Patent Abstract:
An automatic turn signal deactivation system monitors and deactivates a turn signal indicator for a vehicle. A lane departure warning device compares a vehicle position with an originating roadway lane and provides a monitoring signal to a communication bus. A turn signal module activates the turn signal indicator under manual control and automatically deactivates the turn signal indicator in response to the monitoring signal when the monitoring signal received from the lane departure warning device over the communication bus indicates that a lane change maneuver is complete.

Full Description:
CROSS REFERENCE TO RELATED APPLICATIONS  
         [0001]    Not Applicable.  
         STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH  
         [0002]    Not Applicable.  
         BACKGROUND OF THE INVENTION  
         [0003]    1. Field of the Invention  
           [0004]    The present invention relates in general to turn signal indicators, and more specifically, to deactivation of a turn signal after the occurrence or nonoccurrence of a lane change.  
           [0005]    2. Description of the Related Art  
           [0006]    A turn signal indicator is utilized for alerting other drivers on a roadway that a lane change or a turn is about to be initiated by a vehicle. When the turn signal indicator is activated, it remains active until the vehicle completes a turn or until a driver manually deactivates the turn signal indicator. When the vehicle completes the turn, deactivation of the turn signal indicator is accomplished by a mechanism associated with a steering column. The mechanism requires that the steering column be rotated passed a certain degree point before deactivation of the turn signal indicator occurs. However, a lane change to an adjacent roadway lane does not usually involve the degree of rotation that would deactivate the turn signal indicator. In many cases, the driver of the vehicle activating the turn signal indicator forgets to deactivate the turn signal indicator after changing lanes. This becomes a concern as other surrounding drivers are uncertain as to the intention of whether a lane change is imminent or not. Certain indicators such as audio or visual awareness signals have been used to alert the driver that the turn signal is active, but audio signals can be drowned out by road or wind noise. Likewise, visual signals located in the display of the dashboard may not be seen by the driver if the driver&#39;s attention is focused on the roadway.  
           [0007]    Methods used to deactivate the turn signal indicator by estimating whether a lane change has occurred include measuring a predetermined distance traveled by the vehicle after activating the turn signal indicator or measuring the length of time the turn signal has been activated. However, systems such as these only assume that the lane change has been made. There is no verification whether or not the lane change has taken place.  
           [0008]    Lane departure or lane tracking systems used primarily in trucking industries to alert drowsy drivers when they are departing from a lane are for detecting a lane departure but these systems are not capable of controlling the deactivation of turn signal indicators; rather, the systems have been used to alert the drowsy driver, usually by an audible signal, that an undesired lane change is occurring. Sensing technology known to detect road position and lane deviation includes sensors using roadway reflective properties, sensors generating image data, accelerometers, and gyroscopes.  
         SUMMARY OF THE INVENTION  
         [0009]    The present invention has the advantage of determining whether a vehicle has performed a lane change and automatically deactivating a turn signal indicator after the lane change is complete.  
           [0010]    In one aspect of the invention, an automatic turn signal deactivation system monitors and deactivates a turn signal indicator for a vehicle. A lane departure warning device compares a vehicle position with an originating roadway lane and provides a monitoring signal to a communication bus. A turn signal module activates the turn signal indicator under manual control and automatically deactivates the turn signal indicator in response to the monitoring signal when the monitoring signal received from the lane departure warning device over the communication bus indicates that a lane change maneuver is complete. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0011]    [0011]FIG. 1 is a block diagram of a lane based turn signal deactivation system according to the present invention.  
         [0012]    [0012]FIG. 2 is a flow diagram of a turn signal deactivation strategy according to a preferred embodiment.  
         [0013]    [0013]FIG. 3 is a flow diagram of a turn signal deactivation strategy according to a second preferred embodiment. 
