The present invention is related to a traffic signal state detection apparatus that outputs a remaining time of a red traffic signal to a driver of a host vehicle.
A drive support apparatus includes a part that obtains a traffic signal information related to a light state of traffic signal in time series, and a first output part that outputs to a driver a remaining time before a light state of the traffic signal is changed to a driver (see WO2009/157108 pamphlet which is referred to as “Patent Document 1” hereinafter).
There are infrastructures that provide information to vehicles such as an infrastructure that utilizes optical communication and an infrastructure that utilizes electric wave communication. If the traffic signal information can be obtained from such infrastructures, even when one infrastructure cannot be used at a certain intersection, the remaining time of the red traffic signal can be output to the driver of the host vehicle using another infrastructure. However, when the traffic signal information can be obtained from two or more infrastructures at a certain intersection, output demands between output process parts that are operated based on the respective items of the traffic signal information are in competition against one another. Such competition demands may cause the driver to feel strange if the respective demands are responded normally.
Therefore, an object of the present invention is to provide a traffic signal state detection apparatus that can perform arbitration between output process parts that are operated based on respective items of traffic signal information from different infrastructures.
According to one aspect of the present invention, a traffic signal state detection apparatus is provided, which comprises:
a first traffic signal information obtaining part configured to obtain first traffic signal information generated by a first infrastructure, the first traffic signal information representing a change in a light state of a traffic signal in time series, the traffic signal being located ahead of a host vehicle;
a first output process part configured to calculate, based on the first traffic signal information obtained by the first traffic signal information obtaining part, a first remaining time before a timing when the light state of the traffic signal is to be changed from a current predetermined first state to a second predetermined state that is different from the first state, and generate a first output demand for outputting the calculated first remaining time;
a second traffic signal information obtaining part configured to obtain second traffic signal information generated by a second infrastructure that is different from the first infrastructure, the second traffic signal information representing the change in the light state of the traffic signal in time series;
a second output process part configured to calculate, based on the second traffic signal information obtained by the second traffic signal information obtaining part, a second remaining time before the timing when the light state of the traffic signal is to be changed from the current predetermined first state to the second predetermined state, and generate a second output demand for outputting the calculated second remaining time; and
an output part configured to output one of the first and second remaining times in a situation where the first and second output demands are generated simultaneously, the output remaining time being related to one of the first and second output demands that is being continuously generated before the other is generated
In the following, embodiments will be described with reference to the accompanying drawings.
The traffic signal state detection apparatus 100 is installed on a vehicle. The traffic signal state detection apparatus 100 includes a wireless control apparatus 1, a navigation apparatus 2, and a meter display apparatus (an example of an output part) 3. In the following, a vehicle on which the traffic signal state detection apparatus 100 is installed is referred to as “a host vehicle”.
The wireless control apparatus 1 includes a first information process apparatus (an example of a first output process part) 10, a wireless communication apparatus (an example of a first traffic signal information obtaining part) 12, and a GPS (Global Positioning System) receiver 14.
The processing device 10 is formed of a computer.
The first information process apparatus 10 performs a first output process at a first predetermined cycle ΔT1 during a period in which a first output condition is met. The first information process apparatus 10 sets the first flag to “1” during the period in which a first output condition is met. The first output condition is met when a first output start condition is met, and the first output condition is in a met state until a first output end condition is met. The first output condition calculates, based on the latest first traffic signal information at that timing, a first remaining time (referred to as “a red signal remaining time T1”, hereinafter) until the light state of the traffic signal is to be changed from a red signal (an example of a predetermined first state) to a blue signal (an example of a second predetermined state) to generate a first output demand for demanding the output of the red signal remaining time T1. The first output demand includes a value of the red signal remaining time T1.
The first output start condition is met when all the conditions (1) through (3) are met, for example:
The first output start condition is met when any one of conditions (11) through (13) is met, for example:
The wireless communication apparatus 12 performs radio communication with a road side apparatus (an example of a first infrastructure) including a radio communication apparatus. A point where the radio communication is performed is before the intersection at which the information is to be output, for example. The wireless communication apparatus 12 obtains the first traffic signal information from the road side apparatus that generates the first traffic signal information. The first traffic signal information represents, in time series, a change in the light state of the traffic signal ahead of the host vehicle. Preferably, the first traffic signal information includes the information that can identify a cycle of the red signal. The first traffic signal information may further include information related to the intersection of the traffic signal ahead of the host vehicle. The information related to the intersection of the traffic signal may be coordinates of a center point of the intersection, traffic regulation information related to the intersection, road shape information of the intersection, etc.
