US20170129399A1 - Child seat monitoring system and method - Google Patents
Child seat monitoring system and method Download PDFInfo
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- US20170129399A1 US20170129399A1 US14/936,261 US201514936261A US2017129399A1 US 20170129399 A1 US20170129399 A1 US 20170129399A1 US 201514936261 A US201514936261 A US 201514936261A US 2017129399 A1 US2017129399 A1 US 2017129399A1
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- B60R21/015—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents including means for detecting the presence or position of passengers, passenger seats or child seats, and the related safety parameters therefor, e.g. speed or timing of airbag inflation in relation to occupant position or seat belt use
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- B60R21/015—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents including means for detecting the presence or position of passengers, passenger seats or child seats, and the related safety parameters therefor, e.g. speed or timing of airbag inflation in relation to occupant position or seat belt use
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Definitions
- This application generally relates to child seats in a vehicle, and more specifically, to monitoring the status of a child seat installed in a vehicle.
- Many vehicles include a front seat belt monitoring system that outputs a warning or alert signal (e.g., an audible alarm or beep) if the driver-side seatbelt and/or the front passenger-side seatbelt is unbuckled.
- Some vehicles also include a rear seatbelt monitoring system that outputs a warning if one of the rear seatbelts is unbuckled.
- Both types of monitoring systems typically include a presence detection component that determines whether a person is sitting in the seat before checking a seat belt status.
- a warning icon or image of an unbuckled seatbelt is displayed on a display screen of the instrument panel or dashboard of the vehicle.
- an unbuckled rear seatbelt warning may differ from an unbuckled front seat belt warning, so that the driver can easily differentiate between the two types of warnings and quickly identify the seat with an unbuckled seatbelt.
- Some vehicles also include a child seat monitoring system that outputs one or more warnings depending on a child seat status.
- a child seat monitoring system detects whether the child seat is installed in the vehicle according to pre-existing installation guidelines, monitors a seatbelt buckle status and other conditions of the child seat, and outputs child seat status information via a user interface or display screen of the system.
- Another type of child seat monitoring system detects the presence of an unattended child within the vehicle and outputs an audible warning and/or other notification designed to alert the driver, or other nearby person(s), to the situation.
- existing systems are not capable of monitoring a status of the child seat, child seat belt, and/or child seat belt buckle when the vehicle ignition is “on” and the vehicle gear is in “drive,” and continuing to monitor the status of the child seat belt buckle when the vehicle gear is in “park” and/or the vehicle ignition is “off.”
- existing child seat monitoring systems are not able to notify the driver if the child seat belt becomes unbuckled while driving and also notify the driver if a child remains buckled in the child seat after the driver has parked and/or exited the vehicle. Accordingly, there is still a need in the art for vehicle systems and methods that can provide comprehensive child seat monitoring.
- the invention is intended to solve the above-noted and other problems by providing comprehensive vehicle child seat monitoring systems and methods that can (1) monitor the status of a child seat belt buckle and output one or more warnings if the seat belt is unbuckled while the vehicle gear is in “drive” or other non-park position, and (2) monitor the status of the child seat belt buckle and output one or more warnings if the seat belt remains buckled while the ignition is “off.”
- one embodiment provides a vehicle comprising a user interface, a first sensor coupled to a child seat for detecting a child seat belt status, a gear selector for selecting a vehicle gear, and a processor communicatively coupled to the first sensor and the gear selector, and configured to cause the user interface to present a first notification if a first alarm condition is detected based on the child seat belt status and a selected gear.
- Another example embodiment provides a method of providing child seat monitoring in a vehicle, the method comprising receiving a gear position from a vehicle gear selector, receiving a child seat belt status from a first sensor coupled to a vehicle child seat, and presenting a first notification using a vehicle user interface if the gear position is a non-park position and the child seat belt status is unbuckled.
- FIG. 1 is a block diagram of an exemplary child seat monitoring system coupled to an example vehicle system in accordance with certain embodiments.
- FIG. 2 is an illustration of an exemplary child seat comprising one or more components of the child seat monitoring system of FIG. 1 in accordance with certain embodiments.
- FIG. 3 is an illustration of another exemplary child seat comprising one or more components of the child seat monitoring system of FIG. 1 in accordance with certain embodiments.
- FIG. 4 is an illustration of an exemplary vehicle associated with the vehicle system shown in FIG. 1 , in accordance with certain embodiments.
- FIG. 5 is a block diagram showing an exemplary vehicle computing system of the vehicle shown in FIG. 4 , in accordance with certain embodiments.
- FIGS. 6A-D are illustrations of exemplary notification icons for display on a display screen of the vehicle shown in FIG. 1 , in accordance with certain embodiments.
- FIG. 7 is another block diagram of the exemplary child seat monitoring system and vehicle system shown in FIG. 1 , in accordance with certain embodiments.
- FIG. 8 is a flow diagram of an example method for providing child seat monitoring in a vehicle, in accordance with certain embodiments.
- the use of the disjunctive is intended to include the conjunctive.
- the use of definite or indefinite articles is not intended to indicate cardinality.
- a reference to “the” object or “a” and “an” object is intended to denote also one of a possible plurality of such objects.
- FIG. 1 illustrates an exemplary child seat monitoring system 10 configured to monitor one of more aspects of a vehicle child seat and a vehicle in which the child seat is installed, and upon detecting an alarm condition, cause the vehicle to output one or more notifications for alerting a vehicle driver, or other person(s) near the vehicle, to the alarm condition, in accordance with embodiments.
- the child seat monitoring system 10 includes a child seat monitoring module 12 and one or more child seat buckle sensor(s) 14 .
- the child seat monitoring system 10 can also include one or more child seat attachment sensor(s) 16 , child presence detector(s) 17 , and/or child seat belt sensor(s) 18 .
- Each of the child seat buckle sensor(s) 14 , the child seat belt sensor(s) 16 , the child presence detector(s) 17 , and the child seat attachment sensor(s) 18 can be communicatively coupled to the child seat monitoring module 12 in order to provide sensor or status information (e.g., in the form of input signals) to the module 12 .
- the child seat monitoring module 12 is also communicatively coupled to a vehicle system 20 comprising various components included in, or associated with, a vehicle (not shown). The child seat monitoring module 12 receives vehicle information from, and provides command signals to, the vehicle system 20 .
- the child seat monitoring module 12 is configured for, or capable of, receiving vehicle information from the vehicle system 20 ; receiving sensor information from one or more of the child seat sensors 19 ; based on the received information, determining whether an alarm condition exists; and if an alarm condition exists, causing the vehicle system 20 to output one or more notifications to alert a driver or other person(s) near the vehicle to the alarm condition.
- the child seat monitoring system 10 can be included in the child seat (such as, e.g., such child seat 100 shown in FIG. 2 or child seat 200 shown in FIG. 3 ), in the vehicle (such as, e.g., vehicle 300 shown in FIG. 4 ), or in the vehicle computing system of the vehicle (such as, e.g., vehicle computing system (VCS) 400 shown in FIG. 5 ).
- VCS vehicle computing system
- one or more of the child seat buckle sensor(s) 14 , the child seat belt sensor(s) 16 , the child presence detector(s) 17 , and the child seat attachment sensor(s) 18 can be integrated into, or attached to, the car seat 100 and/or 200 .
- the child seat monitoring module 12 comprises program modules or software instructions that can be stored in a data storage device 402 and executed by a data processor 404 of the vehicle computing system 400 , as described in more detail below.
- the vehicle system 20 may be integrated into the vehicle 300 , associated with the vehicle 300 , and/or included in the vehicle computing system 400 .
- the vehicle system 20 includes a restraint control module (RCM) 22 , a powertrain control module 24 , a body control module 26 , and a human-machine interface (HMI) 28 , all of which can be included in the VCS 400 , as shown in FIG. 5 and described in more detail below.
- the vehicle system 20 also includes an alarm system 30 , a rear seat presence detector 32 , and a rear seat buckle sensor 34 , all of which can be included in the vehicle 300 as described in more detail below.
- the vehicle system 20 includes a key fob 36 and a mobile application 38 , both of which may be associated with, or wirelessly linked to or paired with, the vehicle 300 to provide remote access to one or more functions of the vehicle 300 , as will be appreciated.
- the notifications provided through the vehicle system 20 to alert the driver or other person(s) to an alarm condition can be selected from one or more of the following categories: (i) a graphical warning (e.g., a textual message and/or pictorial icon, such as, e.g., icons 52 , 54 , 56 , and 58 shown in FIGS.
- a graphical warning e.g., a textual message and/or pictorial icon, such as, e.g., icons 52 , 54 , 56 , and 58 shown in FIGS.
- the child seat monitoring module 12 can be configured to select one or more of the notification categories and a predetermined source for each selected notification category based on the type of alarm condition detected by the child seat monitoring module 12 .
- an alarm condition detected during a driving event e.g., when a vehicle ignition is “on” and vehicle gear is not in “park”
- an alarm condition detected during a non-driving event e.g., when the vehicle ignition is “off”
- a second set of notifications e.g., when the vehicle ignition is “off”
- the first set of notifications can include, for example, one or more of a graphical warning, an audible alarm, and a light-based alert that is presented through the HMI 28 , and can be repeated if the alarm condition is not removed within a predetermined time period.
- the first set of notifications includes presentation of a select one of the icons 52 - 58 on a display screen of the HMI 28 , the exact icon depending on the type of alarm condition, as described in more detail below.
- the first set of notifications can be continuously presented until the alarm condition is removed.
- the first set of notifications includes two or more notifications that are simultaneously presented through the HMI 28 (e.g., a graphical warning displayed on the display screen of the HMI 28 and an audible alarm transmitted through an audio device of the HMI 28 ).
- the second set of notifications can include a series of notifications with an escalating level of intensity or obtrusiveness between an initial notification and each subsequent notification, for example, in order to convey a growing sense of urgency as time passes and/or to ensure that a vehicle operator or other person(s) near the vehicle 300 are effectively notified of the alarm condition in a timely manner.
- the second set of notifications can include one or more initial notifications and one or more subsequent notifications.
- two or more subsequent notifications are presented in conjunction or substantially at the same time (e.g., simultaneously).
- two or more subsequent notifications are presented sequentially, for example, if the alarm condition continues to exist after a predetermined amount of time following presentation of the immediately-preceding notification.
- the subsequent notification(s) can be continuously presented until the alarm condition is removed.
- the initial notification can be presented in an interior of the vehicle 300 and can be similar to the notification(s) presented during a driving event (e.g., a graphical warning, an audible alarm, and/or a light-based alert presented through the HMI 28 ).
- a driving event e.g., a graphical warning, an audible alarm, and/or a light-based alert presented through the HMI 28 .
- the subsequent notification(s) can be presented in an interior and/or exterior of the vehicle 300 and can include, for example, one or more of (i) a light-based alert presented through the cabin lights 44 (e.g., turning on the cabin lights 44 if an outer environment of the vehicle 300 is dark), the exterior vehicle lights 42 (e.g., turning on or flashing the headlights, taillights or other vehicle lights 42 ), and/or the key fob 36 (e.g., blinking on and off a light on the key fob 36 ); (ii) an audible alarm presented through the vehicle horn 40 and/or the alarm system 30 ; (iii) a graphical warning presented on a mobile device of the vehicle operator using the mobile application 38 ; and (iv) an automatic system override of the vehicle A/C and heating system 46 (e.g., turning on the A/C system if the outside temperature is above a first predetermined threshold and/or turning on the heating system if the outside temperature is below a second predetermined threshold), the vehicle
- the child seat monitoring module 12 can be configured to detect a plurality of different alarm conditions depending on the output signal(s) received from the child seat buckle sensor(s) 14 and/or the other child seat sensors 19 .
- a first alarm condition can be triggered upon receiving one or more output signals from the vehicle system 20 indicating that the vehicle ignition is “on” (e.g., based on an output of the powertrain control module 24 ), the vehicle gear is not in “park” (e.g., based on an output of the powertrain control module 24 ), and the child seat 100 has an unbuckled status (e.g., based on an output of the child seat buckle sensor(s) 14 ).
- the first set of notifications can be presented upon detecting the first alarm condition.
- a second alarm condition can be triggered upon receiving one or more output signals from the vehicle 20 indicating that the vehicle ignition is “off” and the child seat 100 has a buckled status.
- the second set of notifications can be presented upon detecting the second alarm condition.
- the child seat 100 includes a seat bottom 101 , which provides a generally flat surface for a child to sit upon, a seat back 102 coupled to the seat bottom 101 for the child to rest his/her back upon, and a restraint system 103 coupled to the seat bottom 101 and the seat back 102 for securing the child to the child seat 100 .
- the restraint system 103 includes a harness 104 (such as a five-point harness) comprising a plurality of straps that pass through slotted apertures in an internal frame (not shown) of the child seat 100 and exit from various locations on the seat back 102 and the seat bottom 101 (e.g., above each shoulder location in the seat back 102 , on either side of a lap location in the seat bottom 101 , and at a front central location of the seat bottom 101 ).
- a first buckle 105 (or “lap buckle”) provides a common point for connecting together, or securing, the straps of the harness 104 over a lap of the child.
- a second buckle 106 laterally connects together, or secures, a pair of upper straps of the harness 104 over a chest of the child.
- the harness 104 can be tightened or cinched to reduce any laxness or slack in the straps, so that the child is securely positioned within the child seat 100 and the buckles 105 and 106 are properly positioned on the lap and chest, respectively, of the child.
- the child seat 100 also includes an anchor system 107 comprising a plurality of tethers 108 (or straps) for securely mounting the child seat 100 to a vehicle, such as the vehicle 300 .
- a first tether 108 a can extend across a lower portion of the seat back 102 , and each end of the first tether 108 a can exit from an opposing lateral edge of the seat back 102 , as shown.
- the first tether 108 a may extend through the internal frame of the child seat 100 or across a back side (not shown) of the seat back 102 .
- a second tether 108 b can have a first end (not shown) coupled to the internal frame of the child seat 100 and an opposing, second end that exits from a top of the seat back 102 , as shown.
- the tethers 108 can be tightened or cinched to securely mount the child seat 100 to the vehicle.
- the anchor system 107 also includes a plurality of anchor connectors 109 that are coupled to each end of the first tether 108 a and the second end of the second tether 108 b , respectively.
- Each anchor connector 109 includes a latch or hook that can be secured to one of a plurality of vehicle anchors 111 , which are rigidly mounted to a structure of the vehicle at various locations of the vehicle.
- anchor connectors 109 a can couple the two ends of the first tether 108 a to vehicle anchors 111 a , which can extend upwards through a rear seat (not shown) of the vehicle.
- Anchor connector 109 b can couple the second end of the second tether 108 b to vehicle anchor 109 b , which can be positioned in a plurality of vehicle locations depending on the type of vehicle and the direction in which the child seat 100 is facing upon installation (e.g., rear-facing or forward-facing), as will be appreciated.
- vehicle anchor 111 b may be positioned on a floor of the vehicle behind the row of seats that the child seat 100 is mounted to.
- the vehicle anchor 111 b may be positioned on a rear shelf of the vehicle behind the row of seats that the child seat 100 is mounted to.
- the child seat 100 can include, or be coupled to, various components of the child seat monitoring system 10 in order to monitor a status of the restraint system 103 and/or the anchor system 107 of the child seat 100 .
- the child seat 100 can include the child seat buckle sensor(s) 14 and the child seat belt sensor(s) 16 to monitor a status of the restraint system 103 .
- the child seat 100 can include the child seat attachment sensor(s) 17 to monitor a status of the anchor system 107 .
- the child seat buckle sensor(s) 14 can be positioned at or within one or more of the buckles included in the child seat 100 and can be configured to transmit an output signal indicative of a buckle status of the child seat 100 .
- a first child seat buckle sensor 14 a can be integrated into, or attached to, the lap buckle 105 of the child seat 100 in order to detect whether the lap buckle 105 has been securely fastened or buckled
- a second child seat buckle sensor 14 b can be integrated into, or attached to, the chest buckle 106 in order to detect whether the chest buckle 106 has been securely fastened or buckled.
- the output signal transmitted by the child seat buckle sensor(s) 14 can include, for example, a high value if one of the buckles 105 , 106 is unbuckled and a low value if both of the buckles 105 and 106 are securely buckled, or vice versa.
- the child seat buckle sensor(s) 14 can include any type of sensor capable of determining whether the buckle 105 , 106 is properly buckled or latched, including, for example, an electrical or mechanical switch, a proximity sensor, an infrared sensor, a magnetic, fluidics sensor, an occupant presence mat, and a camera.
- the child seat belt sensor(s) 16 can be positioned at various locations along the harness 104 in order to determine whether the harness 104 is sufficiently taut and/or properly positioned over the child and transmit an output signal indicative of a belt status of the child seat 100 .
- a first child seat belt sensor (or “chest belt sensor”) 16 a can be attached to one of two upper straps 104 a included in the harness 104 and positioned adjacent to a chest of a child seated in the child seat 100 .
- each of the upper straps 104 a can include the chest belt sensor 16 a in order to measure the tension in both of the upper straps 104 a .
- FIG. 2 a first child seat belt sensor (or “chest belt sensor”) 16 a can be attached to one of two upper straps 104 a included in the harness 104 and positioned adjacent to a chest of a child seated in the child seat 100 .