     
    
     DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS  
       [0014]    Referring now to the Drawings and particularly to FIG. 1, there is shown a block diagram of an automatic turn signal deactivation system. The automatic turn signal deactivation system comprises a lane detection warning device (LDWD)  10  for determining lane position, a turn signal indicator  16  (e.g. an external lamp) for signaling a lane change to other surrounding vehicles, a turn signal module  14  for electronically controlling the activation and deactivation of the turn signal indicator  16 , and a human machine interface (HMI)  12  for providing a signal to the turn signal module  14  to activate the turn signal indicator  16 . Internal turn signal indicators (not shown) are located within the interior of the vehicle (such as the dashpanel) for notification to the driver that the turn signal indicator  16  is active.  
         [0015]    The LDWD  10  is a device that tracks vehicle position relative to lane boundaries of a roadway. In a preferred embodiment, the LDWD includes a lane tracking device similar to a SafeTRAC system supplied by AssistWare Technology, Inc. The LDWD is a vision-based lane tracking system that measures the vehicle position in the lane of the roadway using images of the road ahead with a small video camera (such as a CCD camera) mounted in an interior of the vehicle (such as behind the rear view mirror). However, in alternative embodiments, the LDWD may be mounted in various other locations such as the exterior of the vehicle (e.g., an exterior mirror). The LDWD constantly monitors the lane markings or boundaries of the roadway and tracks the vehicle&#39;s position from lane to lane. A lane-lock is present when the vehicle has established vehicle position between the lane markers or boundaries of a lane of a roadway for about a 1 second duration of time. This duration of time is adjustable.  
         [0016]    HMI  12  provides a manual activation command to the turn signal module  14 . In this embodiment, the HMI  12  is a turn signal switch or multifunction stalk switch attached to a steering column. Alternatively, the HMI  12  can include a wireless command module (such as speech) for providing the manual activation command to the turn signal module  14 . The turn signal module  14  receives an input signal from the HMI  12  indicating that the driver desires to activate the turn signal indicator  16 . The turn signal module  14  uses momentary switches to activate right or left turn signal indicator lamps. The turn signal module  14  will also provide a signal via a communication bus  11  to the LDWD  10  indicating that the turn signal indicator  16  is active so that the LDWD  10  may give proper feedback to the turn signal module  14  in regards to deactivation of the turn signal indicator  16  as described below.  
         [0017]    When a lane change is desired and the turn signal indicator  16  is activated, the LDWD  10  will monitor the progress of a subsequent lane change maneuver. When the LDWD  10  determines that the lane change maneuver is successfully completed by detecting the acquisition and maintenance of a new lane-lock for a first predetermined period of time, a signal will be provided via a communication bus to the turn signal module  14  indicating that the driver has successfully completed the lane change maneuver and that the turn signal indicator  16  should be deactivated. If the driver inadvertently activates the turn signal indicator  16  without desiring to change lanes, the LDWD  10  will monitor the progress of the lane change maneuver and deactivate the turn signal indicator  16  if an originating lane-lock is detected to be maintained for a second predetermined period of time after the activation of the turn signal indicator  16 . Likewise, if the driver purposefully activates the turn signal indicator  16  but then decides not to change lanes, the LDWD  10  monitors the progress of the lane change maneuver and deactivates the turn signal indicator  16  if the originating lane-lock is maintained for the second predetermined period of time. However, the driver of the vehicle may manually deactivate the turn signal indicator at any time without the use of the automatic turn signal deactivation system.  
         [0018]    [0018]FIG. 2 represents a flow diagram of a turn signal deactivation strategy. In step  20 , the driver activates the turn signal indicator. The LDWD is actively tracking vehicle position within and between the lanes of the roadway. In step  22 , when the LDWD receives a signal from the turn signal module that the turn signal indicator is active, the LDWD assumes that a lane change is desired and monitors for the lane change maneuver to detect when the new lane-lock occurs. The lane change maneuver includes a departure from an originating roadway lane and an entrance into an adjacent roadway lane. Normally, the activation of the turn signal indicator will occur when the LDWD is lane-locked in the originating roadway lane. When the turn signal indicator is activated while vehicle position is within the originating roadway lane, the LDWD will monitor for the lane change maneuver and the new lane-lock in the adjacent roadway lane. In this situation, the originating lane-lock is lost and is eventually replaced by the new lane-lock in the adjacent lane. However, if the turn signal indicator is activated while the system is between lanes, being that the LDWD is active and has already detected a departure from the originating roadway lane, the LDWD will assume that the lane change maneuver is in progress and monitor for the new lane-lock in the adjacent roadway lane. In step  23 , a determination is made whether a maximum time out has occurred. A maximum time-out is used in the event a lane-lock cannot be detected for an extended period of time. In the preferred embodiment, the maximum time-out is about 1 minute from the time the lane-lock is lost while the turn signal is activated. The maximum time-out is an adjustable time limit. If a determination is made in step  23  that a maximum time-out has occurred, then a jump to step  36  is made to deactivate the turn signal indicator.  