The GPS receiver 14 calculates, based on signals from satellites, the position of the host vehicle (latitude, longitude, and azimuth, for example).
The navigation apparatus 2 includes a second information process apparatus 20 (an example of a second output process part) and an optical communication apparatus 22 (an example of a second traffic signal information obtaining part).
The second information process apparatus 20 is formed of a computer, as is the case with the first information process apparatus 10.
The second information process apparatus performs a second output process at a second predetermined cycle ΔT2 during a period in which a second output condition is met. The second predetermined cycle ΔT2 is the same as the first predetermined cycle ΔT1 or different from the first predetermined cycle ΔT1. The second information process apparatus 20 sets the second flag to “1” during the period in which a second output condition is met. The second output condition is met when a second output start condition is met, and the second output condition is in a met state until a second output end condition is met. The second output condition calculates, based on the latest second traffic signal information at that timing, a second remaining time (referred to as “a red signal remaining time T2”, hereinafter) until the light state of the traffic signal is to be changed from a red signal (an example of a predetermined first state) to a blue signal (an example of a second predetermined state) to generate a second output demand for demanding the output of the red signal remaining time T2. The second output demand includes a value of the red signal remaining time T2.
The second output start condition is met when all the conditions (21) through (23) are met, for example:
The second output start condition is met when any one of conditions (31) through (33) is met, for example:
The optical communication apparatus 22 performs optical communication with a road side apparatus (an example of a second infrastructure) including an optical beacon apparatus. A point where the radio communication is performed is before the intersection at which the information is to be output, for example. The optical communication apparatus 22 obtains the second traffic signal information from the road side apparatus that generates the second traffic signal information. The second traffic signal information represents, in time series, a change in the light state of the traffic signal ahead of the host vehicle. Preferably, the second traffic signal information includes the information that can identify a cycle of the red signal. The second traffic signal information may further include information related to the intersection of the traffic signal ahead of the host vehicle. The information related to the intersection of the traffic signal may be coordinates of a center point of the intersection, traffic regulation information related to the intersection, road shape information of the intersection, etc.
The meter display apparatus 3 includes a third information process apparatus 30, and a display part 32.
The third information process apparatus 30 is formed of a computer, as is the case with the first information process apparatus 10. The third information process apparatus 30 displays the red signal remaining time T1 or T2 on the display part according to the first output demand from the first information process apparatus 10 or the second output demand from the second information process apparatus 20. The third information process apparatus 30 displays, in a situation where the first output demand and the second output demand are generated simultaneously, for example, the red signal remaining time of one of the first output demand and the second output demand that is continuously generated earlier than the other.
It is noted that, in a situation where only one of the first output demand and the second output demand is generated, the third information process apparatus 30 basically displays the red signal remaining time of generated one of the first output demand and the second output demand. However, there may be an exception which is described hereinafter.
The display part 32 is provided in a meter. The display part 32 displays the red signal remaining time T1 or the red signal remaining time T2. A way of displaying the red signal remaining time T1 or red signal remaining time T2 on the display part 32 may be as disclosed in Patent Document 1, for example. The display part 32 may be replaced with other display part such as a HUD (Head-Up-Display).
In step S200, the third information process apparatus 30 refers to flags. The flags to be referred are the first flag, the second flag, a first permission flag, and a second permission flag. The first permission flag represents whether to permit the output based on the red signal remaining time T1 related to the first output demand, in which “1” represents permitting the output and “0” represents preventing the output. The second permission flag represents whether to permit the output based on the red signal remaining time T1 related to the second output demand, in which “1” represents permitting the output and “0” represents preventing the output. The first and second permission flags have initial values “1”, respectively. The first and second permission flags are initialized at service-out timing (a timing when a service section based on the received first and/or second traffic signal information ends, for example).