- each of the upper straps 104 a can include the chest belt sensor 16 a in order to measure the tension in
- a second child seat belt sensor (or “lap belt sensor”) 16 b can be attached to one of two lower straps 104 b included in the harness 104 and positioned adjacent to a lap of the child seated in the child seat 100 .
- each of the lower straps 104 b can include the lap belt sensor 16 b in order to measure the tension in both of the lower straps 104 b .
- the child seat belt sensors 16 can be positioned on an exterior of the child seat 100 and/or internally, for example, within the straps of the harness 104 or within the seat bottom 101 and/or the seat back 102 . Further, the exact position of the child seat belt sensors 16 in the child seat 10 can vary depending on the type of sensing technology used and the type and/or size of the child seat 100 .
- the chest belt sensor 16 a is a force sensor configured to measure an amount of force or tension in the upper strap 104 a and the lap belt sensor 16 b is a force sensor configured to measure an amount of force or tension in the lower strap 104 b .
- each of the sensors 16 a and 16 b can transmit an output signal indicative of the measured tension to the child seat monitoring module 12 , and the module 12 can be configured to compare the measured tension to a predetermined threshold value to determine whether the harness 104 is sufficiently taut.
- Additional alternative embodiments of the child seat belt sensor(s) 16 include a torque sensor for measuring a torque value of the harness 104 about one or more of the buckles 105 and 106 , a pressure sensor for measuring an amount of pressure exerted on one or more straps of the harness 104 , or any other device that is capable of sensing insufficient tightness in the harness 104 .
- the child seat 100 can also include the child seat attachment sensors 18 positioned at various locations of the anchor system 107 in order to determine whether the anchor system 107 is tautly secured to and/or properly installed in the vehicle 300 and to transmit an output signal indicative of an attachment status of the child seat 100 .
- the exact position of the child seat attachment sensors 18 in the anchor system 107 can vary depending on the type of sensing technology used, the type and/or size of the child seat 100 , and the component being sensed (e.g., the tethers 108 or the anchor connectors 109 ).
- the child seat attachment sensors 18 can be tether sensors for detecting a tightness of the tethers 108 .
- the attachment sensors 18 can include two lower child seat attachment sensors 18 a attached to, or positioned at, either end of the first tether 108 a adjacent to each of the anchor connectors 109 a in order to detect whether the first tether 108 a is tightly secured to the rear seat of the vehicle 300 .
- FIG. 2 shows that the attachment sensors 18 can include two lower child seat attachment sensors 18 a attached to, or positioned at, either end of the first tether 108 a adjacent to each of the anchor connectors 109 a in order to detect whether the first tether 108 a is tightly secured to the rear seat of the vehicle 300 .
- an upper child seat attachment sensor 18 b can be attached to, or positioned at, a second end of the second tether 108 b adjacent to the anchor connector 109 b to detect whether the second tether 108 b is tightly secured to the vehicle 300 .
- each of the child seat attachment sensors 18 a and 18 b can include a force sensor configured to measure an amount of force or tension in the tethers 108 a and 108 b , respectively, and transmit an output signal indicative of the measured tension to the child seat monitoring module 12 .
- the module 12 can be configured to compare the measured tension in each tether 108 a , 108 b to a predetermined threshold value to determine whether the tethers 108 are sufficiently taut.
- the child seat attachment sensors 18 can be anchor sensors for detecting a proper attachment of the child seat 100 to the anchors 111 .
- the attachment sensors 18 can be positioned on, or included within, one or more of the vehicle anchors 111 and/or the anchor connectors 109 to determine whether the anchor connectors 109 are securely latched to each of the vehicle anchors 111 .
- Each of the child seat attachment sensors 18 a and 18 b can include a proximity sensor, infrared sensor, contact sensor, pressure sensor, or other type of sensor capable of detecting a latching status of the anchor connectors 109 a and 109 b relative to the vehicle anchors 111 a and 111 b , respectively, and transmitting an output signal indicative of the latching status to the child seat monitoring module 12 .
- the output signal may have a high value if all of the anchor connectors 109 are properly latched to the respective anchors 111 and a low value if one or more of the anchor connectors 109 is not properly latched, or vice versa.
- the child seat 100 can also include, or have coupled thereto, the child presence detector 17 for detecting the presence of a child within the child seat 100 and transmitting an output signal indicating said presence.
- the child presence detector 17 can include use any suitable type of presence-detecting technology, and the exact position of the child presence detector 17 within the child seat 100 can vary depending on the type of sensing technology and/or the type or size of the child seat 100 .
- the child presence detector 17 can be included in, or coupled to, the seat bottom 101 of the child seat 100 .
- the child presence detector 17 can be a weight sensor for measuring a weight placed on the seat bottom 101 and transmitting an output signal indicative of the weight of the child seated in the child seat 100 .
- the child presence detector 17 can be a pressure sensor that is triggered once a weight or pressure on the seat bottom 101 exceeds a predetermined threshold and when triggered, transmits an output signal indicating that a child has been detected in the car seat 100 .
- the child presence detector 17 can be a proximity or infrared sensor that is positioned on one or more surfaces of the car seat 100 and is capable of detecting an object placed in a detection path of the sensor.
- an infrared sensor may be positioned in opposing sides of the child seat 100 .
- a proximity sensor may be positioned in the seat bottom 101 and/or the seat back 102 .
- the car seat 100 shown in FIG. 2 can be any type of child seat that includes a harness (or the restraint system 103 ) and a tether (or the anchor system 107 ), including, for example, a “convertible” car seat (e.g., a child seat that can be changed from a rear-facing position to a forward-facing position), an “all-in-one” car seat (e.g., a child seat that can change from a rear-facing seat to a forward-facing seat and then to a booster seat), and a “combination” car seat (e.g., a child seat that can transition from a forward-facing seat to a booster seat).
- the child seat monitoring system 10 can be adapted for a child seat that does not include a harness and/or a tether, such as, for example, a backless booster seat or a high back booster seat.
- an exemplary child seat 200 (e.g., a high back booster seat) without a harness or tether system.
- a child seated in the child seat 200 can be secured to the child seat 200 using a rear seat belt system 202 , such as, for example, the seat belt system for a rear seat 302 of the vehicle 300 .
- the rear seat belt system 202 includes a seat belt 203 (also referred to as “webbing”), a tongue portion 204 , and a buckle portion 206 .
- the seat belt 203 has two fixed ends (not shown) that are coupled to the vehicle 300 and a free end 207 that is attached to the tongue portion 204 .
- the tongue portion 204 is configured for insertion into, or attachment to, the buckle portion 206 .
- the buckle portion 206 can include the rear seat belt sensor 34 for detecting whether the tongue portion 204 is coupled to the buckle portion 206 and transmitting an output signal indicative of a buckle status of the rear seat belt system 202 .
- the output signal may be a high value if the rear seat belt system 202 is properly buckled and a low value if the rear seat belt system 202 is unbuckled, or vice versa.
- the output signal can be provided to the restraint control module (RCM) 22 of the vehicle system 20 and/or the vehicle computing system 400 , and the RCM 22 can provide the output signal to the child seat monitoring module 12 .
- RCM restraint control module
- the child seat belt sensor(s) 16 can be coupled to the rear seat belt system 202 for determining whether the seat belt 203 is properly positioned on the child in the child seat 200 and/or is sufficiently taut (e.g., by measuring a force or tension in the seat belt 203 ).
- the chest belt sensor 16 a can be positioned on or attached to an upper or chest belt portion 203 a of the seat belt 203 to detect a tautness of the chest belt portion 203 a over a chest of the child.
- the lap belt sensor 16 b can be positioned on or attached to a lower or lap belt portion 203 b of the seat belt 203 to detect a tautness of the lap belt portion 203 b across a lap of the child.
- the output signal(s) of the child seat belt sensor(s) 16 can be provided to the child seat monitoring module 12 .
- the vehicle system 20 may include similar seat belt sensor(s) (not shown) as part of the rear seat belt system 200 .
- a pressure sensor or force sensor may be included at one or more locations of the seat belt 203 for measuring an amount of pressure or force, respectively, that is placed on the seat belt 203 .
- the vehicle system 300 configured to operate with, or include, the child seat monitoring system 10 , in accordance with embodiments.
- the vehicle system 300 includes a driver seat 304 and a front passenger seat 306 .
- the rear seat 302 includes one or more rear seat presence detectors 32 for detecting the presence of a vehicle occupant and/or the child seat (e.g., the child seat 100 or 200 ) in each seat of the rear seat 302 .
- the rear seat presence detector 32 can include any suitable presence detection device, such as, for example, a pressure sensor, weight sensor, proximity sensor, or infrared sensor.
- the child seat 100 can include the child presence detector 17 in the seat bottom 101 of the child seat 100 to determine whether a child is occupying the child seat 100 .
- the child presence detector 17 operates independently of the rear seat presence detector 32 , such that the rear seat presence detector 32 is configured to detect the presence of the car seat or other vehicle occupant in the rear seat 302 and the child presence detector 17 is used to detect the presence of the child in the child seat 100 .
- the child presence detector 17 may not be included in the child seat 100 and instead, the rear seat presence detector 32 , and/or vehicle OCS, can be used to detect the presence of a child in the child seat 100 .
- the camera 308 can be used to obtain status information for the child seat belt sensor 16 and/or the rear seat belt sensor (not shown) by capturing images of the harness 104 of the child seat 100 on the child and/or the seat belt 203 of the rear seat 302 on the child.
- the child seat belt sensor 16 and/or the rear seat belt sensor can used the captured images to determine whether the harness 104 and/or the seat belt 203 is properly positioned on the child, for example, by comparing the capture images to pre-stored images showing proper and improper seat belt/harness placements, or using other known techniques.
- the vehicle 300 includes various other components of the vehicle system 20 , such as the vehicle alarm system 30 , the vehicle horn 40 , the vehicle lights 42 included on an exterior of the vehicle and including headlights 42 a and taillights 42 b , the cabin light(s) 44 included in an interior or cabin area of the vehicle 300 , the windows 48 which may be power-operated, and the doors 50 which may include power-operated locks and one or more power-operated doors.
- the vehicle alarm system 30 the vehicle horn 40
- the vehicle lights 42 included on an exterior of the vehicle and including headlights 42 a and taillights 42 b
- the cabin light(s) 44 included in an interior or cabin area of the vehicle 300
- the windows 48 which may be power-operated
- the doors 50 which may include power-operated locks and one or more power-operated doors.
- the vehicle 300 also includes a rear view mirror 310 for enabling a driver to look behind the vehicle 300 , an ignition switch 312 for starting or turning off an engine (not shown) of the vehicle 300 , and a gear selector 314 (also known as a “gearshift”) for changing a gear of the vehicle 300 between, for example, park (“P”), reverse (“R”), neutral (“N”), drive (“D”), and low gear (“L”).
- a gear selector 314 also known as a “gearshift” for changing a gear of the vehicle 300 between, for example, park (“P”), reverse (“R”), neutral (“N”), drive (“D”), and low gear (“L”).
- the components of the child seat monitoring system 10 can communicate with each other and/or the components of the vehicle system 20 using wired or wireless connections.
- one or more of the child seat sensors 19 includes a transmitter (not shown) for wirelessly transmitting the output signals to the child seat monitoring module 12 , the RCM 22 , or other component of the child seat monitoring system 10 and/or the vehicle system 20 .
- one or more of the child seat sensors 19 can be coupled via a wired connection (e.g., using a fixed cable) to the child seat monitoring module 12 , the RCM 22 , or other component of the child seat monitoring system 10 and/or the vehicle system 20 .
- the child seat adapter 60 can be communicatively coupled to the rear seat buckle sensor 34 of the rear seat belt system 202 .
- the adapter 60 can include a cable 66 (or cable jumper) with a connector or plug (not shown) capable of being coupled to, or inserted into, the rear seat buckle portion 206 .
- the rear seat buckle portion 206 is adapted to include a port or other connection point (not shown) for receiving the connector of the adapter 60 .
- the adapter connector is configured as a seat belt tongue for insertion into the rear seat buckle portion 206 .
- the wireless unit 64 of the child seat adapter 60 can be configured to communicate with a wireless unit 66 included in the rear seat buckle portion 206 , as shown in FIG. 7 .
- the wireless unit 64 can be configured for transmitting the output signals received from the child seat sensors 19 to the wireless unit 66 .
- the wireless unit 66 can be configured for receiving the output signals transmitted by the wireless unit 64 and for transmitting the received signals to the child seat monitoring module 12 , the vehicle computing system (VCS) 400 , and/or the restraint control module (RCM) 22 .
- each of the wireless units 62 , 64 , and 66 can include one or more antennas, receivers, transmitters, and/or transceivers configured to enable wireless communication over a short-range wireless network, such as, for example, Bluetooth, NFC, RFID, and infrared technology, or any other wireless network available within the vehicle 300 (such as, e.g., WiFi).
- a short-range wireless network such as, for example, Bluetooth, NFC, RFID, and infrared technology, or any other wireless network available within the vehicle 300 (such as, e.g., WiFi).
- the child seat adapter 60 can be configured to communicate directly with the VCS 400 , the RCM 22 , the child seat monitoring module 12 , or another vehicle unit (not shown) that is adjacent to the rear seat 302 and in communication with the child seat monitoring module 12 and/or the RCM 22 .
- the wireless unit 66 can be included in the rear seat 302 or other portion of the vehicle 300 , depending on a wireless communication range of the wireless units 64 and 66 .
- the VCS 400 can include data storage device 402 , data processor 404 (e.g., an electronic data processor), and a vehicle data bus 406 .
- the VCS 400 can further include various electronic control units (ECUs) that responsible for monitoring and controlling the electrical systems or subsystems of the vehicle 300 .
- Each ECU may include, for example, one or more inputs and outputs for gathering, receiving, and/or transmitting data, a memory for storing the data, and a processor for processing the data and/or generating new information based thereon.
- the ECUs of the VCS 400 include restraint control module (RCM) 22 , powertrain control module (PCM) 24 , body control module (BCM), human-machine interface (HMI) 28 , and a telematics control unit (TCU) 408 .
- the alarm system 30 is also included in the VCS 400 and in communication with the other ECUs.
- the alarm system 30 is a stand-alone unit that is coupled to the vehicle 300 and/or the VCS 400 , for example, as an after-market unit.
- the vehicle computing system 400 further includes a timer (not shown) for monitoring a timing of each notification presented by the vehicle system 20 and for notifying the child seat monitoring module 12 if a predetermined amount of time has passed after the notification presentation.
- the ECUs of the VCS 400 are interconnected by the vehicle data bus 406 (such as, e.g., a controller area network (CAN) bus), which passes data to and from the various ECUs, as well as other vehicle and/or auxiliary components (e.g., the alarm system, the rear seat presence detector 32 , the rear seat buckle sensor 34 , etc.) in communication with the VCS 400 .
- the data processor 404 can communicate with any one of the ECUs and the data storage device 402 via the data bus 406 in order to carry out one or more functions, including the functions associated with the child seat monitoring module 12 .
- the TCU 408 can be an ECU for enabling the vehicle 300 to connect to one or more wireless networks, such as, for example, WiFi, WiMax, cellular (e.g., GSM, GPRS, LTE, 3G, 4G, CDMA, etc.), Bluetooth, near-field communication (NFC), radio-frequency identification (RFID), satellite, dedicate short-range communication (DSRC), Global Positioning System (GPS), and infrared networks.
- the TCU 408 includes a wireless communication module 410 comprising one or more antennas, radios, modems, receivers, and/or transmitters (not shown) for connecting to, or interfacing with, the various wireless networks.
- the TCU 408 can receive external data via the wireless communication module 410 and provide the external data to an appropriate ECU of the VCS 400 .
- the TCU 408 can receive internal data from one or more ECUs and/or the data processor 404 with instructions to transmit the internal data to a component of the vehicle system 20 , such as, for example, the key fob 36 , and/or the mobile application 38 via a remote server (not shown).
- the wireless communication module 410 can include a short-range transceiver 412 for wirelessly communicating with the rear wireless unit 66 and/or the wireless unit 64 of the child seat monitoring system 10 using short-range wireless communication technology (e.g., Bluetooth, NFC, RFID, etc.).
- the wireless unit 66 can be included in the wireless communication module 410 such that the TCU 408 directly communicates with the wireless unit 64 of the child seat adapter 60 .
- Data or output signals received by the wireless communication module 410 from the wireless unit 64 can be provided to the data processor 404 , via the vehicle data bus 406 , for processing by the child seat monitoring module 12 .
- the TCU 408 can enable the VCS 400 , or the vehicle 300 , to pair with a user device (e.g., mobile phone, tablet, personal computer, etc.) of the vehicle operator, or more specifically mobile application 38 running on the mobile device, using Bluetooth, WiFi, cellular, or other wireless communication network.
- the VCS 400 can communicate vehicle information to the vehicle operator or other user through the user device and/or the mobile application 38 .
- the VCS 400 may communicate notifications (generated by the child seat monitoring module 12 ) to the user device for display thereon via the mobile application 38 .
- the notifications displayed using the mobile application 38 may include pictorial messages, such as, e.g., the icons 52 , 54 , 56 , and 58 shown in FIGS.