         [0019]    In step  24 , a determination is made whether the new lane-lock has been detected. If the LDWD detects the new lane-lock, then the time the vehicle is in the new lane is measured in step  26 . In step  28 , a determination is made whether the vehicle is maintained within the adjacent lane for the first predetermined period of time after detecting the new lane-lock. In the preferred embodiment, the first predetermined period of time is about 1 second. However, the duration of the first predetermined period of time is adjustable. If the LDWD determines that the vehicle has maintained the vehicle position within the adjacent roadway lane for the first predetermined period of time in step  28 , then the LDWD provides a signal over a communication bus or the like to the turn signal module to deactivate the turn signal indicator in step  36 . If a determination is made in step  28  that the vehicle position is not maintained for the first predetermined time, then a check is made in step  30  to determine whether the new lane-lock is lost and if the vehicle is deviating from the new lane. If the LDWD determines that the new lane-lock is not lost in step  30 , a return is made to step  26  to measure the time the vehicle is in the adjacent roadway lane. If the LDWD determines that the new lane-lock is lost in step  30 , then a return is made to step  24  to determine if the new lane-lock for a next adjacent roadway lane is detected.  
         [0020]    In step  24 , if the determination is made that the new lane-lock is not detected, then a determination is made in step  31  whether the originating lane-lock is detected. If the originating lane-lock is not detected, then a return to step  22  is made to continue to monitor the lane change maneuver and determine if a maximum time-out has occurred. If the originating lane-lock is detected in step  31 , a determination is made in step  32  whether the vehicle has maintained the originating lane-lock for the second predetermined period of time. In the preferred embodiment, the second predetermined period of time is 10 seconds, although this duration is adjustable. If the second predetermined period of time has not elapsed in step  32 , then a return is made to step  22  to continue to monitor the lane-lock status. If a determination is made that the second predetermined period of time has elapsed in step  32 , then the LDWD provides a signal to the turn signal module to deactivate the turn signal indicator in step  36 .  
         [0021]    [0021]FIG. 3 represents a flow diagram for a turn signal deactivation strategy according to a second preferred embodiment. The steps for the turn signal deactivation strategy are the same as that shown in FIG. 2 with the addition of steps  33  and step  34 . In the second preferred embodiment, the determination is made in step  24  if the new lane-lock is detected. If the new-lane lock is not detected in step  24 , then the determination is made in step  31  whether the originating lane-lock is detected. If the originating lane-lock is detected in step  31  then a determination is made whether the vehicle has maintained the originating lane-lock for the second predetermined period of time in step  32 . If the determination is made that the vehicle has maintained the original lane-lock in step  32  for the second predetermined period of time, then a warning is given to the driver in step  33  that the turn signal indicator is about to be deactivated. In the event that the driver still desires to change lanes but has not done so due to circumstances out of his control, such as heavy traffic in the adjacent roadway lane, then the driver can override the turn signal deactivation by performing a predetermined control operation to initiate an override command. An example of a control operation includes a push button on the stalk switch or dashpanel, or spoken command using voice recognition. The override command will reset the second predetermined period of time to allow the driver additional time to change lanes while the turn signal indicator remains active. In step  34 , a determination is made whether the override command has been entered. If the override command is initiated, a return to step  27  is made and the LDWD will monitor for a lane change maneuver. If the a determination is made in step  34  that the override command is not entered, then the LDWD provides a signal to the turn signal module to deactivate the turn signal indicator in step  36 .

Technology Classification (CPC): 1