In step S202, the third information process apparatus 30 determines whether the first flag is equal to “1” and the first permission flag is equal to “1”. If it is determined that the first flag is equal to “1” and the first permission flag is equal to “1”, the process routine goes to step S204, otherwise process routine goes to step S206.
In step S204, the third information process apparatus 30 sets the support state information to “2”, the first permission flag to “1”, and the second permission flag to “0”, respectively. The support state information being “2” means a state in which the output based on the red signal remaining time T1 related to the first output demand is performed. In this state, the third information process apparatus 30 displays the red signal remaining time T1 related to the first output demand on the display part 32.
In step S206, the third information process apparatus 30 determines whether the second flag is equal to “1” and the second permission flag is equal to “1”. If it is determined that the second flag is equal to “2” and the second permission flag is equal to “1”, the process routine goes to step S208, otherwise process routine goes to step S210.
In step S208, the third information process apparatus 30 sets the support state information to “1”, the first permission flag to “0”, and the second permission flag to “1”, respectively. The support state information being “1” means a state in which the output based on the red signal remaining time T2 related to the second output demand is performed. In this state, the third information process apparatus 30 displays the red signal remaining time T2 related to the second output demand on the display part 32.
In step S210,the third information process apparatus 30 determines whether the first flag is equal to “0” and the second flag is equal to“0”.If it is determined that the first flag is equal to “0” and the second flag is equal to “0”,the process routine goes to step S214, otherwise process routine goes to step S212.
In step S212, the third information process apparatus 30 sets the support state information to “3”, the first permission flag to “0”, and the second permission flag to “0”, respectively. The support state information being “3” means a state in which one of the first and second output demands is rejected. In this state, the third information process apparatus 30 does not display (i.e., does not output) the red signal remaining time on the display part 32.
In step S214, the third information process apparatus 30 sets the support state information to “0”, the first permission flag to “1”, and the second permission flag to “1”, respectively. The support state information being “0” means a state in which neither the first output demand nor the second output demand is generated.
According to the process illustrated in
Similarly, for example, in a situation where the first permission flag and the second permission flag are “1”, the first flag is “0” and the second flag is “0”, when the second flag is changed from “0” to “1”, the determination result of step S206 becomes affirmative. Then, the process in step S208 causes the first permission flag to be set to “0” and the second permission flag to be set to “1”. When the first permission flag is set to “0” and the second permission flag is set to “1”, the determination result of step S202 is negative and thus the process of step S208 is performed repeatedly at subsequent cycles even if the first flag is equal to “1”, as long as the second flag is equal to “1”. In other words, the first output demand is rejected, and the second output demand that is continuously generated from the earlier time point is selected with higher priority.
In this way, according to the process illustrated in
Here, for example, if the first output demand is generated first and then the second output demand is generated, which causes the first and second output demands to be generated simultaneously. Then, there may be a case in which the generation of the first output demand ends but the second output demand is still generated continuously. In such a case, if the display of the red signal remaining time T1 related to the first output demand is stopped due to the stop of the first output demand, and the display of the red signal remaining time T2 related to the second output demand is started in response to the second output demand, inconsistency occurs, which may cause the users to feel strange. In the following, permitting one of the first and second output demands immediately after a state in which the other is permitted ends is referred to as “inhering between different output demands”.
According to the process illustrated in
In the example illustrated in
In the example illustrated in
The second flag is set to “1” at the time point t2, but the first and second permission flags are “1” and “0”, respectively, at the time point t2. Thus, the second output demand is rejected. A state in which the first output demand and the second output demand are generated simultaneously is formed from the time point t2 to the time point t3. In this state, the third information process apparatus 30 displays the red signal remaining time of one of the first and second output demands that is continuously generated from the earlier time point. In the example illustrated in
In this way, the third information process apparatus 30 continues to display the red signal remaining time T1 related to the first output demand from the time point t1 to the time point t3. It is noted that, during this period, the red signal remaining time T1 is updated, and thus the display related to the red signal remaining time T1 on the display part 32 is also updated.
The first flag is equal to “0” at the time point t3, but the second flag is equal to “1” at the time point t3. Thus, the first permission flag is set to “0” (step S212). A state in which the second flag is equal to “1” continues until the time point t4. Thus, a state in which the first and second permission flags are equal to “0” is maintained from the time point t3 to the time point t4, and the support state information is set to “3”.