- the TCU 408 can also be used to communicate with a remote server (not shown) associated with a manufacturer of the vehicle 300 , the VCS 400 , and/or an infotainment system of the vehicle 300 , such as the FORD SYNC® system.
- the human-machine interface (HMI) 28 (also referred to as a “user interface”) can be an ECU for enabling user interaction with the vehicle 300 and for presenting vehicle information to the vehicle operator or driver.
- the HMI 28 comprises an instrument panel (IP) 414 of the vehicle 300 , as well as one or more input devices 416 and/or output devices 418 for inputting, entering, receiving, capturing, displaying, or outputting data associated with the vehicle computing system 400 , the child seat monitoring module 12 , or the techniques disclosed herein.
- IP instrument panel
- the display 419 is included in the HMI 28 separate from the instrument panel 414 and can be used to display other vehicle information, such as, for example, navigation system information, audio system information, video captured by an external vehicle camera (not shown), image(s) captured by the in-vehicle camera 308 , heating and air/conditioning information, etc.
- the VCS 400 may communicate notifications generated by the child seat monitoring module 12 to the user via the display 419 and/or the instrument panel 414 , for example, by displaying the icons 52 - 58 as one of the vehicle indicators or by displaying the image captured by the in-vehicle camera 308 to alert the vehicle operator to the presence of a child in the child seat 100 .
- the input devices 416 can include, for example, one or more of a keyboard, keypad, pointing device (e.g., electronic or optical mouse), touch input device, microphone, voice or speech recognition module, button or push button, slider, switch, knob, dial, and any other type of input device.
- the output devices 418 can include, for example, one or more of audio speaker(s), other sound-making or audio device(s), display screen(s), light(s), and any other type of output device.
- the HMI 28 can be configured to interact with the other ECUs of the VCS 400 and/or the data processor 404 via the data bus 406 in order to provide information or inputs received via the HMI 28 to an appropriate component of the VCS 400 and to present, to the vehicle operator, information or outputs received from the various components of the VCS 400 .
- the body control module (BCM) 26 can be an ECU configured for controlling and monitoring various electronic accessories in a body of the vehicle 300 .
- the BCM 26 includes a power doors control unit 420 for controlling the vehicle doors 50 , including locking, unlocking, opening, and/or closing the doors 50 .
- the BCM 26 can also include a power windows control unit 422 for controlling the vehicle windows 48 and/or a power roof unit (e.g., moonroof, sunroof, convertible top, etc.), including opening and closing the windows 48 or the roof unit.
- the power doors control unit 420 and the power windows control unit 422 are included in a separate ECU known as the door control module 424 .
- the BCM 26 can further include an interior lights control unit 426 for controlling the cabin light 44 and any other interior lighting in the cabin area of the vehicle 300 .
- the BCM 26 can include an exterior lights control unit 428 for controlling the headlights 42 a , the taillights 42 b , and any other lights on an exterior of the vehicle 300 .
- the BCM 26 can also include an air conditioning and/or heating control unit 430 for controlling an air-condition unit and a heating unit of the vehicle 300 .
- the BCM 26 may further include control units for controlling other electronically-powered components in the body of the vehicle 300 , such as, for example, power mirrors and power seats.
- the powertrain control module (PCM) 24 can be an ECU for controlling and monitoring the engine and transmission of the vehicle 300 .
- the PCM 24 can be separated into two separate ECUs, specifically an engine control unit and a transmission control unit. In either case, the PCM 24 can be configured to control starting and stopping of the engine of the vehicle 300 .
- the PCM 24 can include an ignition switch sensor 432 for detecting a position of the ignition switch 312 , where the ignition switch can be moved between, for example, an ignition “ON” position, an ignition “OFF position, a “start” (or crank) position, a “lock” position, and/or an “accessory” (or battery) position.
- the PCM 24 can include a gear position sensor 433 for detecting a position of the gear selector 314 (e.g., P, R, N, D, or L).
- the ignition switch sensor 432 can be included in, or coupled to, the ignition switch 312 and configured to transmit a detected ignition switch position to the PCM 24 .
- the gear position sensor 433 can be included in, or coupled to, the gear selector 314 and configured to transmit a detected gear position to the PCM 24 .
- the PCM 24 can be configured to provide the detected gear position and/or the detected ignition switch position to the data processor 404 , via the vehicle data bus 406 , for processing by the child seat monitoring module 12 .
- the VCS 400 further includes a remote keyless system (RKS) unit 434 for controlling and monitoring remote, keyless interactions between the key fob 36 and the vehicle 300 .
- the RKS unit 434 can include a remote keyless entry system and in some cases, a remote keyless ignition system. In the latter case, the RKS unit 434 may be referred to as a “passive entry passive start” (PEPS) system.
- PEPS passive entry passive start
- the RKS unit 434 is a separate, stand-alone ECU that is interconnected to the BCM 26 , PCM 24 , TCU 408 , and other ECUs of the VCS 400 via the vehicle bus 406 in order to carry out the RKS/PEPS operations.
- the RKS unit 434 may receive vehicle commands from the key fob 36 via the TCU 408 , process the commands to identify the appropriate ECU for carrying out the command, send the command to the identified ECU, and confirm performance of the command.
- the RKS unit 434 may be comprised of multiple segments that are incorporated into various ECUs of the VCS 400 , such as, for example, the BCM 26 , the PCM 24 , and/or the TCU 408 , to process the RKS/PEPS commands received at each ECU.
- the RKS unit 434 may be included within one ECU, such as, e.g., the TCU 408 , in order to handle or process RKS/PEPS commands as they are received by the wireless communication module 410 of the TCU 408 .
- the VCS 400 may communicate notifications generated by the child seat monitoring module 12 to the user via the key fob 36 , for example, by flashing, blinking, or otherwise illuminating one or more lights (e.g., light emitting diodes (LEDs)) included on the key fob 36 , or displaying a pictorial textual message on a display screen (not shown) of the key fob 36 .
- lights e.g., light emitting diodes (LEDs)
- the restraint control module (RCM) 22 can be an ECU for controlling and monitoring a restraint system (not shown) of the vehicle 300 , including the rear seat belt system 202 of the rear seat 302 , a seat belt system of the driver's seat 304 , and a seat belt system of the front passenger's seat 306 , and a supplemental restraint system (SRS) (not shown), including one or more vehicle airbags.
- the RCM 22 can include a seat belt buckle sensing unit 436 configured to monitor a buckle status of the seat belt buckles in the vehicle 300 .
- the seat belt buckle sensing unit 436 includes, or is communicatively coupled to, the rear seat buckle sensor 34 .
- the seat belt buckle sensing unit 436 is communicatively coupled to the child seat buckle sensor(s) 14 via the rear seat buckle sensor 34 and/or the child seat adapter 60 shown in FIG. 7 .
- the seat belt buckle sensing unit 436 can receive output signals transmitted by the child seat sensors 19 and provide them to the child seat monitoring module 12 via the vehicle data bus 406 for processing in accordance with the techniques described herein.
- the RCM 22 can further include a seat presence detection unit 438 configured to monitor a presence status for each of the seats 302 , 304 , and 306 in the vehicle 300 .
- the seat presence detection unit 438 can be an occupant classification system (OCS) for detecting the presence of, and distinguishing between, vehicle occupants in each of the seats 302 , 304 , and 306 .
- OCS occupant classification system
- the seat presence detection unit 438 can include, or be communicatively coupled to, the rear seat presence detector 32 .
- the rear seat presence detector 32 may transmit an output signal indicative of a measured weight or pressure detected on the rear seat 302 .
- the vehicle OCS can determine an occupant's size and/or whether an adult, child, or car seat is sitting on the rear seat 302 .
- the vehicle OCS can also receive output signals from the rear seat belt system 202 of the vehicle 300 , including, for example, whether the seat belt system 202 is buckled and/or a measured tension in the seat belt 203 , in order to determine whether a child seat is occupying the rear seat 302 versus a heavy object or an adult.
- An output of the seat presence detection unit 438 can be provided to the child seat monitoring module 12 , via the vehicle data bus 406 , for processing in accordance with the techniques described herein.
- the data processor 404 can comprise one or more of a microprocessor, a microcontroller, a programmable logic array, an application-specific integrated circuit, a logic device, or other electronic device for processing, inputting, outputting, manipulating, storing, or retrieving data.
- the VCS 400 can comprise a general purpose computer that is programmed with various programming instructions or modules stored in the data storage device 402 (e.g., electronic memory), or elsewhere.
- the data storage device 402 can comprise one or more of electronic memory, nonvolatile random access memory (e.g., RAM), flip-flops, a computer-writable or computer-readable storage medium, a magnetic or optical data storage device, a magnetic or optical disc drive, a hard disk drive, or other electronic device for storing, retrieving, reading, or writing data.
- the data storage device 304 stores one or more software program modules or software instructions, including the child seat monitoring module 12 , for execution by the data processor 404 .
- the data storage device 402 also stores pictorial icons, textual messages, or other warnings 440 configured to alert the driver of the vehicle 300 to an alarm condition, including the icons 52 - 58 shown in FIGS. 6A-6D .
- FIG. 8 illustrates an example method 700 for providing child seat monitoring in a vehicle (such as, e.g., the vehicle 300 shown in FIG. 4 ), in accordance with embodiments.
- the method 700 can be carried out by one or more processors (or controllers) included in, for example, a child seat monitoring system (such as, e.g., the child seat monitoring system 10 shown in FIG. 1 ), a vehicle system (such as, e.g., the vehicle system 20 shown in FIG. 1 ), and/or a vehicle computing system itself (such as, e.g., the vehicle computing system 400 shown in FIG. 5 ).
- a child seat monitoring system such as, e.g., the child seat monitoring system 10 shown in FIG. 1
- vehicle system such as, e.g., the vehicle system 20 shown in FIG. 1
- a vehicle computing system itself such as, e.g., the vehicle computing system 400 shown in FIG. 5 .
- the method 700 is implemented, at least in part, by the data processor 404 of the VCS 400 executing software stored in the data storage device 402 , such as, e.g., the child seat monitoring module 12 , and interacting with one or more components of the VCS 400 and/or the child seat monitoring system 10 coupled thereto.
- the method 700 can begin at step 702 where the processor and/or the child seat monitoring module receives an input signal from a powertrain control module (such as, e.g., the PCM 24 ) of the vehicle and/or an ignition switch sensor (such as, e.g., the ignition switch sensor 432 shown in FIG. 7 ), the input signal indicating that ignition is on (e.g., the ignition switch is turned to the “on” position).
- a powertrain control module such as, e.g., the PCM 24
- an ignition switch sensor such as, e.g., the ignition switch sensor 432 shown in FIG. 7
- the input signal indicating that ignition is on e.g., the ignition switch is turned to the “on” position
- the method 700 continues to step 704 to determine whether the presence of a child seat (such as, e.g., the child seat 100 or the child seat 200 ) has been detected in a rear seat of the vehicle (e.g., the rear seat 302 shown in FIG.
- the determination at step 704 can be made based on input signals received from a rear seat presence detector in the rear seat of the vehicle (such as, e.g., the rear seat presence detector 32 shown in FIG. 1 ) and a child presence detector in the child seat (such as, e.g., the child presence detector 17 ). Both of these input signals may be received via a restraint control module of the vehicle (such as, e.g., the RCM 22 shown in FIG. 5 ) that is coupled to, or includes, the presence-detecting devices connected to the rear seat and the child seat. If a child and a child seat are not detected at step 704 , the method 700 can loop back to the beginning and keep checking for the child and child seat presence as long as the ignition status is “on.”
- step 704 the method 700 can continue to step 706 to determine whether the vehicle gearshift (e.g., the gearshift 314 shown in FIG. 4 ) is in a “park” position or a non-park position (e.g., drive, reverse, neutral, low gear, etc.). The determination at step 706 can be made based on an input signal received from the gearshift of the vehicle, a gear position sensor (e.g., the gear position sensor 433 shown in FIG. 5 ), and/or the powertrain control module, the input signal indicating the selected gear. If the vehicle is in park, the method 700 continues to step 708 to determine whether an engine of the vehicle is has been turned off, for example, based on a current position of the ignition switch.
- a gear position sensor e.g., the gear position sensor 433 shown in FIG. 5
- step 708 determine whether an engine of the vehicle is has been turned off, for example, based on a current position of the ignition switch.
- the method 700 determines whether the vehicle ignition switch is in the “off” position (e.g., the vehicle has been parked and is turned off) or in the “on” position (e.g., the vehicle has been parked and is still on). If the engine is still on (e.g., a determination of “no” at step 708 ), the method 700 loops back to step 706 to determine whether the vehicle gearshift position is still in “park.” The method 700 may continue to loop between steps 706 and 708 as long as the vehicle gear is in park and the ignition switch is on (e.g., while the engine is running idle).
- step 706 the gearshift position is in a non-park position, for example, because the gearshift has been moved to the “reverse” or “drive” position (e.g., the determination at step 706 is “no”)
- the method 700 continues to step 710 to determine whether a seat belt buckle of the child seat is on or fastened.
- the determination at step 710 can be made based on an input signal received from the RCM and/or the child seat monitoring system. For example, if the child seat is using the rear seat belt of the vehicle to secure the child into the child seat (such as, e.g., the child seat 200 shown in FIG.
- the RCM can receive buckle status information from a rear seat buckle sensor included in a rear seat belt system of the vehicle (such as, e.g., the rear seat buckle sensor 34 ) and provide the received buckle status information to the processor and/or the child seat monitoring module.
- a rear seat buckle sensor included in a rear seat belt system of the vehicle such as, e.g., the rear seat buckle sensor 34
- the child seat has an independent restraint system (such as, e.g., the restraint system 103 of the child seat 100 shown in FIG. 2 )
- an adapter coupled to the child seat e.g., the child seat adapter 60 shown in FIG. 7
- can receive child seat buckle status information from a child seat buckle sensor included in the child seat such as, e.g., the child seat buckler sensor 14 shown in FIG. 1 ) and provide the received buckle status information to the processor and/or the child seat monitoring module.
- the method 700 continues to the step 712 to present an alert or other notification (e.g., from the first set of notifications) through an instrument panel (e.g., cluster or dashboard) or display screen of the vehicle (such as, e.g., the HMI 28 shown in FIG. 5 ).
- the notification may be a visual or pictorial warning that is displayed on a display of the vehicle dashboard (e.g., the display 419 shown in FIG. 5 ).
- the notification icons 52 or 56 may be displayed in a flashing state or with a circle around it and a diagonal line across the icon in order to indicate that a proper buckle status has not been detected.
- the icon 52 may be displayed when the child seat 100 is detected in the rear seat, and the icon 56 may be used when the child seat 200 is detected in the rear seat.
- the notification may be an audible alert, such as, e.g., a chime, alarm, or audio message, that is transmitting through an audio speaker or other audio device of the vehicle dashboard.
- a combination of the visual warning and the audible warning may be presented to the vehicle operator on the vehicle dashboard.
- step 714 to wait for a predetermined amount of time (X) (e.g., ten to twenty seconds) (e.g., using a timer of the vehicle computing system) before repeating the determination at step 710 .
- X a predetermined amount of time
- This provides the driver with an opportunity to buckle the child seat belt before the child monitoring module and/or the processor re-checks the child seat buckle status.
- the method 700 may continue to loop through steps 710 , 712 , and 714 until the child seat buckle is properly buckled, or until the vehicle is turned off.
- step 710 if the determination at step 710 is “yes” (e.g., the child seat buckle is on), the method 700 continues back to step 706 to re-check the gear status of the vehicle. So long as the vehicle is in a gear other than park (e.g., a non-parking position), the method 700 continues to monitor the buckle status of the child seat in accordance with step 710 . As a result, the child seat monitoring module can help ensure that the child seat is properly buckled whenever the vehicle is moving or not parked (e.g., during a driving event).
- step 710 determines whether the child seat belt is properly positioned over the child in the child seat.
- the determination at step 716 can be made based on an input signal received from the RCM and/or a child seat belt sensor in the child seat (e.g., the child seat belt sensor 16 shown in FIG. 2 ), the input signal indicating a belt position status of the child seat belt.
- the RCM may receive seat belt position information from the rear seat belt system and may provide the received information to the processor and/or the child seat monitoring module.
- the method 700 continues to step 718 to present an alert or other notification (e.g., form the first set of notifications) through the instrument panel or display screen of the vehicle.
- the notification may be a visual or pictorial warning that is displayed on a display of the vehicle dashboard.
- the notification icon 54 may be displayed if the lap belt is too low or around the legs of the child, and the notification icon 58 may be displayed if the lap belt is too high or on the abdomen of the child.
- buttons or graphical warnings may be displayed specific to the belt position detected by the child seat belt sensor and may include, for example, an icon specific to the child seat 100 .
- the notification may be an audible alert, such as, e.g., a chime, alarm, or audio message, that is transmitting through an audio speaker or other audio device of the vehicle dashboard.
- a combination of the visual warning and the audible warning may be presented to the vehicle operator on the vehicle dashboard.
- step 720 to wait for a predetermined amount of time (X) (e.g., ten to twenty seconds) before repeating the determination at step 716 .
- X a predetermined amount of time (e.g., ten to twenty seconds)
- the method 700 may continue to loop through steps 716 , 718 , and 720 until the child seat belt is properly positioned, or until the vehicle is turned off.
