêt pour le véhicule,

    dans lequel les informations de circulation routière sont des informations sur l'état de la route en temps réel, et le deuxième module d'acquisition (602) comprend:

    un quatrième sous-module de détermination (6023) configuré pour déterminer la route sur laquelle se trouve actuellement le véhicule, sur base des informations de localisation; et

    un deuxième sous-module d'acquisition (6024) configuré pour acquérir les informations d'état de la route en temps réel pour permettre au terminal de véhicule de déterminer le temps des embouteillages sur la route sur base des informations d'état de la route en temps réel et de lancer la fonction marche-arrêt du véhicule lorsque le temps des embouteillages est supérieur à un seuil préréglé, où le temps des embouteillages est la différence entre un temps de passage estimé lorsque la route présente des embouteillages et un temps de passage historique lorsque la route est dégagée.


     
    7. Appareil (700) pour lancer une fonction marche-arrêt, caractérisé par le fait qu'il comprend:

    un processeur (720);

    une mémoire (704) destinée à mémoriser des instructions exécutables par le processeur;

    dans lequel le processeur (720) est configuré pour:

    transmettre à un serveur une instruction d'acquisition d'informations de circulation routière qui porte les informations de localisation actuelles d'un véhicule correspondant à un terminal de véhicule et qui sont utilisées par le serveur pour acquérir les informations de circulation routière d'une route sur laquelle se trouve actuellement le véhicule, sur base des informations de localisation, les informations de circulation routière indiquant l'état de circulation actuel de la route;

    recevoir les informations de circulation routière transmises par le serveur; et

    lancer la fonction marche-arrêt pour le véhicule lorsque les informations de circulation routière remplissent une condition préréglée,

    dans lequel les informations de circulation routière sont des informations sur l'état de la route en temps réel, et le processeur (720) est configuré pour:

    déterminer le temps des embouteillages sur la route sur base des informations sur l'état de la route en temps réel, où le temps des embouteillages est la différence entre un temps de passage estimé lorsque la route présente des embouteillages et un temps de passage historique lorsque la route est dégagée; et

    lancer la fonction marche-arrêt pour le véhicule lorsque le temps des embouteillages est supérieur à un seuil préréglé.


     




    Drawing























    Cited references

    REFERENCES CITED IN THE DESCRIPTION



    This list of references cited by the applicant is for the reader's convenience only. It does not form part of the European patent document. Even though great care has been taken in compiling the references, errors or omissions cannot be excluded and the EPO disclaims all liability in this regard.

    Patent documents cited in the description