When the second flag becomes “0” at the time point t4, the first and second flags are equal to “0”, and thus the first and second permission flags are reset to the initial value “1” (step S214). Further, the support state information is set to “0”.
Processes from step S400 to step S408, and from step S410 to step S414 illustrated in
When the determination result of step S406 is negative, the process routine goes to step S409. In step S409, the third information process apparatus 30 determines whether the red signal cycle related to the latest output ends. The latest output is the output of the red signal remaining time based on the first output demand or the second output demand. For example, the third information process apparatus 30 determines that the red signal cycle ends when the red signal remaining time related to the latest output becomes 0. However, with respect to the latest output, if one of the first and second output demands is rejected, the third information process apparatus 30 determines whether the longer of the red cycle based on the first traffic signal information and the red cycle based on the second traffic signal information ends. If it is determined that the red signal cycle related to the latest output ends, the process routine goes to step S410, otherwise process routine goes to step S416.
In step S416, the third information process apparatus 30 sets the support state information to “4”, and maintains the current states of the first permission flag and the second permission flag. For example, if the current state of the first permission flag and the second permission flag is such that the first permission flag is equal to “0” and the second permission flag is equal to “1”, the third information process apparatus 30 maintains the current state of the first permission flag and the second permission flag such that the first permission flag is equal to “0” and the second permission flag is equal to “1”. Further, if the current state of the first permission flag and the second permission flag is such that the first permission flag is equal to “1” and the second permission flag is equal to “0”, the third information process apparatus 30 maintains the current state of the first permission flag and the second permission flag such that the first permission flag is equal to “1” and the second permission flag is equal to “0”. The support state information being “4” means a state in which the same red signal cycle is continued.
According to the process illustrated in
According to the process illustrated in
Further, according to the process illustrated in
In the example illustrated in
In the example illustrated in
In the example illustrated in
At the time point t3, the first flag is set to “0”, and thus the first flag is equal to 0 and the second flag is equal to 0. In the example illustrated in
At the time point t4, the second flag is set to “1”. On the other hand, the first flag is also set to “1” at the time point t6 after the time point t4. Since the first permission flag is equal to 0 and the second permission flag is equal to 0 at the time point t4, On the other hand, since the first permission flag is equal to 0 and the second permission flag is equal to 0 at the time point t6, the first output demand is permitted. Further, the support state information is set to “2”. In this way, the third information process apparatus 30 restarts the output, which has been stopped at the time point t3, in response to the first output demand at the time point t6. In other words, the third information process apparatus 30 starts to display the red signal remaining time T1 related to the first output demand again at the time point t6.
The first flag is kept at 1 from the time point t6 to the time point t7. The third information process apparatus 30 displays the red signal remaining time related to the first output demand from the time point t6 to the time point t7. In this way, the third information process apparatus continues to display the red signal remaining time T1 related to the first output demand from the time point t6 to the time point t7. It is noted that, during this period, the red signal remaining time T1 is updated, and thus the display related to the red signal remaining time T1 on the display part 32 is also updated.
At the time point t7, the red signal cycle related to the red signal remaining time T1 output in response to the latest output demand (i.e., the first output demand) ends. Thus, when the first flag becomes “0” at time point t7, the first and second flags are equal to “0”, and thus the first and second permission flags are reset to the initial value “1” (step S414). Further, the support state information is set to “0”.
The present invention is disclosed with reference to the preferred embodiments. However, it should be understood that the present invention is not limited to the above-described embodiments, and variations and modifications may be made without departing from the scope of the present invention.
For example, according to the embodiments described above, the first, second and third information process apparatuses 10, 20 and 30 functions separately; however, a part of or all the functions may be unified, or a part of the respective functions may be further distributed.
Further, according to the embodiments described above, the remaining time of the red signal is displayed; however, a remaining time of the blue signal may be displayed. Also, in this case, arbitration between two output demands can be performed in substantially the same way as described above, though the output conditions are changed.
Further, according to the process illustrated in
The present application is based on and claims the benefit of priority of Japanese Priority Application No. 2014-226319, filed on Nov. 6, 2014, the entire contents of which are hereby incorporated by reference.
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