- the method 700 further includes step 722 to determine whether the child seat is properly attached to the vehicle.
- Step 722 can occur substantially simultaneously with step 706 , or at a different, adjacent point in time (e.g., sequentially before or after).
- the determination at step 722 can be made based on an input signal received from the RCM and/or a child seat attachment sensor in the child seat (e.g., the child seat attachment sensor 18 shown in FIG. 2 ), the input signal indicating an attachment status of the child seat.
- the RCM may receive the attachment status information from the child seat adapter coupled to the rear seat belt sensor of the vehicle or the RCM itself. If the determination at step 722 is “yes” (e.g., the child seat is attached properly), the method 700 continues back to step 706 to determine whether the gearshift of the vehicle is in the “park” position or in a non-park position.
- step 722 determines whether the car seat is properly attached. If, on the other hand, the determination at step 722 is “no” (e.g., the car seat is not properly attached), a driving alarm condition is detected, and the method 700 continues to step 724 to present an alert or notification (e.g., from the first set of notifications) through the instrument panel or display screen of the vehicle.
- the notification may be a visual or pictorial warning that is displayed on a display of the vehicle dashboard and graphically indicates the attachment status of the child seat (e.g., an icon showing the areas of the child seat tether system that are not attached).
- the notification may be an audible alert, such as, e.g., a chime, alarm, or audio message, that is transmitting through an audio speaker or other audio device of the vehicle dashboard.
- an audible alert such as, e.g., a chime, alarm, or audio message
- a combination of the visual warning and the audible warning may be presented to the vehicle operator on the vehicle dashboard.
- step 726 to wait for a predetermined amount of time (X) (e.g., ten to twenty seconds) before repeating the determination at step 722 .
- X a predetermined amount of time (e.g., ten to twenty seconds)
- the method 700 may continue to loop through steps 722 , 724 , and 726 until the child seat tethers are properly attached, or until the vehicle is turned off.
- step 728 determines whether the child seat belt buckle is off or unbuckled.
- the determination at step 728 can be made based on an input signal received from the RCM and/or the child seat buckle sensor, the input signal indicating the buckle status of the child seat belt.
- the RCM may receive buckle status information from the rear seat buckle sensor and may provide the received information to the processor and/or the child seat monitoring module.
- the RCM may receive the child seat buckle status information from the child seat adapter coupled to either the rear seat buckle sensor of the vehicle or the RCM itself. If the determination at step 728 is “yes” (e.g., the child seat belt is unbuckled), the method 700 may end.
- the method 700 continues to step 730 to present a first alert or notification (e.g., the initial notification from the second set of notifications) on the instrument panel or display screen of the vehicle.
- the first notification may be a visual or pictorial warning that is displayed on a display of the vehicle dashboard.
- the notification icon 52 may be displayed if the child seat 100 is detected in the vehicle, and the notification icon 56 may be displayed if the child seat 200 is detected in the vehicle.
- buttons or graphical messages may also be displayed, including, for example, a “warning” label or a textual reminder to unbuckle the child seat.
- the notification may be an audible alert, such as, e.g., a chime, alarm, or audio message, that is transmitting through an audio speaker or other audio device of the vehicle dashboard.
- a combination of the visual warning and the audible warning may be presented to the vehicle operator on the vehicle dashboard.
- the subsequent notification(s) can include one or more of (i) a light-based alert (e.g., turning on interior lights (e.g., the cabin lights 44 shown in FIG. 4 ) if an external environment of the vehicle is dark or has low-lighting, turning on or flashing vehicle lights (e.g., headlights 42 a and/or taillights 42 b ), or blinking key fob light(s) (e.g., on the key fob 36 shown in FIG. 1 )); (ii) an audible alarm (e.g., sounding a vehicle horn (e.g., the horn 40 shown in FIG.
- a light-based alert e.g., turning on interior lights (e.g., the cabin lights 44 shown in FIG. 4 ) if an external environment of the vehicle is dark or has low-lighting, turning on or flashing vehicle lights (e.g., headlights 42 a and/or taillights 42 b ), or blinking key fob light(s) (
- an alarm system e.g., the alarm system 30
- a graphical warning e.g., displaying one of the icons 52 or 56 on a mobile device of the vehicle operator (e.g., using the mobile application 38 shown in FIG. 1 )
- an automatic system override e.g., turning on a vehicle A/C and heating system (e.g., the A/C and heating system 46 shown in FIG. 1 ), opening vehicle windows (e.g., the windows 48 shown in FIG. 4 ), and/or unlocking vehicle doors (e.g., the vehicle doors 50 shown in FIG. 4 ).
- the child seat monitoring system 10 can be manually turned on or off by the vehicle operator.
- the vehicle operator may activate the child seat monitoring system 10 after placing a child in the child seat 100 and starting the engine of the vehicle 300 .
- the method 700 may begin at step 706 and may not include steps 702 and 704 .
- the child seat monitoring module 10 can be automatically activated by the data processor 404 each time the vehicle engine is turned on. In such cases, the method 700 may begin at step 702 as shown in FIG. 8 .
- the process descriptions or blocks in the figures, such as FIG. 8 can represent modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps in the process. Any alternate implementations are included within the scope of the embodiments described herein, in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those having ordinary skill in the art.
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Abstract
Embodiments include a vehicle comprising a user interface, a first sensor coupled to a child seat for detecting a child seat belt status; a gear selector for selecting a vehicle gear, and a processor communicatively coupled to the first sensor and the gear selector, and configured to cause the user interface to present a first notification if a first alarm condition is detected based on the child seat belt status and a selected gear. Embodiments also include a method of providing child seat monitoring in a vehicle, the method comprising receiving a gear position from a vehicle gear selector, receiving a child seat belt status from a first sensor coupled to a vehicle child seat, and presenting a first notification using a vehicle user interface if the gear position is a non-park position and the child seat belt status is unbuckled.
Description
- This application generally relates to child seats in a vehicle, and more specifically, to monitoring the status of a child seat installed in a vehicle.
- Many vehicles include a front seat belt monitoring system that outputs a warning or alert signal (e.g., an audible alarm or beep) if the driver-side seatbelt and/or the front passenger-side seatbelt is unbuckled. Some vehicles also include a rear seatbelt monitoring system that outputs a warning if one of the rear seatbelts is unbuckled. Both types of monitoring systems typically include a presence detection component that determines whether a person is sitting in the seat before checking a seat belt status. In some vehicles, in addition to, or instead of, the audible alarm, a warning icon or image of an unbuckled seatbelt is displayed on a display screen of the instrument panel or dashboard of the vehicle. Also in some vehicles, an unbuckled rear seatbelt warning may differ from an unbuckled front seat belt warning, so that the driver can easily differentiate between the two types of warnings and quickly identify the seat with an unbuckled seatbelt.
- Some vehicles also include a child seat monitoring system that outputs one or more warnings depending on a child seat status. For example, one type of child seat monitoring system detects whether the child seat is installed in the vehicle according to pre-existing installation guidelines, monitors a seatbelt buckle status and other conditions of the child seat, and outputs child seat status information via a user interface or display screen of the system. Another type of child seat monitoring system detects the presence of an unattended child within the vehicle and outputs an audible warning and/or other notification designed to alert the driver, or other nearby person(s), to the situation.
- However, existing systems are not capable of monitoring a status of the child seat, child seat belt, and/or child seat belt buckle when the vehicle ignition is “on” and the vehicle gear is in “drive,” and continuing to monitor the status of the child seat belt buckle when the vehicle gear is in “park” and/or the vehicle ignition is “off.” For example, existing child seat monitoring systems are not able to notify the driver if the child seat belt becomes unbuckled while driving and also notify the driver if a child remains buckled in the child seat after the driver has parked and/or exited the vehicle. Accordingly, there is still a need in the art for vehicle systems and methods that can provide comprehensive child seat monitoring.
- The invention is intended to solve the above-noted and other problems by providing comprehensive vehicle child seat monitoring systems and methods that can (1) monitor the status of a child seat belt buckle and output one or more warnings if the seat belt is unbuckled while the vehicle gear is in “drive” or other non-park position, and (2) monitor the status of the child seat belt buckle and output one or more warnings if the seat belt remains buckled while the ignition is “off.”
- For example, one embodiment provides a vehicle comprising a user interface, a first sensor coupled to a child seat for detecting a child seat belt status, a gear selector for selecting a vehicle gear, and a processor communicatively coupled to the first sensor and the gear selector, and configured to cause the user interface to present a first notification if a first alarm condition is detected based on the child seat belt status and a selected gear.
- Another example embodiment provides a method of providing child seat monitoring in a vehicle, the method comprising receiving a gear position from a vehicle gear selector, receiving a child seat belt status from a first sensor coupled to a vehicle child seat, and presenting a first notification using a vehicle user interface if the gear position is a non-park position and the child seat belt status is unbuckled.
- As will be appreciated, this disclosure is defined by the appended claims. The description summarizes aspects of the embodiments and should not be used to limit the claims. Other implementations are contemplated in accordance with the techniques described herein, as will be apparent to one having ordinary skill in the art upon examination of the following drawings and detail description, and such implementations are intended to within the scope of this application.
- For a better understanding of the invention, reference may be made to embodiments shown in the following drawings. The components in the drawings are not necessarily to scale and related elements may be omitted, or in some instances proportions may have been exaggerated, so as to emphasize and clearly illustrate the novel features described herein. In addition, system components can be variously arranged, as known in the art. Further, in the drawings, like reference numerals designate corresponding parts throughout the several views.
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FIG. 1 is a block diagram of an exemplary child seat monitoring system coupled to an example vehicle system in accordance with certain embodiments. -
FIG. 2 is an illustration of an exemplary child seat comprising one or more components of the child seat monitoring system ofFIG. 1 in accordance with certain embodiments. -
FIG. 3 is an illustration of another exemplary child seat comprising one or more components of the child seat monitoring system ofFIG. 1 in accordance with certain embodiments. -
FIG. 4 is an illustration of an exemplary vehicle associated with the vehicle system shown inFIG. 1 , in accordance with certain embodiments. -
FIG. 5 is a block diagram showing an exemplary vehicle computing system of the vehicle shown inFIG. 4 , in accordance with certain embodiments. -
FIGS. 6A-D are illustrations of exemplary notification icons for display on a display screen of the vehicle shown inFIG. 1 , in accordance with certain embodiments. -
FIG. 7 is another block diagram of the exemplary child seat monitoring system and vehicle system shown inFIG. 1 , in accordance with certain embodiments. -
FIG. 8 is a flow diagram of an example method for providing child seat monitoring in a vehicle, in accordance with certain embodiments. - While the invention may be embodied in various forms, there are shown in the drawings, and will hereinafter be described, some exemplary and non-limiting embodiments, with the understanding that the present disclosure is to be considered an exemplification of the invention and is not intended to limit the invention to the specific embodiments illustrated.
- In this application, the use of the disjunctive is intended to include the conjunctive. The use of definite or indefinite articles is not intended to indicate cardinality. In particular, a reference to “the” object or “a” and “an” object is intended to denote also one of a possible plurality of such objects.
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FIG. 1 illustrates an exemplary childseat monitoring system 10 configured to monitor one of more aspects of a vehicle child seat and a vehicle in which the child seat is installed, and upon detecting an alarm condition, cause the vehicle to output one or more notifications for alerting a vehicle driver, or other person(s) near the vehicle, to the alarm condition, in accordance with embodiments. As shown, the childseat monitoring system 10 includes a childseat monitoring module 12 and one or more child seat buckle sensor(s) 14. In some embodiments, the childseat monitoring system 10 can also include one or more child seat attachment sensor(s) 16, child presence detector(s) 17, and/or child seat belt sensor(s) 18. Each of the child seat buckle sensor(s) 14, the child seat belt sensor(s) 16, the child presence detector(s) 17, and the child seat attachment sensor(s) 18 (collectively referred to herein as “child seat sensors 19”) can be communicatively coupled to the childseat monitoring module 12 in order to provide sensor or status information (e.g., in the form of input signals) to themodule 12. The childseat monitoring module 12 is also communicatively coupled to avehicle system 20 comprising various components included in, or associated with, a vehicle (not shown). The childseat monitoring module 12 receives vehicle information from, and provides command signals to, thevehicle system 20. For example, in embodiments, the childseat monitoring module 12 is configured for, or capable of, receiving vehicle information from thevehicle system 20; receiving sensor information from one or more of thechild seat sensors 19; based on the received information, determining whether an alarm condition exists; and if an alarm condition exists, causing thevehicle system 20 to output one or more notifications to alert a driver or other person(s) near the vehicle to the alarm condition. - Various components of the child
seat monitoring system 10 can be included in the child seat (such as, e.g.,such child seat 100 shown inFIG. 2 orchild seat 200 shown inFIG. 3 ), in the vehicle (such as, e.g.,vehicle 300 shown inFIG. 4 ), or in the vehicle computing system of the vehicle (such as, e.g., vehicle computing system (VCS) 400 shown inFIG. 5 ). For example, in embodiments, one or more of the child seat buckle sensor(s) 14, the child seat belt sensor(s) 16, the child presence detector(s) 17, and the child seat attachment sensor(s) 18 can be integrated into, or attached to, thecar seat 100 and/or 200. As another example, the childseat monitoring module 12 comprises program modules or software instructions that can be stored in adata storage device 402 and executed by adata processor 404 of thevehicle computing system 400, as described in more detail below. - Various components of the
vehicle system 20 may be integrated into thevehicle 300, associated with thevehicle 300, and/or included in thevehicle computing system 400. For example, as shown inFIG. 1 , thevehicle system 20 includes a restraint control module (RCM) 22, apowertrain control module 24, abody control module 26, and a human-machine interface (HMI) 28, all of which can be included in theVCS 400, as shown inFIG. 5 and described in more detail below. As another example, thevehicle system 20 also includes analarm system 30, a rearseat presence detector 32, and a rearseat buckle sensor 34, all of which can be included in thevehicle 300 as described in more detail below. As a further example, in some cases, thevehicle system 20 includes akey fob 36 and amobile application 38, both of which may be associated with, or wirelessly linked to or paired with, thevehicle 300 to provide remote access to one or more functions of thevehicle 300, as will be appreciated. - According to embodiments, the notifications provided through the
vehicle system 20 to alert the driver or other person(s) to an alarm condition can be selected from one or more of the following categories: (i) a graphical warning (e.g., a textual message and/or pictorial icon, such as, e.g.,icons FIGS. 6A-6D ) displayed on a display included in the human-machine interface 28, another portion of thevehicle 300, or a mobile device running themobile application 38; (ii) an audible alarm (e.g., a chime, horn sound, buzzer sound, voice command, etc.) transmitted through an audio speaker or other sound-making device included in theHMI 28, thealarm system 30, avehicle horn 40, another portion of thevehicle 300, or thekey fob 36; (iii) a light-based alert (e.g., a flashing or blinking light, turning on a light, etc.) provided byvehicle lights 42 included on an exterior body of the vehicle 300 (e.g., headlights, taillights, parking lights, etc.),cabin lights 44 included in an interior space of thevehicle 300, or lights (e.g., light-emitting diodes (LEDs)) included in thekey fob 36, theHMI 28, or another portion of thevehicle 300; and (iv) an automatic system override (e.g., disabling or enabling a system, turning a system on or off, etc.) applied to a vehicle air-conditioning (A/C) andheating system 46,vehicle windows 48, vehicle doors 50 (including, for example, door locks), or other vehicle system or device. - The child
seat monitoring module 12 can be configured to select one or more of the notification categories and a predetermined source for each selected notification category based on the type of alarm condition detected by the childseat monitoring module 12. In embodiments, an alarm condition detected during a driving event (e.g., when a vehicle ignition is “on” and vehicle gear is not in “park”) can trigger a first set of notifications, and an alarm condition detected during a non-driving event (e.g., when the vehicle ignition is “off”) can trigger a second set of notifications. The first set of notifications can include, for example, one or more of a graphical warning, an audible alarm, and a light-based alert that is presented through theHMI 28, and can be repeated if the alarm condition is not removed within a predetermined time period. In one embodiment, the first set of notifications includes presentation of a select one of the icons 52-58 on a display screen of theHMI 28, the exact icon depending on the type of alarm condition, as described in more detail below. In some embodiments, the first set of notifications can be continuously presented until the alarm condition is removed. In some embodiments, the first set of notifications includes two or more notifications that are simultaneously presented through the HMI 28 (e.g., a graphical warning displayed on the display screen of theHMI 28 and an audible alarm transmitted through an audio device of the HMI 28). - The second set of notifications can include a series of notifications with an escalating level of intensity or obtrusiveness between an initial notification and each subsequent notification, for example, in order to convey a growing sense of urgency as time passes and/or to ensure that a vehicle operator or other person(s) near the
vehicle 300 are effectively notified of the alarm condition in a timely manner. According to embodiments, the second set of notifications can include one or more initial notifications and one or more subsequent notifications. In some embodiments, two or more subsequent notifications are presented in conjunction or substantially at the same time (e.g., simultaneously). In other embodiments, two or more subsequent notifications are presented sequentially, for example, if the alarm condition continues to exist after a predetermined amount of time following presentation of the immediately-preceding notification. In embodiments, the subsequent notification(s) can be continuously presented until the alarm condition is removed. - In exemplary embodiments, the initial notification can be presented in an interior of the
vehicle 300 and can be similar to the notification(s) presented during a driving event (e.g., a graphical warning, an audible alarm, and/or a light-based alert presented through the HMI 28). The subsequent notification(s) can be presented in an interior and/or exterior of the vehicle 300 and can include, for example, one or more of (i) a light-based alert presented through the cabin lights 44 (e.g., turning on the cabin lights 44 if an outer environment of the vehicle 300 is dark), the exterior vehicle lights 42 (e.g., turning on or flashing the headlights, taillights or other vehicle lights 42), and/or the key fob 36 (e.g., blinking on and off a light on the key fob 36); (ii) an audible alarm presented through the vehicle horn 40 and/or the alarm system 30; (iii) a graphical warning presented on a mobile device of the vehicle operator using the mobile application 38; and (iv) an automatic system override of the vehicle A/C and heating system 46 (e.g., turning on the A/C system if the outside temperature is above a first predetermined threshold and/or turning on the heating system if the outside temperature is below a second predetermined threshold), the vehicle windows 48 (e.g., automatically opening the windows 48 a predetermined amount and disabling further control of the windows 48 until the alarm condition is removed), and/or the vehicle doors 50 (e.g., automatically unlocking the doors 50 and disabling further control of the doors 50 until the alarm condition is removed). - In embodiments, the child
seat monitoring module 12 can be configured to detect a plurality of different alarm conditions depending on the output signal(s) received from the child seat buckle sensor(s) 14 and/or the otherchild seat sensors 19. For example, a first alarm condition can be triggered upon receiving one or more output signals from thevehicle system 20 indicating that the vehicle ignition is “on” (e.g., based on an output of the powertrain control module 24), the vehicle gear is not in “park” (e.g., based on an output of the powertrain control module 24), and thechild seat 100 has an unbuckled status (e.g., based on an output of the child seat buckle sensor(s) 14). In embodiments, the first set of notifications can be presented upon detecting the first alarm condition. As another example, a second alarm condition can be triggered upon receiving one or more output signals from thevehicle 20 indicating that the vehicle ignition is “off” and thechild seat 100 has a buckled status. In embodiments, the second set of notifications can be presented upon detecting the second alarm condition. - The components of the child
seat monitoring system 10 and thevehicle system 20 ofFIG. 1 will now be described in more detail with reference toFIGS. 2-5 and 7 . - Referring initially to
FIG. 2 , shown is thechild seat 100 in accordance with embodiments. Thechild seat 100 includes aseat bottom 101, which provides a generally flat surface for a child to sit upon, a seat back 102 coupled to theseat bottom 101 for the child to rest his/her back upon, and arestraint system 103 coupled to theseat bottom 101 and the seat back 102 for securing the child to thechild seat 100. Therestraint system 103 includes a harness 104 (such as a five-point harness) comprising a plurality of straps that pass through slotted apertures in an internal frame (not shown) of thechild seat 100 and exit from various locations on the seat back 102 and the seat bottom 101 (e.g., above each shoulder location in the seat back 102, on either side of a lap location in theseat bottom 101, and at a front central location of the seat bottom 101). A first buckle 105 (or “lap buckle”) provides a common point for connecting together, or securing, the straps of theharness 104 over a lap of the child. A second buckle 106 (or “chest buckle”) laterally connects together, or secures, a pair of upper straps of theharness 104 over a chest of the child. Theharness 104 can be tightened or cinched to reduce any laxness or slack in the straps, so that the child is securely positioned within thechild seat 100 and thebuckles - The
child seat 100 also includes ananchor system 107 comprising a plurality of tethers 108 (or straps) for securely mounting thechild seat 100 to a vehicle, such as thevehicle 300. Afirst tether 108 a can extend across a lower portion of the seat back 102, and each end of thefirst tether 108 a can exit from an opposing lateral edge of the seat back 102, as shown. In other embodiments, thefirst tether 108 a may extend through the internal frame of thechild seat 100 or across a back side (not shown) of the seat back 102. Asecond tether 108 b can have a first end (not shown) coupled to the internal frame of thechild seat 100 and an opposing, second end that exits from a top of the seat back 102, as shown. The tethers 108 can be tightened or cinched to securely mount thechild seat 100 to the vehicle. - The
anchor system 107 also includes a plurality of anchor connectors 109 that are coupled to each end of thefirst tether 108 a and the second end of thesecond tether 108 b, respectively. Each anchor connector 109 includes a latch or hook that can be secured to one of a plurality of vehicle anchors 111, which are rigidly mounted to a structure of the vehicle at various locations of the vehicle. As shown,anchor connectors 109 a can couple the two ends of thefirst tether 108 a to vehicle anchors 111 a, which can extend upwards through a rear seat (not shown) of the vehicle.Anchor connector 109 b can couple the second end of thesecond tether 108 b tovehicle anchor 109 b, which can be positioned in a plurality of vehicle locations depending on the type of vehicle and the direction in which thechild seat 100 is facing upon installation (e.g., rear-facing or forward-facing), as will be appreciated. For example, in a van or other vehicle with more than one row of seats, thevehicle anchor 111 b may be positioned on a floor of the vehicle behind the row of seats that thechild seat 100 is mounted to. As another example, in a sedan or other vehicle with a single row of seats, thevehicle anchor 111 b may be positioned on a rear shelf of the vehicle behind the row of seats that thechild seat 100 is mounted to. - In accordance with embodiments, the
child seat 100 can include, or be coupled to, various components of the childseat monitoring system 10 in order to monitor a status of therestraint system 103 and/or theanchor system 107 of thechild seat 100. For example, thechild seat 100 can include the child seat buckle sensor(s) 14 and the child seat belt sensor(s) 16 to monitor a status of therestraint system 103. Further, thechild seat 100 can include the child seat attachment sensor(s) 17 to monitor a status of theanchor system 107. - In embodiments, the child seat buckle sensor(s) 14 can be positioned at or within one or more of the buckles included in the
child seat 100 and can be configured to transmit an output signal indicative of a buckle status of thechild seat 100. For example, as shown inFIG. 2 , a first childseat buckle sensor 14 a can be integrated into, or attached to, thelap buckle 105 of thechild seat 100 in order to detect whether thelap buckle 105 has been securely fastened or buckled, and a second childseat buckle sensor 14 b can be integrated into, or attached to, thechest buckle 106 in order to detect whether thechest buckle 106 has been securely fastened or buckled. In embodiments, the output signal transmitted by the child seat buckle sensor(s) 14 can include, for example, a high value if one of thebuckles buckles buckle - Also in embodiments, the child seat belt sensor(s) 16 can be positioned at various locations along the
harness 104 in order to determine whether theharness 104 is sufficiently taut and/or properly positioned over the child and transmit an output signal indicative of a belt status of thechild seat 100. For example, as shown inFIG. 2 , a first child seat belt sensor (or “chest belt sensor”) 16 a can be attached to one of twoupper straps 104 a included in theharness 104 and positioned adjacent to a chest of a child seated in thechild seat 100. In other embodiments, each of theupper straps 104 a can include thechest belt sensor 16 a in order to measure the tension in both of theupper straps 104 a. As also shown inFIG. 2 , a second child seat belt sensor (or “lap belt sensor”) 16 b can be attached to one of twolower straps 104 b included in theharness 104 and positioned adjacent to a lap of the child seated in thechild seat 100. In other embodiments, each of thelower straps 104 b can include thelap belt sensor 16 b in order to measure the tension in both of thelower straps 104 b. In embodiments, the childseat belt sensors 16 can be positioned on an exterior of thechild seat 100 and/or internally, for example, within the straps of theharness 104 or within theseat bottom 101 and/or the seat back 102. Further, the exact position of the childseat belt sensors 16 in thechild seat 10 can vary depending on the type of sensing technology used and the type and/or size of thechild seat 100. - In some cases, the
chest belt sensor 16 a is a force sensor configured to measure an amount of force or tension in theupper strap 104 a and thelap belt sensor 16 b is a force sensor configured to measure an amount of force or tension in thelower strap 104 b. In such cases, each of thesensors seat monitoring module 12, and themodule 12 can be configured to compare the measured tension to a predetermined threshold value to determine whether theharness 104 is sufficiently taut. Additional alternative embodiments of the child seat belt sensor(s) 16 include a torque sensor for measuring a torque value of theharness 104 about one or more of thebuckles harness 104, or any other device that is capable of sensing insufficient tightness in theharness 104. - In embodiments, the
child seat 100 can also include the childseat attachment sensors 18 positioned at various locations of theanchor system 107 in order to determine whether theanchor system 107 is tautly secured to and/or properly installed in thevehicle 300 and to transmit an output signal indicative of an attachment status of thechild seat 100. The exact position of the childseat attachment sensors 18 in theanchor system 107 can vary depending on the type of sensing technology used, the type and/or size of thechild seat 100, and the component being sensed (e.g., the tethers 108 or the anchor connectors 109). - For example, in some embodiments, the child
seat attachment sensors 18 can be tether sensors for detecting a tightness of the tethers 108. As shown inFIG. 2 , in such cases, theattachment sensors 18 can include two lower childseat attachment sensors 18 a attached to, or positioned at, either end of thefirst tether 108 a adjacent to each of theanchor connectors 109 a in order to detect whether thefirst tether 108 a is tightly secured to the rear seat of thevehicle 300. As also shown inFIG. 2 , an upper childseat attachment sensor 18 b can be attached to, or positioned at, a second end of thesecond tether 108 b adjacent to theanchor connector 109 b to detect whether thesecond tether 108 b is tightly secured to thevehicle 300. In such embodiments, each of the childseat attachment sensors tethers seat monitoring module 12. Themodule 12 can be configured to compare the measured tension in eachtether - In other embodiments, the child
seat attachment sensors 18 can be anchor sensors for detecting a proper attachment of thechild seat 100 to the anchors 111. In such cases, theattachment sensors 18 can be positioned on, or included within, one or more of the vehicle anchors 111 and/or the anchor connectors 109 to determine whether the anchor connectors 109 are securely latched to each of the vehicle anchors 111. Each of the childseat attachment sensors anchor connectors seat monitoring module 12. As an example, the output signal may have a high value if all of the anchor connectors 109 are properly latched to the respective anchors 111 and a low value if one or more of the anchor connectors 109 is not properly latched, or vice versa. - In embodiments, the
child seat 100 can also include, or have coupled thereto, thechild presence detector 17 for detecting the presence of a child within thechild seat 100 and transmitting an output signal indicating said presence. Thechild presence detector 17 can include use any suitable type of presence-detecting technology, and the exact position of thechild presence detector 17 within thechild seat 100 can vary depending on the type of sensing technology and/or the type or size of thechild seat 100. - For example, as shown in
FIG. 2 , thechild presence detector 17 can be included in, or coupled to, theseat bottom 101 of thechild seat 100. In such cases, thechild presence detector 17 can be a weight sensor for measuring a weight placed on theseat bottom 101 and transmitting an output signal indicative of the weight of the child seated in thechild seat 100. Alternatively, thechild presence detector 17 can be a pressure sensor that is triggered once a weight or pressure on theseat bottom 101 exceeds a predetermined threshold and when triggered, transmits an output signal indicating that a child has been detected in thecar seat 100. - In other cases, the
child presence detector 17 can be a proximity or infrared sensor that is positioned on one or more surfaces of thecar seat 100 and is capable of detecting an object placed in a detection path of the sensor. For example, an infrared sensor may be positioned in opposing sides of thechild seat 100. As another example, a proximity sensor may be positioned in theseat bottom 101 and/or the seat back 102. - As will be appreciated, the
car seat 100 shown inFIG. 2 can be any type of child seat that includes a harness (or the restraint system 103) and a tether (or the anchor system 107), including, for example, a “convertible” car seat (e.g., a child seat that can be changed from a rear-facing position to a forward-facing position), an “all-in-one” car seat (e.g., a child seat that can change from a rear-facing seat to a forward-facing seat and then to a booster seat), and a “combination” car seat (e.g., a child seat that can transition from a forward-facing seat to a booster seat). In embodiments, the childseat monitoring system 10 can be adapted for a child seat that does not include a harness and/or a tether, such as, for example, a backless booster seat or a high back booster seat. - For example, referring additionally to
FIG. 3 , shown is an exemplary child seat 200 (e.g., a high back booster seat) without a harness or tether system. A child seated in thechild seat 200 can be secured to thechild seat 200 using a rearseat belt system 202, such as, for example, the seat belt system for arear seat 302 of thevehicle 300. As will be appreciated, the rearseat belt system 202 includes a seat belt 203 (also referred to as “webbing”), atongue portion 204, and abuckle portion 206. The seat belt 203 has two fixed ends (not shown) that are coupled to thevehicle 300 and afree end 207 that is attached to thetongue portion 204. Thetongue portion 204 is configured for insertion into, or attachment to, thebuckle portion 206. - As shown in
FIG. 3 , thebuckle portion 206 can include the rearseat belt sensor 34 for detecting whether thetongue portion 204 is coupled to thebuckle portion 206 and transmitting an output signal indicative of a buckle status of the rearseat belt system 202. For example, the output signal may be a high value if the rearseat belt system 202 is properly buckled and a low value if the rearseat belt system 202 is unbuckled, or vice versa. In embodiments, the output signal can be provided to the restraint control module (RCM) 22 of thevehicle system 20 and/or thevehicle computing system 400, and theRCM 22 can provide the output signal to the childseat monitoring module 12. - As also shown in
FIG. 3 , in some embodiments, the child seat belt sensor(s) 16 can be coupled to the rearseat belt system 202 for determining whether the seat belt 203 is properly positioned on the child in thechild seat 200 and/or is sufficiently taut (e.g., by measuring a force or tension in the seat belt 203). For example, thechest belt sensor 16 a can be positioned on or attached to an upper orchest belt portion 203 a of the seat belt 203 to detect a tautness of thechest belt portion 203 a over a chest of the child. Also, thelap belt sensor 16 b can be positioned on or attached to a lower orlap belt portion 203 b of the seat belt 203 to detect a tautness of thelap belt portion 203 b across a lap of the child. As described above, the output signal(s) of the child seat belt sensor(s) 16 can be provided to the childseat monitoring module 12. In one embodiment, instead of adding the child seat belt sensor(s) 16 to the rearseat belt system 202, thevehicle system 20 may include similar seat belt sensor(s) (not shown) as part of the rearseat belt system 200. For example, a pressure sensor or force sensor may be included at one or more locations of the seat belt 203 for measuring an amount of pressure or force, respectively, that is placed on the seat belt 203. - Referring now to
FIG. 4 , shown is theexemplary vehicle 300 configured to operate with, or include, the childseat monitoring system 10, in accordance with embodiments. In addition to therear seat 302, thevehicle system 300 includes adriver seat 304 and afront passenger seat 306. As shown, therear seat 302 includes one or more rearseat presence detectors 32 for detecting the presence of a vehicle occupant and/or the child seat (e.g., thechild seat 100 or 200) in each seat of therear seat 302. The rearseat presence detector 32 can include any suitable presence detection device, such as, for example, a pressure sensor, weight sensor, proximity sensor, or infrared sensor. In some embodiments, the rearseat presence detector 32 can be part of a vehicle occupant classification system (OCS) (not shown) for detecting the presence of, and distinguishing between, vehicle occupants and child seats in each of theseats vehicle 300, as described in more detail below. - As shown in
FIG. 4 , thechild seat 100 can include thechild presence detector 17 in theseat bottom 101 of thechild seat 100 to determine whether a child is occupying thechild seat 100. In some cases, thechild presence detector 17 operates independently of the rearseat presence detector 32, such that the rearseat presence detector 32 is configured to detect the presence of the car seat or other vehicle occupant in therear seat 302 and thechild presence detector 17 is used to detect the presence of the child in thechild seat 100. In other cases, thechild presence detector 17 may not be included in thechild seat 100 and instead, the rearseat presence detector 32, and/or vehicle OCS, can be used to detect the presence of a child in thechild seat 100. - In some embodiments, the
vehicle 300 further includes an in-vehicle camera 308 for obtaining status information for thechild seat 100. Thecamera 308 can be positioned to face therear sear 302, as shown inFIG. 4 , and can include any suitable type of camera, including, for example, a dash camera, a rear view camera, an infrared camera, a monochrome CCD camera, a color CCD camera, or a Kinect camera. Images captured by thecamera 308 can be transmitted to one or more components of the childseat monitoring system 10 and/or thevehicle system 20 to process the images and extract status information therefrom. - For example, in some cases, the
camera 308 can be used to obtain status information for thechild presence detector 17 and/or the rearseat presence detector 32 by capturing images of the child seat 100 (or the child seat 200) and therear seat 302. Thechild presence detector 17 and/or the rearseat presence detector 32 can use the captured images to determine whether a child is occupying thechild seat 100 and/or thechild seat 100 is occupying therear seat 302, for example, by comparing the captured images to pre-stored images representing an occupied state and an unoccupied state, or using other known techniques. - As another example, in some cases, the
camera 308 can be used to obtain status information for the childseat belt sensor 16 and/or the rear seat belt sensor (not shown) by capturing images of theharness 104 of thechild seat 100 on the child and/or the seat belt 203 of therear seat 302 on the child. The childseat belt sensor 16 and/or the rear seat belt sensor can used the captured images to determine whether theharness 104 and/or the seat belt 203 is properly positioned on the child, for example, by comparing the capture images to pre-stored images showing proper and improper seat belt/harness placements, or using other known techniques. - As shown in
FIG. 4 , thevehicle 300 includes various other components of thevehicle system 20, such as thevehicle alarm system 30, thevehicle horn 40, the vehicle lights 42 included on an exterior of the vehicle and includingheadlights 42 a andtaillights 42 b, the cabin light(s) 44 included in an interior or cabin area of thevehicle 300, thewindows 48 which may be power-operated, and thedoors 50 which may include power-operated locks and one or more power-operated doors. As illustrated, thevehicle 300 also includes arear view mirror 310 for enabling a driver to look behind thevehicle 300, anignition switch 312 for starting or turning off an engine (not shown) of thevehicle 300, and a gear selector 314 (also known as a “gearshift”) for changing a gear of thevehicle 300 between, for example, park (“P”), reverse (“R”), neutral (“N”), drive (“D”), and low gear (“L”). - Referring back to
FIG. 1 , the components of the childseat monitoring system 10 can communicate with each other and/or the components of thevehicle system 20 using wired or wireless connections. For example, in some cases, one or more of thechild seat sensors 19 includes a transmitter (not shown) for wirelessly transmitting the output signals to the childseat monitoring module 12, theRCM 22, or other component of the childseat monitoring system 10 and/or thevehicle system 20. In other cases, one or more of thechild seat sensors 19 can be coupled via a wired connection (e.g., using a fixed cable) to the childseat monitoring module 12, theRCM 22, or other component of the childseat monitoring system 10 and/or thevehicle system 20. - For example, referring now to
FIG. 7 , in embodiments where the childseat monitoring module 12 resides in and is executed by thevehicle computing system 400, the childseat monitoring system 10 can further include anadapter 60 for connecting each of thechild seat sensors 19 to thevehicle system 20. The adapter 60 (also referred to as a “child seat adapter”) can be coupled to, or integrated into, thechild seat 100 and communicatively coupled to each of thechild seat sensors 19. As shown inFIG. 7 , in some embodiments, thechild seat sensors 19 can include awireless unit 62 for wireless communicating output signals to theadapter 60. In such cases, theadapter 60 can include awireless unit 64 for receiving the output signals transmitted by thechild seat sensors 19. - In some embodiments, the
child seat adapter 60 can be communicatively coupled to the rearseat buckle sensor 34 of the rearseat belt system 202. For example, as shown inFIG. 7 , in some cases, theadapter 60 can include a cable 66 (or cable jumper) with a connector or plug (not shown) capable of being coupled to, or inserted into, the rearseat buckle portion 206. In one embodiment, the rearseat buckle portion 206 is adapted to include a port or other connection point (not shown) for receiving the connector of theadapter 60. In another embodiment, the adapter connector is configured as a seat belt tongue for insertion into the rearseat buckle portion 206. - In other cases, the
wireless unit 64 of thechild seat adapter 60 can be configured to communicate with awireless unit 66 included in the rearseat buckle portion 206, as shown inFIG. 7 . In such cases, thewireless unit 64 can be configured for transmitting the output signals received from thechild seat sensors 19 to thewireless unit 66. Thewireless unit 66 can be configured for receiving the output signals transmitted by thewireless unit 64 and for transmitting the received signals to the childseat monitoring module 12, the vehicle computing system (VCS) 400, and/or the restraint control module (RCM) 22. According to embodiments, each of thewireless units - Other configurations for communicatively coupling the
child seat 100 and/or the childseat monitoring system 10 to thevehicle system 20 are also contemplated in accordance with the principles disclosed herein. For example, in some cases, thechild seat adapter 60 can be configured to communicate directly with theVCS 400, theRCM 22, the childseat monitoring module 12, or another vehicle unit (not shown) that is adjacent to therear seat 302 and in communication with the childseat monitoring module 12 and/or theRCM 22. In such cases, thewireless unit 66 can be included in therear seat 302 or other portion of thevehicle 300, depending on a wireless communication range of thewireless units - Referring back to
FIG. 5 , shown is example vehicle computing system (VCS) 400 that may be included in thevehicle 300, for example, as part of a vehicle electronics system or an infotainment system of thevehicle 300, in accordance with embodiments. TheVCS 400 may be an infotainment system such as the SYNC® system manufactured by FORD MOTOR COMPANY®. Other embodiments of theVCS 400 can include different, fewer, or additional components than those described below and shown inFIG. 5 . - As illustrated, the
VCS 400 can includedata storage device 402, data processor 404 (e.g., an electronic data processor), and a vehicle data bus 406. TheVCS 400 can further include various electronic control units (ECUs) that responsible for monitoring and controlling the electrical systems or subsystems of thevehicle 300. Each ECU may include, for example, one or more inputs and outputs for gathering, receiving, and/or transmitting data, a memory for storing the data, and a processor for processing the data and/or generating new information based thereon. In the illustrated embodiment, the ECUs of theVCS 400 include restraint control module (RCM) 22, powertrain control module (PCM) 24, body control module (BCM), human-machine interface (HMI) 28, and a telematics control unit (TCU) 408. In some cases, thealarm system 30 is also included in theVCS 400 and in communication with the other ECUs. In other cases, thealarm system 30 is a stand-alone unit that is coupled to thevehicle 300 and/or theVCS 400, for example, as an after-market unit. In some embodiments, thevehicle computing system 400 further includes a timer (not shown) for monitoring a timing of each notification presented by thevehicle system 20 and for notifying the childseat monitoring module 12 if a predetermined amount of time has passed after the notification presentation. - The ECUs of the
VCS 400 are interconnected by the vehicle data bus 406 (such as, e.g., a controller area network (CAN) bus), which passes data to and from the various ECUs, as well as other vehicle and/or auxiliary components (e.g., the alarm system, the rearseat presence detector 32, the rearseat buckle sensor 34, etc.) in communication with theVCS 400. Further, thedata processor 404 can communicate with any one of the ECUs and thedata storage device 402 via the data bus 406 in order to carry out one or more functions, including the functions associated with the childseat monitoring module 12. - The
TCU 408 can be an ECU for enabling thevehicle 300 to connect to one or more wireless networks, such as, for example, WiFi, WiMax, cellular (e.g., GSM, GPRS, LTE, 3G, 4G, CDMA, etc.), Bluetooth, near-field communication (NFC), radio-frequency identification (RFID), satellite, dedicate short-range communication (DSRC), Global Positioning System (GPS), and infrared networks. In embodiments, theTCU 408 includes awireless communication module 410 comprising one or more antennas, radios, modems, receivers, and/or transmitters (not shown) for connecting to, or interfacing with, the various wireless networks. In some cases, theTCU 408 can receive external data via thewireless communication module 410 and provide the external data to an appropriate ECU of theVCS 400. In other cases, theTCU 408 can receive internal data from one or more ECUs and/or thedata processor 404 with instructions to transmit the internal data to a component of thevehicle system 20, such as, for example, thekey fob 36, and/or themobile application 38 via a remote server (not shown). - As illustrated, the
wireless communication module 410 can include a short-range transceiver 412 for wirelessly communicating with therear wireless unit 66 and/or thewireless unit 64 of the childseat monitoring system 10 using short-range wireless communication technology (e.g., Bluetooth, NFC, RFID, etc.). In some cases, thewireless unit 66 can be included in thewireless communication module 410 such that theTCU 408 directly communicates with thewireless unit 64 of thechild seat adapter 60. Data or output signals received by thewireless communication module 410 from thewireless unit 64 can be provided to thedata processor 404, via the vehicle data bus 406, for processing by the childseat monitoring module 12. - The
TCU 408 can enable theVCS 400, or thevehicle 300, to pair with a user device (e.g., mobile phone, tablet, personal computer, etc.) of the vehicle operator, or more specificallymobile application 38 running on the mobile device, using Bluetooth, WiFi, cellular, or other wireless communication network. In such cases, theVCS 400 can communicate vehicle information to the vehicle operator or other user through the user device and/or themobile application 38. For example, in embodiments, theVCS 400 may communicate notifications (generated by the child seat monitoring module 12) to the user device for display thereon via themobile application 38. The notifications displayed using themobile application 38 may include pictorial messages, such as, e.g., theicons FIGS. 6A-6D , textual messages, audio messages or sounds, and/or any other type of warning that can be presented to the user through the user device. TheTCU 408 can also be used to communicate with a remote server (not shown) associated with a manufacturer of thevehicle 300, theVCS 400, and/or an infotainment system of thevehicle 300, such as the FORD SYNC® system. - The human-machine interface (HMI) 28 (also referred to as a “user interface”) can be an ECU for enabling user interaction with the
vehicle 300 and for presenting vehicle information to the vehicle operator or driver. TheHMI 28 comprises an instrument panel (IP) 414 of thevehicle 300, as well as one ormore input devices 416 and/oroutput devices 418 for inputting, entering, receiving, capturing, displaying, or outputting data associated with thevehicle computing system 400, the childseat monitoring module 12, or the techniques disclosed herein. - In embodiments, the instrument panel 414 (also referred to as a “dashboard” or “cluster”) includes a control panel positioned in front of the driver's seat for housing instrumentation and controls for operation of the
vehicle 300, including a steering wheel and various gauges (e.g., speedometer, odometer, fuel gauge, etc.), and various vehicle indicators, such as, for example, a selected position of thegearshift 314, seat belt warnings or notifications, low fuel, low tire pressure, etc. In some cases, theinstrument panel 414 includes a display 419 (or display screen) for electronically or digitally displaying the various gauges, or values related thereto, and the various vehicle indicators. In other cases, thedisplay 419 is included in theHMI 28 separate from theinstrument panel 414 and can be used to display other vehicle information, such as, for example, navigation system information, audio system information, video captured by an external vehicle camera (not shown), image(s) captured by the in-vehicle camera 308, heating and air/conditioning information, etc. In embodiments, theVCS 400 may communicate notifications generated by the childseat monitoring module 12 to the user via thedisplay 419 and/or theinstrument panel 414, for example, by displaying the icons 52-58 as one of the vehicle indicators or by displaying the image captured by the in-vehicle camera 308 to alert the vehicle operator to the presence of a child in thechild seat 100. - According to embodiments, the
input devices 416 can include, for example, one or more of a keyboard, keypad, pointing device (e.g., electronic or optical mouse), touch input device, microphone, voice or speech recognition module, button or push button, slider, switch, knob, dial, and any other type of input device. Theoutput devices 418 can include, for example, one or more of audio speaker(s), other sound-making or audio device(s), display screen(s), light(s), and any other type of output device. TheHMI 28 can be configured to interact with the other ECUs of theVCS 400 and/or thedata processor 404 via the data bus 406 in order to provide information or inputs received via theHMI 28 to an appropriate component of theVCS 400 and to present, to the vehicle operator, information or outputs received from the various components of theVCS 400. - The body control module (BCM) 26 can be an ECU configured for controlling and monitoring various electronic accessories in a body of the
vehicle 300. In embodiments, theBCM 26 includes a power doors controlunit 420 for controlling thevehicle doors 50, including locking, unlocking, opening, and/or closing thedoors 50. TheBCM 26 can also include a powerwindows control unit 422 for controlling thevehicle windows 48 and/or a power roof unit (e.g., moonroof, sunroof, convertible top, etc.), including opening and closing thewindows 48 or the roof unit. In some cases, the power doors controlunit 420 and the power windows controlunit 422 are included in a separate ECU known as thedoor control module 424. TheBCM 26 can further include an interior lights control unit 426 for controlling thecabin light 44 and any other interior lighting in the cabin area of thevehicle 300. In addition, theBCM 26 can include an exterior lights control unit 428 for controlling theheadlights 42 a, thetaillights 42 b, and any other lights on an exterior of thevehicle 300. As shown, theBCM 26 can also include an air conditioning and/orheating control unit 430 for controlling an air-condition unit and a heating unit of thevehicle 300. TheBCM 26 may further include control units for controlling other electronically-powered components in the body of thevehicle 300, such as, for example, power mirrors and power seats. - The powertrain control module (PCM) 24 can be an ECU for controlling and monitoring the engine and transmission of the
vehicle 300. In some embodiments, thePCM 24 can be separated into two separate ECUs, specifically an engine control unit and a transmission control unit. In either case, thePCM 24 can be configured to control starting and stopping of the engine of thevehicle 300. As shown inFIG. 5 , thePCM 24 can include anignition switch sensor 432 for detecting a position of theignition switch 312, where the ignition switch can be moved between, for example, an ignition “ON” position, an ignition “OFF position, a “start” (or crank) position, a “lock” position, and/or an “accessory” (or battery) position. As also shown, thePCM 24 can include agear position sensor 433 for detecting a position of the gear selector 314 (e.g., P, R, N, D, or L). In some cases, theignition switch sensor 432 can be included in, or coupled to, theignition switch 312 and configured to transmit a detected ignition switch position to thePCM 24. Further, thegear position sensor 433 can be included in, or coupled to, thegear selector 314 and configured to transmit a detected gear position to thePCM 24. ThePCM 24 can be configured to provide the detected gear position and/or the detected ignition switch position to thedata processor 404, via the vehicle data bus 406, for processing by the childseat monitoring module 12. - In some embodiments, the
VCS 400 further includes a remote keyless system (RKS)unit 434 for controlling and monitoring remote, keyless interactions between thekey fob 36 and thevehicle 300. TheRKS unit 434 can include a remote keyless entry system and in some cases, a remote keyless ignition system. In the latter case, theRKS unit 434 may be referred to as a “passive entry passive start” (PEPS) system. In some embodiments, theRKS unit 434 is a separate, stand-alone ECU that is interconnected to theBCM 26,PCM 24,TCU 408, and other ECUs of theVCS 400 via the vehicle bus 406 in order to carry out the RKS/PEPS operations. For example, theRKS unit 434 may receive vehicle commands from thekey fob 36 via theTCU 408, process the commands to identify the appropriate ECU for carrying out the command, send the command to the identified ECU, and confirm performance of the command. In other embodiments, theRKS unit 434 may be comprised of multiple segments that are incorporated into various ECUs of theVCS 400, such as, for example, theBCM 26, thePCM 24, and/or theTCU 408, to process the RKS/PEPS commands received at each ECU. In still other embodiments, theRKS unit 434 may be included within one ECU, such as, e.g., theTCU 408, in order to handle or process RKS/PEPS commands as they are received by thewireless communication module 410 of theTCU 408. In embodiments, theVCS 400 may communicate notifications generated by the childseat monitoring module 12 to the user via thekey fob 36, for example, by flashing, blinking, or otherwise illuminating one or more lights (e.g., light emitting diodes (LEDs)) included on thekey fob 36, or displaying a pictorial textual message on a display screen (not shown) of thekey fob 36. - The restraint control module (RCM) 22 can be an ECU for controlling and monitoring a restraint system (not shown) of the
vehicle 300, including the rearseat belt system 202 of therear seat 302, a seat belt system of the driver'sseat 304, and a seat belt system of the front passenger'sseat 306, and a supplemental restraint system (SRS) (not shown), including one or more vehicle airbags. As shown, theRCM 22 can include a seat beltbuckle sensing unit 436 configured to monitor a buckle status of the seat belt buckles in thevehicle 300. In embodiments, the seat beltbuckle sensing unit 436 includes, or is communicatively coupled to, the rearseat buckle sensor 34. In some embodiments, the seat beltbuckle sensing unit 436 is communicatively coupled to the child seat buckle sensor(s) 14 via the rearseat buckle sensor 34 and/or thechild seat adapter 60 shown inFIG. 7 . In such cases, the seat beltbuckle sensing unit 436 can receive output signals transmitted by thechild seat sensors 19 and provide them to the childseat monitoring module 12 via the vehicle data bus 406 for processing in accordance with the techniques described herein. - As shown in
FIG. 5 , theRCM 22 can further include a seat presence detection unit 438 configured to monitor a presence status for each of theseats vehicle 300. In some embodiments, the seat presence detection unit 438 can be an occupant classification system (OCS) for detecting the presence of, and distinguishing between, vehicle occupants in each of theseats seat presence detector 32. As an example, the rearseat presence detector 32 may transmit an output signal indicative of a measured weight or pressure detected on therear seat 302. Based on the measured weight, the vehicle OCS can determine an occupant's size and/or whether an adult, child, or car seat is sitting on therear seat 302. The vehicle OCS can also receive output signals from the rearseat belt system 202 of thevehicle 300, including, for example, whether theseat belt system 202 is buckled and/or a measured tension in the seat belt 203, in order to determine whether a child seat is occupying therear seat 302 versus a heavy object or an adult. An output of the seat presence detection unit 438 can be provided to the childseat monitoring module 12, via the vehicle data bus 406, for processing in accordance with the techniques described herein. - The
data processor 404 can comprise one or more of a microprocessor, a microcontroller, a programmable logic array, an application-specific integrated circuit, a logic device, or other electronic device for processing, inputting, outputting, manipulating, storing, or retrieving data. In embodiments, theVCS 400 can comprise a general purpose computer that is programmed with various programming instructions or modules stored in the data storage device 402 (e.g., electronic memory), or elsewhere. - The
data storage device 402 can comprise one or more of electronic memory, nonvolatile random access memory (e.g., RAM), flip-flops, a computer-writable or computer-readable storage medium, a magnetic or optical data storage device, a magnetic or optical disc drive, a hard disk drive, or other electronic device for storing, retrieving, reading, or writing data. Thedata storage device 304 stores one or more software program modules or software instructions, including the childseat monitoring module 12, for execution by thedata processor 404. In some cases, thedata storage device 402 also stores pictorial icons, textual messages, or other warnings 440 configured to alert the driver of thevehicle 300 to an alarm condition, including the icons 52-58 shown inFIGS. 6A-6D . -
FIG. 8 illustrates anexample method 700 for providing child seat monitoring in a vehicle (such as, e.g., thevehicle 300 shown inFIG. 4 ), in accordance with embodiments. Themethod 700 can be carried out by one or more processors (or controllers) included in, for example, a child seat monitoring system (such as, e.g., the childseat monitoring system 10 shown inFIG. 1 ), a vehicle system (such as, e.g., thevehicle system 20 shown inFIG. 1 ), and/or a vehicle computing system itself (such as, e.g., thevehicle computing system 400 shown inFIG. 5 ). In one embodiment, themethod 700 is implemented, at least in part, by thedata processor 404 of theVCS 400 executing software stored in thedata storage device 402, such as, e.g., the childseat monitoring module 12, and interacting with one or more components of theVCS 400 and/or the childseat monitoring system 10 coupled thereto. - The
method 700 can begin atstep 702 where the processor and/or the child seat monitoring module receives an input signal from a powertrain control module (such as, e.g., the PCM 24) of the vehicle and/or an ignition switch sensor (such as, e.g., theignition switch sensor 432 shown inFIG. 7 ), the input signal indicating that ignition is on (e.g., the ignition switch is turned to the “on” position). In response to receipt of the ignition “on” status of the vehicle, themethod 700 continues to step 704 to determine whether the presence of a child seat (such as, e.g., thechild seat 100 or the child seat 200) has been detected in a rear seat of the vehicle (e.g., therear seat 302 shown inFIG. 4 ) and if so, whether the presence of a child has been detected in the child seat. The determination atstep 704 can be made based on input signals received from a rear seat presence detector in the rear seat of the vehicle (such as, e.g., the rearseat presence detector 32 shown inFIG. 1 ) and a child presence detector in the child seat (such as, e.g., the child presence detector 17). Both of these input signals may be received via a restraint control module of the vehicle (such as, e.g., theRCM 22 shown inFIG. 5 ) that is coupled to, or includes, the presence-detecting devices connected to the rear seat and the child seat. If a child and a child seat are not detected atstep 704, themethod 700 can loop back to the beginning and keep checking for the child and child seat presence as long as the ignition status is “on.” - From
step 704, themethod 700 can continue to step 706 to determine whether the vehicle gearshift (e.g., thegearshift 314 shown inFIG. 4 ) is in a “park” position or a non-park position (e.g., drive, reverse, neutral, low gear, etc.). The determination atstep 706 can be made based on an input signal received from the gearshift of the vehicle, a gear position sensor (e.g., thegear position sensor 433 shown inFIG. 5 ), and/or the powertrain control module, the input signal indicating the selected gear. If the vehicle is in park, themethod 700 continues to step 708 to determine whether an engine of the vehicle is has been turned off, for example, based on a current position of the ignition switch. That is, atstep 708, themethod 700 determines whether the vehicle ignition switch is in the “off” position (e.g., the vehicle has been parked and is turned off) or in the “on” position (e.g., the vehicle has been parked and is still on). If the engine is still on (e.g., a determination of “no” at step 708), themethod 700 loops back to step 706 to determine whether the vehicle gearshift position is still in “park.” Themethod 700 may continue to loop betweensteps - If, at
step 706, the gearshift position is in a non-park position, for example, because the gearshift has been moved to the “reverse” or “drive” position (e.g., the determination atstep 706 is “no”), themethod 700 continues to step 710 to determine whether a seat belt buckle of the child seat is on or fastened. The determination atstep 710 can be made based on an input signal received from the RCM and/or the child seat monitoring system. For example, if the child seat is using the rear seat belt of the vehicle to secure the child into the child seat (such as, e.g., thechild seat 200 shown inFIG. 3 ), the RCM can receive buckle status information from a rear seat buckle sensor included in a rear seat belt system of the vehicle (such as, e.g., the rear seat buckle sensor 34) and provide the received buckle status information to the processor and/or the child seat monitoring module. As another example, if the child seat has an independent restraint system (such as, e.g., therestraint system 103 of thechild seat 100 shown inFIG. 2 ), an adapter coupled to the child seat (e.g., thechild seat adapter 60 shown inFIG. 7 ) can receive child seat buckle status information from a child seat buckle sensor included in the child seat (such as, e.g., the childseat buckler sensor 14 shown inFIG. 1 ) and provide the received buckle status information to the processor and/or the child seat monitoring module. - If the buckle status information indicates that the child seat is not properly buckled or fastened, a driving alarm condition is detected, and the
method 700 continues to thestep 712 to present an alert or other notification (e.g., from the first set of notifications) through an instrument panel (e.g., cluster or dashboard) or display screen of the vehicle (such as, e.g., theHMI 28 shown inFIG. 5 ). In some cases, the notification may be a visual or pictorial warning that is displayed on a display of the vehicle dashboard (e.g., thedisplay 419 shown inFIG. 5 ). For example, thenotification icons icon 52 may be displayed when thechild seat 100 is detected in the rear seat, and theicon 56 may be used when thechild seat 200 is detected in the rear seat. In other cases, the notification may be an audible alert, such as, e.g., a chime, alarm, or audio message, that is transmitting through an audio speaker or other audio device of the vehicle dashboard. In still other cases, a combination of the visual warning and the audible warning may be presented to the vehicle operator on the vehicle dashboard. - After the initial warning presentation is complete, the
method 700 continues to step 714 to wait for a predetermined amount of time (X) (e.g., ten to twenty seconds) (e.g., using a timer of the vehicle computing system) before repeating the determination atstep 710. This provides the driver with an opportunity to buckle the child seat belt before the child monitoring module and/or the processor re-checks the child seat buckle status. Themethod 700 may continue to loop throughsteps - In some embodiments, if the determination at
step 710 is “yes” (e.g., the child seat buckle is on), themethod 700 continues back to step 706 to re-check the gear status of the vehicle. So long as the vehicle is in a gear other than park (e.g., a non-parking position), themethod 700 continues to monitor the buckle status of the child seat in accordance withstep 710. As a result, the child seat monitoring module can help ensure that the child seat is properly buckled whenever the vehicle is moving or not parked (e.g., during a driving event). - In other embodiments, if the determination at
step 710 is “yes” (e.g., the child seat buckle is on), themethod 700 continues to step 716 to determine whether the child seat belt is properly positioned over the child in the child seat. The determination atstep 716 can be made based on an input signal received from the RCM and/or a child seat belt sensor in the child seat (e.g., the childseat belt sensor 16 shown inFIG. 2 ), the input signal indicating a belt position status of the child seat belt. In the case of a child seat that uses the rear seat belt system (e.g., thechild seat 200 shown inFIG. 3 ), the RCM may receive seat belt position information from the rear seat belt system and may provide the received information to the processor and/or the child seat monitoring module. In the case of a child seat that includes its own restraint system (e.g., thechild seat 100 shown inFIG. 2 ), the RCM may receive the child seat belt position information from a child seat adapter coupled to either the rear seat buckle sensor of the vehicle or the RCM itself. If the determination atstep 716 is “yes” (e.g., the belt status is proper), themethod 700 continues back to step 706 to determine whether the gearshift of the vehicle is in the “park” position or in a non-park position. - If, on the other hand, the determination at
step 716 is “no” (e.g., the belt status is not proper), a driving alarm condition is detected, and themethod 700 continues to step 718 to present an alert or other notification (e.g., form the first set of notifications) through the instrument panel or display screen of the vehicle. In some cases, the notification may be a visual or pictorial warning that is displayed on a display of the vehicle dashboard. For example, thenotification icon 54 may be displayed if the lap belt is too low or around the legs of the child, and thenotification icon 58 may be displayed if the lap belt is too high or on the abdomen of the child. Other icons or graphical warnings may be displayed specific to the belt position detected by the child seat belt sensor and may include, for example, an icon specific to thechild seat 100. In other cases, the notification may be an audible alert, such as, e.g., a chime, alarm, or audio message, that is transmitting through an audio speaker or other audio device of the vehicle dashboard. In still other cases, a combination of the visual warning and the audible warning may be presented to the vehicle operator on the vehicle dashboard. - After the warning presentation is complete, the
method 700 continues to step 720 to wait for a predetermined amount of time (X) (e.g., ten to twenty seconds) before repeating the determination atstep 716. This provides the driver with an opportunity to correct the child seat belt position before the child monitoring module and/or the processor re-checks the child seat belt status. Themethod 700 may continue to loop throughsteps - In some embodiments, the
method 700 further includesstep 722 to determine whether the child seat is properly attached to the vehicle. Step 722 can occur substantially simultaneously withstep 706, or at a different, adjacent point in time (e.g., sequentially before or after). The determination atstep 722 can be made based on an input signal received from the RCM and/or a child seat attachment sensor in the child seat (e.g., the childseat attachment sensor 18 shown inFIG. 2 ), the input signal indicating an attachment status of the child seat. The RCM may receive the attachment status information from the child seat adapter coupled to the rear seat belt sensor of the vehicle or the RCM itself. If the determination atstep 722 is “yes” (e.g., the child seat is attached properly), themethod 700 continues back to step 706 to determine whether the gearshift of the vehicle is in the “park” position or in a non-park position. - If, on the other hand, the determination at
step 722 is “no” (e.g., the car seat is not properly attached), a driving alarm condition is detected, and themethod 700 continues to step 724 to present an alert or notification (e.g., from the first set of notifications) through the instrument panel or display screen of the vehicle. In some cases, the notification may be a visual or pictorial warning that is displayed on a display of the vehicle dashboard and graphically indicates the attachment status of the child seat (e.g., an icon showing the areas of the child seat tether system that are not attached). In other cases, the notification may be an audible alert, such as, e.g., a chime, alarm, or audio message, that is transmitting through an audio speaker or other audio device of the vehicle dashboard. In still other cases, a combination of the visual warning and the audible warning may be presented to the vehicle operator on the vehicle dashboard. - After the warning presentation is complete, the
method 700 continues to step 726 to wait for a predetermined amount of time (X) (e.g., ten to twenty seconds) before repeating the determination atstep 722. This provides the driver with an opportunity to correct the child seat attachment configuration, or fasten the child seat tethers, before the child monitoring module and/or the processor re-checks the child seat attachment status. Themethod 700 may continue to loop throughsteps - Referring back to step 708, if the determination is “yes” (e.g., the engine is turned off or the ignition switch is in the “off” position), the
method 700 continues to step 728 to determine whether the child seat belt buckle is off or unbuckled. The determination atstep 728 can be made based on an input signal received from the RCM and/or the child seat buckle sensor, the input signal indicating the buckle status of the child seat belt. In the case of a child seat that uses the rear seat belt, the RCM may receive buckle status information from the rear seat buckle sensor and may provide the received information to the processor and/or the child seat monitoring module. In the case of a child seat that includes its own restraint system, the RCM may receive the child seat buckle status information from the child seat adapter coupled to either the rear seat buckle sensor of the vehicle or the RCM itself. If the determination atstep 728 is “yes” (e.g., the child seat belt is unbuckled), themethod 700 may end. - If, on the other hand, the determination at
step 728 is “no” (e.g., the child seat belt is buckled), a non-driving alarm condition is detected, and themethod 700 continues to step 730 to present a first alert or notification (e.g., the initial notification from the second set of notifications) on the instrument panel or display screen of the vehicle. In some cases, the first notification may be a visual or pictorial warning that is displayed on a display of the vehicle dashboard. For example, thenotification icon 52 may be displayed if thechild seat 100 is detected in the vehicle, and thenotification icon 56 may be displayed if thechild seat 200 is detected in the vehicle. Other icons or graphical messages may also be displayed, including, for example, a “warning” label or a textual reminder to unbuckle the child seat. In other cases, the notification may be an audible alert, such as, e.g., a chime, alarm, or audio message, that is transmitting through an audio speaker or other audio device of the vehicle dashboard. In still other cases, a combination of the visual warning and the audible warning may be presented to the vehicle operator on the vehicle dashboard. - After the warning presentation is complete, the
method 700 continues to step 732 to wait for a predetermined amount of time (X) (e.g., ten to twenty seconds). This provides the driver with an opportunity to correct unbuckle the child seat buckle before the child monitoring module and/or the processor re-checks the child seat buckle status. After the wait time is over, themethod 700 continues to step 734 to determine whether the child seat buckle has been unbuckled. If the determination atstep 734 is “yes” (e.g., the child seat buckle is off), themethod 700 may end. If the determination atstep 734 is “no” (e.g., the child seat buckle is still on), themethod 700 continues to step 736 to present a second, more obtrusive alert or notification using an exterior and/or interior portion of the vehicle (e.g., a subsequent notification from the second set of notifications). The second or subsequent notification(s) can continue to be presented until the non-driving alarm condition is removed, at which point themethod 700 may end. - In embodiments, the subsequent notification(s) can include one or more of (i) a light-based alert (e.g., turning on interior lights (e.g., the cabin lights 44 shown in
FIG. 4 ) if an external environment of the vehicle is dark or has low-lighting, turning on or flashing vehicle lights (e.g., headlights 42 a and/or taillights 42 b), or blinking key fob light(s) (e.g., on the key fob 36 shown inFIG. 1 )); (ii) an audible alarm (e.g., sounding a vehicle horn (e.g., the horn 40 shown inFIG. 4 ) or activating an alarm system (e.g., the alarm system 30)); (iii) a graphical warning (e.g., displaying one of the icons 52 or 56 on a mobile device of the vehicle operator (e.g., using the mobile application 38 shown inFIG. 1 )); and (iv) an automatic system override (e.g., turning on a vehicle A/C and heating system (e.g., the A/C and heating system 46 shown inFIG. 1 ), opening vehicle windows (e.g., the windows 48 shown inFIG. 4 ), and/or unlocking vehicle doors (e.g., the vehicle doors 50 shown inFIG. 4 ). - In some embodiments, the child
seat monitoring system 10 can be manually turned on or off by the vehicle operator. For example, the vehicle operator may activate the childseat monitoring system 10 after placing a child in thechild seat 100 and starting the engine of thevehicle 300. In such cases, themethod 700 may begin atstep 706 and may not includesteps seat monitoring module 10 can be automatically activated by thedata processor 404 each time the vehicle engine is turned on. In such cases, themethod 700 may begin atstep 702 as shown inFIG. 8 . - In certain embodiments, the process descriptions or blocks in the figures, such as
FIG. 8 , can represent modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps in the process. Any alternate implementations are included within the scope of the embodiments described herein, in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those having ordinary skill in the art. - It should be emphasized that the above-described embodiments, particularly, any “preferred” embodiments, are possible examples of implementations, merely set forth for a clear understanding of the principles of the invention. Many variations and modifications may be made to the above-described embodiment(s) without substantially departing from the spirit and principles of the techniques described herein. All such modifications are intended to be included herein within the scope of this disclosure and protected by the following claims.
Claims (21)
1. A vehicle, comprising:
a seat belt sensor for detecting a child seat belt status;
a vehicle gear selector;
a user interface to present a first notification when the gear selector is in park and the seat belt sensor detects the child seat beat status is buckled; and
vehicle doors disabling locking in response to the gear selector being in park and the child seat belt status being buckled for a predetermined period of time.
2. The vehicle of claim 1 , wherein the user interface is to present a second notification when the child seat belt status indicates an unbuckled seat belt and the selected gear is one of drive, reverse, neutral, or low gear.
3. The vehicle of claim 1 , wherein the user interface is to present a third notification when the child seat belt status indicates a buckled seat belt that is improperly positioned relative to a child.
4. The vehicle of claim 1 , wherein the user interface includes a display and the first notification is a graphical warning.
5. The vehicle of claim 1 , wherein the user interface includes an audio device and the first notification is an audible alarm.
6. The vehicle of claim 1 , further comprising a child seat attachment sensor coupled to the child seat for detecting a child seat attachment status, wherein the user interface is to present a fourth notification based on the child seat attachment status and a selected gear of the vehicle gear selector.
7. The vehicle of claim 6 , wherein the user interface presents the fourth alarm if the child seat attachment status is negative.
8. The vehicle of claim 6 , further comprising a child seat adapter configured to communicatively couple at least one of the seat belt sensor and the child seat attachment sensor to a processor.
9. The vehicle of claim 8 , wherein the child seat adapter is configured to wirelessly communicate at least one of the child seat belt status and the child seat attachment status to the processor.
10. The vehicle of claim 1 , further comprising an ignition switch selectively movable between an on position and an off position, wherein the user interface to present a fifth notification based on the child seat belt status and a selected ignition position.
11. The vehicle of claim 10 , wherein the user interface presents the fifth notification when the child seat belt status indicates a buckled seatbelt and the selected ignition position is the on position.
12. The vehicle of claim 10 , further comprising a vehicle window system that is to open vehicle windows a predetermined amount in response to determining that the selected ignition position is the on position and the seat beat sensor detects that the child seat belt status is buckled for a predetermined time period.
13. (canceled)
14. A method of providing child seat monitoring in a vehicle, comprising:
receiving a gear position from a vehicle gear selector;
receiving a child seat belt status from a vehicle seat sensor;
presenting, via a vehicle user interface, a first notification when the gear position is a park position and the child seat belt status is unbuckled; and
disabling locking of vehicle doors in response to the first notification continuing for a predetermined period of time.
15. The method of claim 17 , wherein the non-park position includes one of a drive position, a reverse position, a neutral position, and a low-gear position.
16. The method of claim 14 , further comprising continuing to present the first notification if the gear position and the child seat belt status do not change within the predetermined time period.
17. The method of claim 14 , further comprising:
receiving a child seat attachment status from a child seat attachment sensor; and
presenting a second notification, via the user interface, when the child seat attachment status is negative and the gear position is a non-park position.
18. The method of claim 14 , further comprising:
receiving an ignition switch position from a vehicle ignition switch sensor; and
presenting a third notification, via the vehicle user interface, when the ignition switch position is an off position and the child seat belt status is buckled.
19. The method of claim 18 , further comprising presenting a fourth notification using one or more vehicle systems if the child seat belt status and the ignition switch position do not change within a predetermined time period.
20. The method of claim 19 , wherein the one or more vehicle systems include at least one of the vehicle doors, vehicle windows, and a vehicle horn.
21. The vehicle of claim 10 , further including a vehicle horn system that sounds a vehicle horn in response to determining that the selected ignition position is in the on position and the seat beat sensor detects that the child seat belt status is buckled for a predetermined period of time.
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Cited By (33)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20180056814A1 (en) * | 2016-08-31 | 2018-03-01 | Paul Tanyi | Pressures Sensor Device for a Car Seat with Wireless Communication |
US20180126872A1 (en) * | 2016-11-09 | 2018-05-10 | Carmen Folino | System and Method for Alerting a Presence of a Passenger in a Vehicle |
US10053054B1 (en) * | 2017-09-12 | 2018-08-21 | Preemptec Corporation | Child car seat for lock-in prevention |
US20180301033A1 (en) * | 2017-04-13 | 2018-10-18 | Renesas Electronics Corporation | Safe driving assistance system and in-vehicle unit |
US20190061683A1 (en) * | 2017-08-31 | 2019-02-28 | Indiana Mills & Manufacturing, Inc. | Restraint system for an occupant seat mounted in a motor vehicle |
US10293782B1 (en) * | 2018-01-03 | 2019-05-21 | GM Global Technology Operations LLC | Method and apparatus for providing seatbelt notifications |
US20190168635A1 (en) * | 2017-10-03 | 2019-06-06 | Wanda McLaughlin | Car seat alarm system |
US20190193676A1 (en) * | 2017-12-21 | 2019-06-27 | GM Global Technology Operations LLC | Seat belt routing sensing systems and sensors and corresponding vehicle systems operating based on whether seat belts are properly worn |
US10377342B1 (en) * | 2019-02-04 | 2019-08-13 | Drivent Technologies Inc. | Self-driving vehicle systems and methods |
CN110371077A (en) * | 2019-07-19 | 2019-10-25 | 宁波环球娃娃婴童用品股份有限公司 | A kind of the safety belt tightness detector and detection method of child safety seat |
US10471804B1 (en) | 2018-09-18 | 2019-11-12 | Drivent Llc | Self-driving vehicle systems and methods |
US10474154B1 (en) | 2018-11-01 | 2019-11-12 | Drivent Llc | Self-driving vehicle systems and methods |
US10479319B1 (en) | 2019-03-21 | 2019-11-19 | Drivent Llc | Self-driving vehicle systems and methods |
US10493952B1 (en) | 2019-03-21 | 2019-12-03 | Drivent Llc | Self-driving vehicle systems and methods |
US20200175834A1 (en) * | 2017-11-09 | 2020-06-04 | Chukwunoso ARINZE | Interactive smart seat system |
US20200198439A1 (en) * | 2017-09-14 | 2020-06-25 | Lin Yu | Vehicle interior environment control |
US10744976B1 (en) | 2019-02-04 | 2020-08-18 | Drivent Llc | Self-driving vehicle systems and methods |
US10794714B2 (en) | 2018-10-01 | 2020-10-06 | Drivent Llc | Self-driving vehicle systems and methods |
US10832569B2 (en) | 2019-04-02 | 2020-11-10 | Drivent Llc | Vehicle detection systems |
US10900792B2 (en) | 2018-10-22 | 2021-01-26 | Drivent Llc | Self-driving vehicle systems and methods |
CN112677916A (en) * | 2019-10-17 | 2021-04-20 | 通用汽车环球科技运作有限责任公司 | Detection sensing device for upper and lower LATCH fasteners |
US11073838B2 (en) | 2018-01-06 | 2021-07-27 | Drivent Llc | Self-driving vehicle systems and methods |
US20210383670A1 (en) * | 2020-03-27 | 2021-12-09 | Christopher Joseph RENCE | Vehicle safety alert system |
AU2020230274B2 (en) * | 2019-09-10 | 2021-12-23 | Bambino Prezioso Switzerland Ag | Child safety seat and assembly system warning device thereof |
US11221621B2 (en) | 2019-03-21 | 2022-01-11 | Drivent Llc | Self-driving vehicle systems and methods |
US20220063536A1 (en) * | 2020-09-03 | 2022-03-03 | Kimberly Creek | Child Safety Seat Assembly |
US11318910B2 (en) | 2018-05-08 | 2022-05-03 | Freedman Seating Company | Vehicle passenger sensing and reporting system |
CN114516313A (en) * | 2020-11-20 | 2022-05-20 | 通用汽车环球科技运作有限责任公司 | Child safety system fastener usage and fastener tension sensing logic |
US11390214B2 (en) * | 2018-05-08 | 2022-07-19 | Freedman Seating Company | Vehicle passenger sensing and reporting system |
US20230035095A1 (en) * | 2021-07-28 | 2023-02-02 | Caterpillar Inc. | Methods and systems for detecting a machine operator |
US20230064124A1 (en) * | 2021-08-26 | 2023-03-02 | Uber Technologies, Inc. | User-Assisted Autonomous Vehicle Motion Initiation for Transportation Services |
US11644833B2 (en) | 2018-10-01 | 2023-05-09 | Drivent Llc | Self-driving vehicle systems and methods |
US20230196899A1 (en) * | 2021-12-20 | 2023-06-22 | Veoneer Us, Llc | In-cabin temperature monitoring for child presence detection applications |
Families Citing this family (28)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9937830B1 (en) * | 2016-10-10 | 2018-04-10 | V Bishop Benjamin Curry | Child passenger safety seat emergency cooling and notification system |
US10157529B2 (en) * | 2017-02-27 | 2018-12-18 | Sharkk, Llc | Device and system for alerting caregivers to a child abandoned in a potentially dangerous environment |
US10384570B2 (en) * | 2017-04-18 | 2019-08-20 | Ford Global Technologies, Llc | Child-seat restraint system |
US10315620B1 (en) * | 2017-12-08 | 2019-06-11 | International Business Machines Corporation | Method, system, and computer program product for detection of securely fastened seat belts |
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US10245975B1 (en) * | 2018-07-10 | 2019-04-02 | Keith Waters | Child car seat safety system |
DE102018211699A1 (en) * | 2018-07-13 | 2020-01-16 | Robert Bosch Gmbh | Method for monitoring an electric motor-adjustable child seat in the motor vehicle, and system for carrying out the method |
WO2020061188A1 (en) | 2018-09-18 | 2020-03-26 | Indiana Mills & Manufacturing, Inc. | Seat belt apparatus and buckle |
CN111079479A (en) * | 2018-10-19 | 2020-04-28 | 北京市商汤科技开发有限公司 | Child state analysis method and device, vehicle, electronic device and storage medium |
CN111079474A (en) * | 2018-10-19 | 2020-04-28 | 上海商汤智能科技有限公司 | Passenger state analysis method and device, vehicle, electronic device, and storage medium |
FI12768Y1 (en) * | 2018-12-12 | 2020-10-15 | Filo S R L | A safety system to prevent the abandonment of a child in a motor vehicle |
US11186244B2 (en) | 2019-03-22 | 2021-11-30 | Stmicroelectronics S.R.L. | Smart child safety equipment in vehicles |
DE102019205886A1 (en) * | 2019-04-25 | 2020-10-29 | Zf Friedrichshafen Ag | Method for monitoring at least one child in a rear area of a vehicle |
DE102019208932A1 (en) * | 2019-06-19 | 2020-12-24 | Volkswagen Aktiengesellschaft | Method for displaying the arrangement of components in a vehicle |
US11046286B2 (en) * | 2019-07-09 | 2021-06-29 | GM Global Technology Operations LLC | Methods and systems to improve child restraint installation detection |
CA3158577A1 (en) * | 2019-11-18 | 2021-05-27 | Zhengwen GUO | Tether assembly, and child safety seat and support structure thereof |
CN113352964A (en) | 2020-03-03 | 2021-09-07 | 宝钜瑞士股份有限公司 | Forward misuse alarm device |
US10857971B1 (en) * | 2020-03-09 | 2020-12-08 | Lemuel Alexander Davis | System and method of monitoring and managing a child seatbelt |
CN111301330A (en) * | 2020-03-10 | 2020-06-19 | 马瑞利汽车电子(广州)有限公司 | Vehicle rear door and window control method |
CN111231788B (en) * | 2020-03-11 | 2021-10-15 | 江苏安用座椅科技有限公司 | Child seat safety belt active control method based on child restraint system |
US11346142B2 (en) | 2020-03-19 | 2022-05-31 | Toyota Motor Engineering & Manufacturing North America, Inc. | Smart window to reduce HVAC load |
US11097659B1 (en) * | 2020-04-03 | 2021-08-24 | Ford Global Technologies, Llc | Rear occupant alert system |
KR20210143577A (en) | 2020-05-20 | 2021-11-29 | 삼성전자주식회사 | Method and apparatus for controling vehicle |
CN112373356A (en) * | 2020-11-05 | 2021-02-19 | 恒大新能源汽车投资控股集团有限公司 | Method, device and system for monitoring safety state of child in vehicle |
CN115723646A (en) * | 2021-09-02 | 2023-03-03 | 明门(中国)幼童用品有限公司 | Alarm system of safety seat and safety seat |
CN114683978B (en) * | 2022-02-24 | 2023-06-02 | 智己汽车科技有限公司 | Method and device for controlling child seat by vehicle machine, vehicle and storage medium |
CN115649106B (en) * | 2022-12-30 | 2023-03-21 | 深圳曦华科技有限公司 | Information processing method and device for vehicle cabin based on shoulder belt state detection |
CN116061869A (en) * | 2023-02-09 | 2023-05-05 | 珠海光通智装科技有限公司 | Safety seat belt use state detection method and equipment and safety seat |
Family Cites Families (20)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2310139A1 (en) * | 1975-05-05 | 1976-12-03 | Renault | Vehicle safety belt monitoring system - gives visual or audible reminder alarm if buckles not connected before moving off |
JP2000168500A (en) * | 1998-12-11 | 2000-06-20 | Ricoh Elemex Corp | Safety device for vehicle |
US6783167B2 (en) * | 1999-03-24 | 2004-08-31 | Donnelly Corporation | Safety system for a closed compartment of a vehicle |
US6684972B2 (en) * | 2000-11-30 | 2004-02-03 | Michael F. Oyaski | Apparatus to ensure use of vehicle seat belt |
US6924742B2 (en) | 2003-02-25 | 2005-08-02 | Fred Mesina | Baby seat belt alarm system |
US6998988B1 (en) | 2004-04-21 | 2006-02-14 | Kalce Paul D | Infant alarm system for an automobile |
US7170401B1 (en) | 2004-07-13 | 2007-01-30 | Cole Charles J | System to detect the presence of an unattended child in a vehicle |
US7378979B2 (en) | 2005-06-07 | 2008-05-27 | Rams Jr Victor H | Child occupancy detection system |
WO2007113809A2 (en) * | 2006-03-30 | 2007-10-11 | Saban Asher S | Protecting children and passengers with respect to a vehicle |
US20080055064A1 (en) | 2006-09-05 | 2008-03-06 | John David Keith | Child detector and reminder system |
US20090062990A1 (en) * | 2007-08-28 | 2009-03-05 | Gm Global Technology Operations, Inc. | Systems and Methods for Encouraging the Use of Vehicle Seat Belts |
US20090082926A1 (en) * | 2007-09-24 | 2009-03-26 | Klein Larry W | Safety system for seat belt securement |
US9443411B2 (en) * | 2007-12-14 | 2016-09-13 | Cars-N-Kids Llc | Systems and methods for networking of car seat monitoring systems utilizing a central hub |
US7786852B2 (en) | 2008-03-19 | 2010-08-31 | Kautz Greg C | Method and system for preventing leaving a child in an unattended vehicle |
US8179274B2 (en) | 2009-04-02 | 2012-05-15 | Ford Global Technologies, Llc | Child seat monitoring system |
US8836491B2 (en) * | 2010-04-29 | 2014-09-16 | Ford Global Technologies, Llc | Occupant detection |
US20140052342A1 (en) * | 2011-02-25 | 2014-02-20 | Joseph Seibert | Warning system for detecting infant seat buckle securement |
US20140284975A1 (en) * | 2013-03-20 | 2014-09-25 | Maria Nelly Manimbo | Talking Car Seat |
US9457716B2 (en) * | 2015-01-14 | 2016-10-04 | Amber Westmoreland | Child car seat safety system |
US20160339838A1 (en) * | 2015-05-21 | 2016-11-24 | Ricardo Jose Diaz | Car Seat Alert |
-
2015
- 2015-11-09 US US14/936,261 patent/US9663032B1/en active Active
-
2016
- 2016-10-25 RU RU2016141798A patent/RU2016141798A/en not_active Application Discontinuation
- 2016-11-01 CN CN201610935567.7A patent/CN107031559B/en active Active
- 2016-11-07 DE DE102016121148.6A patent/DE102016121148A1/en active Pending
- 2016-11-07 GB GB1618770.0A patent/GB2546141A/en not_active Withdrawn
- 2016-11-08 MX MX2016014619A patent/MX2016014619A/en unknown
-
2017
- 2017-05-08 US US15/589,678 patent/US9994150B2/en active Active
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US20180056814A1 (en) * | 2016-08-31 | 2018-03-01 | Paul Tanyi | Pressures Sensor Device for a Car Seat with Wireless Communication |
US20180126872A1 (en) * | 2016-11-09 | 2018-05-10 | Carmen Folino | System and Method for Alerting a Presence of a Passenger in a Vehicle |
US20180301033A1 (en) * | 2017-04-13 | 2018-10-18 | Renesas Electronics Corporation | Safe driving assistance system and in-vehicle unit |
US10994697B2 (en) * | 2017-08-31 | 2021-05-04 | Indiana Mills & Manufacturing, Inc. | Restraint system for an occupant seat mounted in a motor vehicle |
US20190061683A1 (en) * | 2017-08-31 | 2019-02-28 | Indiana Mills & Manufacturing, Inc. | Restraint system for an occupant seat mounted in a motor vehicle |
US10053054B1 (en) * | 2017-09-12 | 2018-08-21 | Preemptec Corporation | Child car seat for lock-in prevention |
US11059348B2 (en) * | 2017-09-14 | 2021-07-13 | Lin Yu | Vehicle interior environment control |
US11560037B2 (en) * | 2017-09-14 | 2023-01-24 | Lin Yu | Vehicle interior environment control |
US20200198439A1 (en) * | 2017-09-14 | 2020-06-25 | Lin Yu | Vehicle interior environment control |
US20190168635A1 (en) * | 2017-10-03 | 2019-06-06 | Wanda McLaughlin | Car seat alarm system |
US11752900B2 (en) * | 2017-10-03 | 2023-09-12 | Wanda McLaughlin | Car seat alarm system |
US10922942B2 (en) * | 2017-11-09 | 2021-02-16 | Chukwunonso Arinze | Interactive smart seat system |
US20200175834A1 (en) * | 2017-11-09 | 2020-06-04 | Chukwunoso ARINZE | Interactive smart seat system |
US20190193676A1 (en) * | 2017-12-21 | 2019-06-27 | GM Global Technology Operations LLC | Seat belt routing sensing systems and sensors and corresponding vehicle systems operating based on whether seat belts are properly worn |
US10569738B2 (en) * | 2017-12-21 | 2020-02-25 | GM Global Technology Operations LLC | Seat belt routing sensing systems and sensors and corresponding vehicle systems operating based on whether seat belts are properly worn |
US10293782B1 (en) * | 2018-01-03 | 2019-05-21 | GM Global Technology Operations LLC | Method and apparatus for providing seatbelt notifications |
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US11073838B2 (en) | 2018-01-06 | 2021-07-27 | Drivent Llc | Self-driving vehicle systems and methods |
US11789460B2 (en) | 2018-01-06 | 2023-10-17 | Drivent Llc | Self-driving vehicle systems and methods |
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